Your search keyword '"CHROMOSOMAL TRANSLOCATIONS"' showing total 91 results

1. Diversity upon diversity: linking DNA double-strand break repair to blood cancer health disparities

Author

Sterrenberg, Jason N, Folkerts, Melissa L, Rangel, Valeria, Lee, Sarah Eugenie, and Pannunzio, Nicholas R

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Human Genome, Cancer, Genetics, Aetiology, 2.1 Biological and endogenous factors, DNA, DNA Breaks, Double-Stranded, DNA End-Joining Repair, DNA Repair, Humans, Neoplasms, B cells, DNA repair, V(D)J recombination, cancer health disparities, chromosomal translocations, non-homologous end joining, Oncology and carcinogenesis

Abstract

Chromosomal translocations arising from aberrant repair of multiple DNA double-strand breaks (DSBs) are a defining characteristic of many cancers. DSBs are an essential part of physiological processes in antibody-producing B cells. The B cell environment is poised to generate genome instability leading to translocations relevant to the pathology of blood cancers. These are a diverse set of cancers, but limited data from under-represented groups have pointed to health disparities associated with each. We focus on the DSBs that occur in developing B cells and propose the most likely mechanism behind the formation of translocations. We also highlight specific cancers in which these rearrangements occur and address the growing concern of health disparities associated with them.

Published

2022

2. T-CAST: An optimized CAST-Seq pipeline for TALEN confirms superior safety and efficacy of obligate-heterodimeric scaffolds

Author

Manuel Rhiel, Kerstin Geiger, Geoffroy Andrieux, Julia Rositzka, Melanie Boerries, Toni Cathomen, and Tatjana I. Cornu

Subjects

TALEN, designer nuclease, chromosomal translocations, off-target effects, FokI, preclinical risk assessment, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Transcription activator-like effector nucleases (TALENs) are programmable nucleases that have entered the clinical stage. Each subunit of the dimer consists of a DNA-binding domain composed of an array of TALE repeats fused to the catalytically active portion of the FokI endonuclease. Upon DNA-binding of both TALEN arms in close proximity, the FokI domains dimerize and induce a staggered-end DNA double strand break. In this present study, we describe the implementation and validation of TALEN-specific CAST-Seq (T-CAST), a pipeline based on CAST-Seq that identifies TALEN-mediated off-target effects, nominates off-target sites with high fidelity, and predicts the TALEN pairing conformation leading to off-target cleavage. We validated T-CAST by assessing off-target effects of two promiscuous TALENs designed to target the CCR5 and TRAC loci. Expression of these TALENs caused high levels of translocations between the target sites and various off-target sites in primary T cells. Introduction of amino acid substitutions to the FokI domains, which render TALENs obligate-heterodimeric (OH-TALEN), mitigated the aforementioned off-target effects without loss of on-target activity. Our findings highlight the significance of T-CAST to assess off-target effects of TALEN designer nucleases and to evaluate mitigation strategies, and advocate the use of obligate-heterodimeric TALEN scaffolds for therapeutic genome editing.

Published

2023

3. KANK1-NTRK3 fusions define a subset of BRAF mutation negative renal metanephric adenomas

Author

Aida Catic, Amina Kurtovic-Kozaric, Ardis Sophian, Lech Mazur, Faruk Skenderi, Ondrej Hes, Stephen Rohan, Dinesh Rakheja, Jillene Kogan, and Michael R. Pins

Subjects

Metanephric adenoma, Cytogenetics, Chromosomal translocations, KANK1-NTRK3 fusion, BRAF V600E, Internal medicine, RC31-1245, Genetics, QH426-470

Abstract

Abstract Background Metanephric adenoma (MA) is a rare benign renal neoplasm. On occasion, MA can be difficult to differentiate from renal malignancies such as papillary renal cell carcinoma in adults and Wilms̕ tumor in children. Despite recent advancements in tumor genomics, there is limited data available regarding the genetic alterations characteristic of MA. The purpose of this study is to determine the frequency of metanephric adenoma cases exhibiting cytogenetic aberration t (9;15)(p24;q24), and to investigate the association between t (9,15) and BRAF mutation in metanephric adenoma. Methods This study was conducted on 28 archival formalin fixed paraffin-embedded (FFPE) specimens from patients with pathologically confirmed MA. Tissue blocks were selected for BRAF sequencing and fluorescent in situ hybridization (FISH) analysis for chromosomal rearrangement between KANK1 on chromosome 9 (9p24.3) and NTRK3 on chromosome 15 (15q25.3), which was previously characterized and described in two MA cases. Results BRAF V600E mutation was identified in 62% of our cases, 9 (38%) cases were BRAF WT, and 4 cases were uninformative. Of the 20 tumors with FISH results, two (10%) were positive for KANK1-NTRK3 fusion. Both cases were BRAF WT suggesting mutual exclusivity of BRAF V600E and KANK1-NTRK3 fusion, the first such observation in the literature. Conclusions Our data shows that BRAF mutation in MA may not be as frequent as suggested in the literature and KANK-NTRK3 fusions may account for a subset of BRAF WT cases in younger patients. FISH analysis for KANK1-NTRK3 fusion or conventional cytogenetic analysis may be warranted to establish the diagnosis of MA in morphologically and immunohistochemically ambiguous MA cases lacking BRAF mutations.

Published

2020

4. Reshuffling yeast chromosomes with CRISPR/Cas9.

Author

Fleiss, Aubin, O'Donnell, Samuel, Fournier, Téo, Lu, Wenqing, Agier, Nicolas, Delmas, Stéphane, Schacherer, Joseph, and Fischer, Gilles

Subjects

*CHROMOSOMES, *KARYOTYPES, *BASE pairs, *COMPUTATIONAL biology, *CHROMOSOMAL translocation, *GENE libraries, *CYTOLOGY, *YEAST

Abstract

Genome engineering is a powerful approach to study how chromosomal architecture impacts phenotypes. However, quantifying the fitness impact of translocations independently from the confounding effect of base substitutions has so far remained challenging. We report a novel application of the CRISPR/Cas9 technology allowing to generate with high efficiency both uniquely targeted and multiple concomitant reciprocal translocations in the yeast genome. Targeted translocations are constructed by inducing two double-strand breaks on different chromosomes and forcing the trans-chromosomal repair through homologous recombination by chimerical donor DNAs. Multiple translocations are generated from the induction of several DSBs in LTR repeated sequences and promoting repair using endogenous uncut LTR copies as template. All engineered translocations are markerless and scarless. Targeted translocations are produced at base pair resolution and can be sequentially generated one after the other. Multiple translocations result in a large diversity of karyotypes and are associated in many instances with the formation of unanticipated segmental duplications. To test the phenotypic impact of translocations, we first recapitulated in a lab strain the SSU1/ECM34 translocation providing increased sulphite resistance to wine isolates. Surprisingly, the same translocation in a laboratory strain resulted in decreased sulphite resistance. However, adding the repeated sequences that are present in the SSU1 promoter of the resistant wine strain induced sulphite resistance in the lab strain, yet to a lower level than that of the wine isolate, implying that additional polymorphisms also contribute to the phenotype. These findings illustrate the advantage brought by our technique to untangle the phenotypic impacts of structural variations from confounding effects of base substitutions. Secondly, we showed that strains with multiple translocations, even those devoid of unanticipated segmental duplications, display large phenotypic diversity in a wide range of environmental conditions, showing that simply reconfiguring chromosome architecture is sufficient to provide fitness advantages in stressful growth conditions. [ABSTRACT FROM AUTHOR]

Published

2019

5. DSB structure impacts DNA recombination leading to class switching and chromosomal translocations in human B cells.

Author

So, Clare C. and Martin, Alberto

Subjects

*DOUBLE-strand DNA breaks, *IMMUNOGLOBULIN class switching, *RECOMBINANT DNA, *CHROMOSOMAL translocation, *B cells, *HUMAN chromosomes

Abstract

Class switch recombination (CSR) requires activation-induced cytidine deaminase (AID) to trigger DNA double strand breaks (DSBs) at the immunoglobulin heavy chain (IGH) in B cells. Joining of AID-dependent DSBs within IGH facilitate CSR and effective humoral immunity, but ligation to DSBs in non-IGH chromosomes leads to chromosomal translocations. Thus, the mechanism by which AID-dependent DSBs are repaired requires careful examination. The random activity of AID in IGH leads to a spectrum of DSB structures. In this report, we investigated how DSB structure impacts end-joining leading to CSR and chromosomal translocations in human B cells, for which models of CSR are inefficient and not readily available. Using CRISPR/Cas9 to model AID-dependent DSBs in IGH and non-IGH genes, we found that DSBs with 5’ and 3’ overhangs led to increased processing during end-joining compared to blunt DSBs. We observed that 5’ overhangs were removed and 3’ overhangs were filled in at recombination junctions, suggesting that different subsets of enzymes are required for repair based on DSB polarity. Surprisingly, while Cas9-mediated switching preferentially utilized NHEJ regardless of DSB structure, A-EJ strongly preferred repairing blunt DSBs leading to translocations in the absence of NHEJ. We found that DSB polarity influenced frequency of Cas9-mediated switching and translocations more than overhang length. Lastly, recombination junctions from staggered DSBs exhibited templated insertions, suggesting iterative resection and filling in during repair. Our results demonstrate that DSB structure biases repair towards NHEJ or A-EJ to complete recombination leading to CSR and translocations, thus helping to elucidate the mechanism of genome rearrangements in human B cells. [ABSTRACT FROM AUTHOR]

Published

2019

6. Comprehensive structural variation genome map of individuals carrying complex chromosomal rearrangements.

Author

Eisfeldt, Jesper, Pettersson, Maria, Vezzi, Francesco, Wincent, Josephine, Käller, Max, Gruselius, Joel, Nilsson, Daniel, Syk Lundberg, Elisabeth, Carvalho, Claudia M. B., and Lindstrand, Anna

Subjects

*CHROMOSOMES, *NUCLEOTIDE sequencing, *GENOMES, *NUCLEOTIDES, *KARYOTYPES

Abstract

Complex chromosomal rearrangements (CCRs) are rearrangements involving more than two chromosomes or more than two breakpoints. Whole genome sequencing (WGS) allows for outstanding high resolution characterization on the nucleotide level in unique sequences of such rearrangements, but problems remain for mapping breakpoints in repetitive regions of the genome, which are known to be prone to rearrangements. Hence, multiple complementary WGS experiments are sometimes needed to solve the structures of CCRs. We have studied three individuals with CCRs: Case 1 and Case 2 presented with de novo karyotypically balanced, complex interchromosomal rearrangements (46,XX,t(2;8;15)(q35;q24.1;q22) and 46,XY,t(1;10;5)(q32;p12;q31)), and Case 3 presented with a de novo, extremely complex intrachromosomal rearrangement on chromosome 1. Molecular cytogenetic investigation revealed cryptic deletions in the breakpoints of chromosome 2 and 8 in Case 1, and on chromosome 10 in Case 2, explaining their clinical symptoms. In Case 3, 26 breakpoints were identified using WGS, disrupting five known disease genes. All rearrangements were subsequently analyzed using optical maps, linked-read WGS, and short-read WGS. In conclusion, we present a case series of three unique de novo CCRs where we by combining the results from the different technologies fully solved the structure of each rearrangement. The power in combining short-read WGS with long-molecule sequencing or optical mapping in these unique de novo CCRs in a clinical setting is demonstrated. [ABSTRACT FROM AUTHOR]

Published

2019

7. Diversity upon diversity: linking DNA double-strand break repair to blood cancer health disparities

Author

Jason N. Sterrenberg, Melissa L. Folkerts, Valeria Rangel, Sarah Eugenie Lee, and Nicholas R. Pannunzio

Subjects

B cells, Cancer Research, DNA End-Joining Repair, DNA Repair, DNA Breaks, Human Genome, Oncology and Carcinogenesis, cancer health disparities, DNA, Hematology, Article, V(D)J recombination, non-homologous end joining, chromosomal translocations, Double-Stranded, Rare Diseases, Oncology, Neoplasms, Genetics, Humans, 2.1 Biological and endogenous factors, DNA Breaks, Double-Stranded, Aetiology, Cancer

Abstract

Chromosomal translocations arising from aberrant repair of multiple DNA double-strand breaks (DSBs) are a defining characteristic of many cancers. DSBs are an essential part of physiological processes in antibody-producing B cells. The B cell environment is poised to generate genome instability leading to translocations relevant to the pathology of blood cancers. These are a diverse set of cancers, but limited data from under-represented groups have pointed to health disparities associated with each. We focus on the DSBs that occur in developing B cells and propose the most likely mechanism behind the formation of translocations. We also highlight specific cancers in which these rearrangements occur and address the growing concern of health disparities associated with them.

Published

2022

8. Development of a new 7BS.7HL winter wheat-winter barley Robertsonian translocation line conferring increased salt tolerance and (1,3;1,4)-β-D-glucan content.

Author

Türkösi, Edina, Darko, Eva, Rakszegi, Marianna, Molnár, István, Molnár-Láng, Márta, and Cseh, András

Subjects

*WHEAT breeding, *GLUCANS, *BARLEY, *CHROMATIN, *CHROMOSOMES

Abstract

Interspecific hybridization between bread wheat (Triticum aestivum, 2n = 42) and related species allows the transfer of agronomic and quality traits, whereby subsequent generations comprise an improved genetic background and can be directly applied in wheat breeding programmes. While wild relatives are frequently used as sources of agronomically favourable traits, cultivated species can also improve wheat quality and stress resistance. A salt-tolerant ‘Asakaze’/‘Manas’ 7H disomic addition line (2n = 44) with elevated β-glucan content, but with low fertility and an unstable genetic background was developed in an earlier wheat-barley prebreeding programme. The aim of the present study was to take this hybridization programme further and transfer the favourable barley traits into a more stable genetic background. Taking advantage of the breakage-fusion mechanism of univalent chromosomes, the ‘Rannaya’ winter wheat 7B monosomic line was used as female partner to the 7H addition line male, leading to the development of a compensating wheat/barley Robertsonian translocation line (7BS.7HL centric fusion, 2n = 42) exhibiting higher salt tolerance and elevated grain β-glucan content. Throughout the crossing programme, comprising the F1-F4 generations, genomic in situ hybridization, fluorescence in situ hybridization and chromosome-specific molecular markers were used to trace and identify the wheat and barley chromatin. Investigations on salt tolerance during germination and on the (1,3;1,4)-β-D-glucan (mixed-linkage glucan [MLG]) content of the seeds confirmed the salt tolerance and elevated grain MLG content of the translocation line, which can be directly applied in current wheat breeding programmes. [ABSTRACT FROM AUTHOR]

Published

2018

9. Position effect, cryptic complexity, and direct gene disruption as disease mechanisms in de novo apparently balanced translocation cases.

Author

Aristidou, Constantia, Theodosiou, Athina, Bak, Mads, Mehrjouy, Mana M., Constantinou, Efthymia, Alexandrou, Angelos, Papaevripidou, Ioannis, Christophidou-Anastasiadou, Violetta, Skordis, Nicos, Kitsiou-Tzeli, Sophia, Tommerup, Niels, and Sismani, Carolina

Subjects

*MEDICAL genetics, *CHROMOTHRIPSIS, *PHENOTYPES, *NUCLEOTIDE sequence, *MOLECULAR biology

Abstract

The majority of apparently balanced translocation (ABT) carriers are phenotypically normal. However, several mechanisms were proposed to underlie phenotypes in affected ABT cases. In the current study, whole-genome mate-pair sequencing (WG-MPS) followed by Sanger sequencing was applied to further characterize de novo ABTs in three affected individuals. WG-MPS precisely mapped all ABT breakpoints and revealed three possible underlying molecular mechanisms. Firstly, in a t(X;1) carrier with hearing loss, a highly skewed X-inactivation pattern was observed and the der(X) breakpoint mapped ~87kb upstream an X-linked deafness gene namely POU3F4, thus suggesting an underlying long-range position effect mechanism. Secondly, cryptic complexity and a chromothripsis rearrangement was identified in a t(6;7;8;12) carrier with intellectual disability. Two translocations and a heterozygous deletion disrupted SOX5; a dominant nervous system development gene previously reported in similar patients. Finally, a direct gene disruption mechanism was proposed in a t(4;9) carrier with dysmorphic facial features and speech delay. In this case, the der(9) breakpoint directly disrupted NFIB, a gene involved in lung maturation and development of the pons with important functions in main speech processes. To conclude, in contrast to familial ABT cases with identical rearrangements and discordant phenotypes, where translocations are considered coincidental, translocations seem to be associated with phenotype presentation in affected de novo ABT cases. In addition, this study highlights the importance of investigating both coding and non-coding regions to decipher the underlying pathogenic mechanisms in these patients, and supports the potential introduction of low coverage WG-MPS in the clinical investigation of de novo ABTs. [ABSTRACT FROM AUTHOR]

Published

2018

10. Repeated translocation of a gene cassette drives sex-chromosome turnover in strawberries.

Author

Tennessen, Jacob A., Wei, Na, Straub, Shannon, Govindarajulu, Rajanikanth, Liston, Aaron, and Ashman, Tia-Lynn

Subjects

*GENE cassettes, *SEX chromosomes, *STRAWBERRIES, *EUKARYOTES, *NUCLEOTIDE sequence

Abstract

Turnovers of sex-determining systems represent important diversifying forces across eukaryotes. Shifts in sex chromosomes—but conservation of the master sex-determining genes—characterize distantly related animal lineages. Yet in plants, in which separate sexes have evolved repeatedly and sex chromosomes are typically homomorphic, we do not know whether such translocations drive sex-chromosome turnovers within closely related taxonomic groups. This phenomenon can only be demonstrated by identifying sex-associated nucleotide sequences, still largely unknown in plants. The wild North American octoploid strawberries (Fragaria) exhibit separate sexes (dioecy) with homomorphic, female heterogametic (ZW) inheritance, yet sex maps to three different chromosomes in different taxa. To characterize these turnovers, we identified sequences unique to females and assembled their reads into contigs. For most octoploid Fragaria taxa, a short (13 kb) sequence was observed in all females and never in males, implicating it as the sex-determining region (SDR). This female-specific “SDR cassette” contains both a gene with a known role in fruit and pollen production and a novel retrogene absent on Z and autosomal chromosomes. Phylogenetic comparison of SDR cassettes revealed three clades and a history of repeated translocation. Remarkably, the translocations can be ordered temporally due to the capture of adjacent sequence with each successive move. The accumulation of the “souvenir” sequence—and the resultant expansion of the hemizygous SDR over time—could have been adaptive by locking genes into linkage with sex. Terminal inverted repeats at the insertion borders suggest a means of movement. To our knowledge, this is the first plant SDR shown to be translocated, and it suggests a new mechanism (“move-lock-grow”) for expansion and diversification of incipient sex chromosomes. [ABSTRACT FROM AUTHOR]

Published

2018

11. Molecular cytogenetic and morphological characterization of two wheat-barley translocation lines.

Author

Ivanizs, László, Farkas, András, Linc, Gabriella, Molnár-Láng, Márta, and Molnár, István

Subjects

*CYTOGENETICS, *PLANT translocation, *PLANT morphology, *WHEAT, *BARLEY, *LOCUS in plant genetics

Abstract

Abstract: Barley chromosome 5H, carrying important QTLs for plant adaptation and tolerance to abiotic stresses, is extremely instable in the wheat genetic background and is eliminated in the early generations of wheat-barley crosses. A spontaneous wheat-barley 5HS-7DS.7DL translocation was previously obtained among the progenies of the Mv9kr1 x Igri hybrid. The present work reports on the transfer of the 5HS-7DS.7DL translocation into a modern wheat cultivar, Mv Bodri, in order to use it in the wheat breeding program. The comparison of the hybridization bands of DNA repeats HvT01, pTa71, (GAA)n and the barley centromere-specific (AGGGAG)n in Igri barley and the 5HS-7DS.7DL translocation, together with the visualization of the barley chromatin made it possible to determine the size of the introgressed barley segment, which was approximately 74% of the whole 5HS. Of the 29 newly developed PCR markers, whose source ESTs were selected from the Genome Zipper of barley chromosome 5H, 23 were mapped in the introgressed 1–0.26 FL 5HS bin, three were located in the missing C-0.26 FL region, while three markers were specific for 5HL. The translocation breakpoint was flanked by markers Hv7502 and Hv3949. A comparison of the parental wheat cultivars and the wheat-barley introgression lines indicated that the presence of the translocation improved tillering ability in the Mv9kr1 and Mv Bodri genetic background. The similar or better yield components under high- or low-input cultivation environments, respectively, indicated that the 5HS-7DS.7DL translocation had little or no negative effect on yield components, making it a promising genotype to improve wheat genetic diversity. These results promise to accelerate functional genomic studies on barley chromosome 5H and to support pre-breeding and breeding research on wheat. [ABSTRACT FROM AUTHOR]

Published

2018

12. A family of long intergenic non-coding RNA genes in human chromosomal region 22q11.2 carry a DNA translocation breakpoint/AT-rich sequence.

Author

Delihas, Nicholas

Subjects

*NON-coding RNA, *HUMAN chromosomes, *CHROMOSOMAL translocation, *SEQUENCE alignment, *SATELLITE DNA

Abstract

FAM230C, a long intergenic non-coding RNA (lincRNA) gene in human chromosome 13 (chr13) is a member of lincRNA genes termed family with sequence similarity 230. An analysis using bioinformatics search tools and alignment programs was undertaken to determine properties of FAM230C and its related genes. Results reveal that the DNA translocation element, the Translocation Breakpoint Type A (TBTA) sequence, which consists of satellite DNA, Alu elements, and AT-rich sequences is embedded in the FAM230C gene. Eight lincRNA genes related to FAM230C also carry the TBTA sequences. These genes were formed from a large segment of the 3’ half of the FAM230C sequence duplicated in chr22, and are specifically in regions of low copy repeats (LCR22)s, in or close to the 22q.11.2 region. 22q11.2 is a chromosomal segment that undergoes a high rate of DNA translocation and is prone to genetic deletions. FAM230C-related genes present in other chromosomes do not carry the TBTA motif and were formed from the 5’ half region of the FAM230C sequence. These findings identify a high specificity in lincRNA gene formation by gene sequence duplication in different chromosomes. [ABSTRACT FROM AUTHOR]

Published

2018

13. Clinicopathological analysis of polyploid diffuse large B-cell lymphoma.

Author

Shimono, Joji, Miyoshi, Hiroaki, Kiyasu, Junichi, Kamimura, Tomohiko, Eto, Tetsuya, Miyagishima, Takuto, Nagafuji, Koji, Seto, Masao, Teshima, Takanori, and Ohshima, Koichi

Subjects

*B cell lymphoma, *POLYPLOIDY, *CHROMOSOME abnormalities, *HOMOLOGOUS chromosomes, *CLINICAL pathology

Abstract

Polyploid chromosomes are those with more than two sets of homologous chromosomes. Polyploid chromosomal abnormalities are observed in various malignant tumors. The prognosis in such cases is generally poor. However, there are no studies examining the prognosis of diffuse large B-cell lymphoma (DLBCL) with polyploid chromosomal abnormalities. Therefore, we statistically compared the clinicopathological features between polyploid DLBCL and DLBCL without polyploid abnormalities. Herein, 51 polyploid DLBCL and 53 control (without polyploid chromosomal abnormalities) cases were examined. G-banding method was employed to define polyploidy by cytogenetic analysis. Subsequently, flow cytometric immunophenotyping and immunohistochemical staining were performed. Polyploid DLBCL was defined as DLBCL with either near-tetraploid or greater number of chromosomes, as detected by the G-band. In a survival analysis, a significantly worse overall survival (OS) was observed for polyploid DLBCL (p = 0.04; p = 0.02 in cases who received R-CHOP regimens). In a multivariate analysis of OS, polyploid chromosomal abnormalities were an independent prognostic factor. Our results suggest that polyploid chromosomal abnormalities detected through G-band may represent a new poor prognostic factor for DLBCL. [ABSTRACT FROM AUTHOR]

Published

2018

14. High density SNP mapping and QTL analysis for time of leaf budburst in Corylus avellana L.

Author

Torello Marinoni, Daniela, Valentini, Nadia, Portis, Ezio, Acquadro, Alberto, Beltramo, Chiara, Mehlenbacher, Shawn A., Mockler, Todd C., Rowley, Erik R., and Botta, Roberto

Subjects

*HAZEL, *PLANT breeding, *SINGLE nucleotide polymorphisms, *PLANT molecular biology, *PLANT development, *PLANT genetics

Abstract

The growing area of European hazelnut (Corylus avellana L.) is increasing, as well as the number of producing countries, and there is a pressing need for new improved cultivars. Hazelnut conventional breeding process is slow, due to the length of juvenile phase and the high heterozygosity level. The development of genetic linkage maps and the identification of molecular markers tightly linked to QTL (quantitative trait loci) of agronomic interest are essential tools for speeding up the selection of seedlings carrying desired traits through marker-assisted selection. The objectives of this study were to enrich a previous linkage map and confirm QTL related to time of leaf budburst, using an F1 population obtained by crossing Tonda Gentile delle Langhe with Merveille de Bollwiller. Genotyping-by-Sequencing was used to identify a total of 9,999 single nucleotide polymorphism markers. Well saturated linkage maps were constructed for each parent using the double pseudo-testcross mapping strategy. A reciprocal translocation was detected in Tonda Gentile delle Langhe between two non-homologous chromosomes. Applying a bioinformatic approach, we were able to disentangle ‘pseudo-linkage’ between markers, removing markers around the translocation breakpoints and obtain a linear order of the markers for the two chromosomes arms, for each linkage group involved in the translocation. Twenty-nine QTL for time of leaf budburst were identified, including a stably expressed region on LG_02 of the Tonda Gentile delle Langhe map. The stability of these QTL and their coding sequence content indicates promise for the identification of specific chromosomal regions carrying key genes involved in leaf budburst. [ABSTRACT FROM AUTHOR]

Published

2018

15. SUMO E3 ligase Mms21 prevents spontaneous DNA damage induced genome rearrangements.

Author

Liang, Jason, Li, Bin-zhong, Tan, Alexander P., Kolodner, Richard D., Putnam, Christopher D., and Zhou, Huilin

Subjects

*DNA damage, *LIGASE genetics, *UBIQUITIN, *COMPLEMENTATION (Genetics), *DNA replication

Abstract

Mms21, a subunit of the Smc5/6 complex, possesses an E3 ligase activity for the Small Ubiquitin-like MOdifier (SUMO). Here we show that the mms21-CH mutation, which inactivates Mms21 ligase activity, causes increased accumulation of gross chromosomal rearrangements (GCRs) selected in the dGCR assay. These dGCRs are formed by non-allelic homologous recombination between divergent DNA sequences mediated by Rad52-, Rrm3- and Pol32-dependent break-induced replication. Combining mms21-CH with sgs1Δ caused a synergistic increase in GCRs rates, indicating the distinct roles of Mms21 and Sgs1 in suppressing GCRs. The mms21-CH mutation also caused increased rates of accumulating uGCRs mediated by breakpoints in unique sequences as revealed by whole genome sequencing. Consistent with the accumulation of endogenous DNA lesions, mms21-CH mutants accumulate increased levels of spontaneous Rad52 and Ddc2 foci and had a hyper-activated DNA damage checkpoint. Together, these findings support that Mms21 prevents the accumulation of spontaneous DNA lesions that cause diverse GCRs. [ABSTRACT FROM AUTHOR]

Published

2018

16. Insights into the origin of the high variability of multivalent-meiotic associations in holocentric chromosomes of Tityus (Archaeotityus) scorpions.

Author

Mattos, Viviane Fagundes, Carvalho, Leonardo Sousa, Carvalho, Marcos André, and Schneider, Marielle Cristina

Subjects

*TITYUS, *SCORPIONS, *CHROMOSOMES, *ENDOPOLYPLOIDY, *MEIOSIS, *INSECTS

Abstract

Scorpions represent an intriguing group of animals characterized by a high incidence of heterozygous chromosomal rearrangements. In this work, we examined six species of Tityus (Archaeotityus) from Brazilian fauna with a particular focus on elucidating the rearrangements responsible for the intraspecific variability of diploid number and the presence of long chromosomal chains in meiosis. To access any interpopulation diversity, we also studied individuals from four species representing distinct localities. Most species demonstrated intraspecific polymorphism in diploid number (2n = 19 and 2n = 20 in T. clathratus, T. mattogrossensis, and T. pusillus, 2n = 16, 2n = 17 and 2n = 18 in T. paraguayensis, and 2n = 16 and 2n = 24 in T. silvestris) and multi-chromosomal associations during meiosis I, which differed even among individuals with the same chromosome number. In some species, the heterozygous rearrangements were not fixed, resulting such as in Tityus clathatrus, in 11 different chromosomal configurations recognized within a same population. Based on meiotic chromosome behaviour, we suggested that independent rearrangements (fusion/fission and reciprocal translocations), occurring in different combinations, originated the multi-chromosomal chains. To evaluate the effects of these chromosome chains on meiotic segregation, we applied the chi-square test in metaphase II cells. The non-significant occurrence of aneuploid nuclei indicated that non-disjunction was negligible in specimens bearing heterozygous rearrangements. Finally, based on our analysis of many chromosome characteristics, e.g., holocentricity, achiasmate meiosis, endopolyploidy, ability to segregate heterosynaptic or unsynapsed chromosomes, ()n sequence located in terminal regions of rearranged chromosomes, we suggest that the maintenance of multi-chromosomal associations may be evolutionarily advantageous for these species. [ABSTRACT FROM AUTHOR]

Published

2018

17. Karyotype evolution in Phalaris (Poaceae): The role of reductional dysploidy, polyploidy and chromosome alteration in a wide-spread and diverse genus.

Author

Winterfeld, Grit, Becher, Hannes, Voshell, Stephanie, Hilu, Khidir, and Röser, Martin

Subjects

*KARYOTYPES, *PHALARIS, *POLYPLOIDY in plant chromosomes, *PLANT diversity, *PLANT evolution

Abstract

Karyotype characteristics can provide valuable information on genome evolution and speciation, in particular in taxa with varying basic chromosome numbers and ploidy levels. Due to its worldwide distribution, remarkable variability in morphological traits and the fact that ploidy change plays a key role in its evolution, the canary grass genus Phalaris (Poaceae) is an excellent study system to investigate the role of chromosomal changes in species diversification and expansion. Phalaris comprises diploid species with two basic chromosome numbers of x = 6 and 7 as well as polyploids based on x = 7. To identify distinct karyotype structures and to trace chromosome evolution within the genus, we apply fluorescence in situ hybridisation (FISH) of 5S and 45S rDNA probes in four diploid and four tetraploid Phalaris species of both basic numbers. The data agree with a dysploid reduction from x = 7 to x = 6 as the result of reciprocal translocations between three chromosomes of an ancestor with a diploid chromosome complement of 2n = 14. We recognize three different genomes in the genus: (1) the exclusively Mediterranean genome A based on x = 6, (2) the cosmopolitan genome B based on x = 7 and (3) a genome C based on x = 7 and with a distribution in the Mediterranean and the Middle East. Both auto- and allopolyploidy of genomes B and C are suggested for the formation of tetraploids. The chromosomal divergence observed in Phalaris can be explained by the occurrence of dysploidy, the emergence of three different genomes, and the chromosome rearrangements accompanied by karyotype change and polyploidization. Mapping the recognized karyotypes on the existing phylogenetic tree suggests that genomes A and C are restricted to sections Phalaris and Bulbophalaris, respectively, while genome B occurs across all taxa with x = 7. [ABSTRACT FROM AUTHOR]

Published

2018

18. Clonal chromosomal and genomic instability during human multipotent mesenchymal stromal cells long-term culture.

Author

Nikitina, Victoria, Astrelina, Tatiana, Nugis, Vladimir, Ostashkin, Aleksandr, Karaseva, Tatiana, Dobrovolskaya, Ekaterina, Usupzhanova, Dariya, Suchkova, Yulia, Lomonosova, Elena, Rodin, Sergey, Brunchukov, Vitaliy, Lauk-Dubitskiy, Stanislav, Brumberg, Valentin, Machova, Anastasia, Kobzeva, Irina, Bushmanov, Andrey, and Samoilov, Aleksandr

Subjects

*MULTIPOTENT stem cells, *STROMAL cells, *CELL culture, *MUTAGENESIS, *IMMUNOPHENOTYPING, *SHORT tandem repeat analysis

Abstract

Background aims: Spontaneous mutagenesis often leads to appearance of genetic changes in cells. Although human multipotent mesenchymal stromal cells (hMSC) are considered as genetically stable, there is a risk of genomic and structural chromosome instability and, therefore, side effects of cell therapy associated with long-term effects. In this study, the karyotype, genetic variability and clone formation analyses have been carried out in the long-term culture MSC from human gingival mucosa. Methods: The immunophenotype of MSC has been examined using flow cytofluorometry and short tandem repeat (STR) analysis has been carried out for authentication. The karyotype has been examined using GTG staining and mFISH, while the assessment of the aneuploidy 8 frequency has been performed using centromere specific chromosome FISH probes in interphase cells. Results: The immunophenotype and STR loci combination did not change during the process of cultivation. From passage 23 the proliferative activity of cultured MSCs was significantly reduced. From passage 12 of cultivation, clones of cells with stable chromosome aberrations have been identified and the biggest of these (12%) are tetrasomy of chromosome 8. The random genetic and structural chromosomal aberrations and the spontaneous level of chromosomal aberrations in the hMSC long-term cultures were also described. Conclusions: The spectrum of spontaneous chromosomal aberrations in MSC long-term cultivation has been described. Clonal chromosomal aberrations have been identified. A clone of cells with tetrasomy 8 has been detected in passage 12 and has reached the maximum size by passage 18 before and decreased along with the reduction of proliferative activity of cell line by passage 26. At later passages, the MSC line exhibited a set of cells with structural variants of the karyotype with a preponderance of normal diploid cells. The results of our study strongly suggest a need for rigorous genetic analyses of the clone formation in cultured MSCs before use in medicine. [ABSTRACT FROM AUTHOR]

Published

2018

19. Clustering of samples and variables with mixed-type data.

Author

Hummel, Manuela, Edelmann, Dominic, and Kopp-Schneider, Annette

Subjects

*BIOMETRY, *HUMAN cytogenetics, *DNA methylation, *PROTOTYPES, *STATISTICAL correlation

Abstract

Analysis of data measured on different scales is a relevant challenge. Biomedical studies often focus on high-throughput datasets of, e.g., quantitative measurements. However, the need for integration of other features possibly measured on different scales, e.g. clinical or cytogenetic factors, becomes increasingly important. The analysis results (e.g. a selection of relevant genes) are then visualized, while adding further information, like clinical factors, on top. However, a more integrative approach is desirable, where all available data are analyzed jointly, and where also in the visualization different data sources are combined in a more natural way. Here we specifically target integrative visualization and present a heatmap-style graphic display. To this end, we develop and explore methods for clustering mixed-type data, with special focus on clustering variables. Clustering of variables does not receive as much attention in the literature as does clustering of samples. We extend the variables clustering methodology by two new approaches, one based on the combination of different association measures and the other on distance correlation. With simulation studies we evaluate and compare different clustering strategies. Applying specific methods for mixed-type data proves to be comparable and in many cases beneficial as compared to standard approaches applied to corresponding quantitative or binarized data. Our two novel approaches for mixed-type variables show similar or better performance than the existing methods ClustOfVar and bias-corrected mutual information. Further, in contrast to ClustOfVar, our methods provide dissimilarity matrices, which is an advantage, especially for the purpose of visualization. Real data examples aim to give an impression of various kinds of potential applications for the integrative heatmap and other graphical displays based on dissimilarity matrices. We demonstrate that the presented integrative heatmap provides more information than common data displays about the relationship among variables and samples. The described clustering and visualization methods are implemented in our R package CluMix available from . [ABSTRACT FROM AUTHOR]

Published

2017

20. Identification of a t(3;4)(p1.3;q1.5) translocation breakpoint in pigs using somatic cell hybrid mapping and high-resolution mate-pair sequencing.

Author

Fève, Katia, Foissac, Sylvain, Pinton, Alain, Mompart, Florence, Esquerré, Diane, Faraut, Thomas, Yerle, Martine, and Riquet, Juliette

Subjects

*SOMATIC hybrids, *CHROMOSOMAL translocation, *NUCLEOTIDE sequencing, *CYTOGENETICS, *LABORATORY swine

Abstract

Reciprocal translocations are the most frequently occurring constitutional structural rearrangements in mammalian genomes. In phenotypically normal pigs, an incidence of 1/200 is estimated for such rearrangements. Even if constitutional translocations do not necessarily induce defects and diseases, they are responsible for significant economic losses in domestic animals due to reproduction failures. Over the last 30 years, advances in molecular and cytogenetic technologies have led to major improvements in the resolution of the characterization of translocation events. Characterization of translocation breakpoints helps to decipher the mechanisms that lead to such rearrangements and the functions of the genes that are involved in the translocation. Here, we describe the fine characterization of a reciprocal translocation t(3;4) (p1.3;q1.5) detected in a pig line. The breakpoint was identified at the base-pair level using a positional cloning and chromosome walking strategy in somatic cell hybrids that were generated from an animal that carries this translocation. We show that this translocation occurs within the ADAMTSL4 gene and results in a loss of expression in homozygous carriers. In addition, by taking this translocation as a model, we used a whole-genome next-generation mate-pair sequencing approach on pooled individuals to evaluate this strategy for high-throughput screening of structural rearrangements. [ABSTRACT FROM AUTHOR]

Published

2017

21. Comparative genomic mapping reveals mechanisms of chromosome diversification in Rhipidomys species (Rodentia, Thomasomyini) and syntenic relationship between species of Sigmodontinae

Author

Cleusa Yoshiko Nagamachi, Ana Cristina Mendes-Oliveira, Patricia Caroline Mary O’Brien, Malcolm A. Ferguson-Smith, Lena Geise, Vergiana dos Santos Paixão, Rogério V. Rossi, Willam Oliveira da Silva, Julio Cesar Pieczarka, Pablo Suárez, Oliveira da Silva, Willam [0000-0003-3125-1075], Nagamachi, Cleusa Yoshiko [0000-0003-1516-2734], and Apollo - University of Cambridge Repository

Subjects

medicine.medical_specialty, Chromosome Structure and Function, Science, Molecular Probe Techniques, Rodentia, Research and Analysis Methods, Chromosomal Inversions, Chromosomes, Cytogenetics, medicine, Genetics, Animals, Sigmodontinae, Molecular Biology Techniques, Molecular Biology, Rhipidomys mastacalis, In Situ Hybridization, In Situ Hybridization, Fluorescence, Synteny, Centromeres, Multidisciplinary, biology, Chromosome Biology, Rhipidomys emiliae, Autosomes, Chromosome, Biology and Life Sciences, Karyotype, Cell Biology, biology.organism_classification, Chromosome Pairs, Probe Hybridization, Chromosomal Aberrations, Evolutionary biology, Chromosomal Translocations, Medicine, Karyotypes, Rhipidomys, Research Article

Abstract

Rhipidomys (Sigmodontinae, Thomasomyini) has 25 recognized species, with a wide distribution ranging from eastern Panama to northern Argentina. Cytogenetic data has been described for 13 species with 12 of them having 2n = 44 with a high level of autosomal fundamental number (FN) variation, ranging from 46 to 80, assigned to pericentric inversions. The species are grouped in groups with low FN (46–52) and high FN (72–80). In this work the karyotypes of Rhipidomys emiliae (2n = 44, FN = 50) and Rhipidomys mastacalis (2n = 44, FN = 74), were studied by classical cytogenetics and by fluorescence in situ hybridization using telomeric and whole chromosome probes (chromosome painting) of Hylaeamys megacephalus (HME). Chromosome painting revealed homology between 36 segments of REM and 37 of RMA. We tested the hypothesis that pericentric inversions are the predominant chromosomal rearrangements responsible for karyotypic divergence between these species, as proposed in literature. Our results show that the genomic diversification between the karyotypes of the two species resulted from translocations, centromeric repositioning and pericentric inversions. The chromosomal evolution in Rhipidomys was associated with karyotypical orthoselection. The HME probes revealed that seven syntenic probably ancestral blocks for Sigmodontinae are present in Rhipidomys. An additional syntenic block described here is suggested as part of the subfamily ancestral karyotype. We also define five synapomorphies that can be used as chromosomal signatures for Rhipidomys.

Published

2021

22. Atypical chromosome abnormalities in acute myeloid leukemia type M4

Author

Agnes C. Fett-Conte, Roseli Viscardi Estrela, Cristina B. Vendrame-Goloni, Andréa B. Carvalho-Salles, Octávio Ricci-Júnior, and Marileila Varella-Garcia

Subjects

acute myeloid leukemia, chromosomal abnormalities, chromosomal translocations, Genetics, QH426-470

Abstract

This study reports an adult AML-M4 patient with atypical chromosomal aberrations present in all dividing bone marrow cell at diagnosis: t(1;8)(p32.1;q24.2), der(9)t(9;10)(q22;?), and ins(19;9)(p13.3;q22q34) that may have originated transcripts with leukemogenic potential.

Published

2007

23. Balanced and unbalanced translocations in a multicentric series of 2843 patients with chronic lymphocytic leukemia

Author

Julio Delgado, Anna Puiggros, Sílvia Beà, Blanca Espinet, Amparo Arias, Neus Ruiz-Xivillé, Cristina López, Dolors Costa, Arturo Pereira, Isabel Granada, Marisol Uribe, Cándida Gómez, Dolors Colomer, Rosa Collado, and Laura Magnano

Subjects

Cancer Research, Chronic lymphocytic leukemia, Karyotype, Chromosomal translocation, breakpoints, Biology, Y chromosome, Translocation, Genetic, chromosomal translocations, copy number microarray, Complex Karyotype, Genetics, medicine, Humans, Oligonucleotide Array Sequence Analysis, Whole genome sequencing, Chromosome Aberrations, Whole Genome Sequencing, Microarray analysis techniques, Breakpoint, medicine.disease, Prognosis, Leukemia, Lymphocytic, Chronic, B-Cell, karyotype, whole-genome sequencing, Spain, Cytogenetic Analysis, Cancer research, chronic lymphocytic leukemia, clinical impact

Abstract

Chromosomal translocations in chronic lymphocytic leukemia (CLL) are very rare, and therefore systematic analysis of large series of cases is needed to allow the identification of recurrent rearrangements, breakpoints involved, and target genes. The aims of the present study were to identify new translocations and their clinical impact and to establish their frequency in a large cohort of 2843 CLL patients. By conventional cytogenetics 250 translocations were identified in 215 (7.5%) patients, 186 (74%) were apparently balanced and 64 (26%) were unbalanced. All chromosomes were involved in translocations, except Y chromosome. The chromosomes more frequently translocated were in decreasing frequency chromosomes 14, 18, 13, 17, 1, 6, 2, 3, 8, and 11. Translocations were found in the karyotypes either as the unique chromosomal abnormality (27%), associated with another alteration (24%), or as a part of a complex karyotype (CK, 48%). A large proportion of rearranged breakpoints involved genes related to CLL such as IGH (14q32), RB1, MIR15A, MIR16-1 (13q14), BCL2 (18q21), IGL (22q11.2), TP53 (17p13), IRF4 (6p25-p23), ATM (11q22), and CDK6 (7q21). Overall, 76 novel CLL translocations were identified, including a recurrent t(8;11)(p21;q21-23). Whole-genome sequencing and/or copy-number microarray data of 24 cases with translocations confirmed all rearrangements, enabled refinement of 3 karyotypes and all breakpoints at gene level. The projected survival and time to first treatment significantly decreased linearly with the number of translocations. In summary, this study allowed to establish the frequency of translocations (7.5%) and to identify new translocations in a cohort of 2843 CLL patients.

Published

2021

24. Cytogenetic evidence supports Avena insularis being closely related to hexaploid oats

Author

E. Ferrer, J. M. González, A. Fominaya, and Yolanda Loarce

Subjects

food.ingredient, Avena, DNA, Plant, Science, Biology, Hexaploidy, Genome, Homology (biology), Chromosomes, Plant, Chromosomes, Polyploidy, Cytogenetics, food, Cell Signaling, Fish Genomics, Genetics, Repeated sequence, Phylogeny, Multidisciplinary, Chromosome Biology, Autosomes, fungi, Chromosome, Biology and Life Sciences, food and beverages, Karyotype, Genomics, Cell Biology, Ribosomal RNA, Chromosome Pairs, Chromosomal Aberrations, Tetraploidy, Genetic marker, Chromosomal Translocations, Animal Genomics, Microsatellite, Medicine, Karyotypes, Departures from Diploidy, Genomic Signal Processing, Genome, Plant, Research Article, Signal Transduction

Abstract

Cytogenetic observations, phylogenetic studies and genome analysis using high-density genetic markers have suggested a tetraploid Avena species carrying the C and D genomes (formerly C and A) to be the donor of all hexaploid oats (AACCDD). However, controversy surrounds which of the three extant CCDD tetraploid species—A. insularis, A. magna and A. murphyi—is most closely related to hexaploid oats. The present work describes a comparative karyotype analysis of these three CCDD tetraploid species and two hexaploid species, A. sativa and A. byzantina. This involved the use of FISH with six simple sequence repeats (SSRs) with the motifs CT, AAC, AAG, ACG, ATC and ACT, two repeated ribosomal sequences, and C genome-specific repetitive DNA. The hybridization pattern of A. insularis with oligonucleotide (AC)10 was also determined and compared with those previously published for A. sativa and A. byzantina. Significant differences in the 5S sites and SSR hybridization patterns of A. murphyi compared to the other CCDD species rule out its being directly involved in the origin of the hexaploids. In contrast, the repetitive and SSR hybridization patterns shown by the D genome chromosomes, and by most of the C genome chromosomes of A. magna and A. insularis, can be equated with the corresponding chromosomes of the hexaploids. Several chromosome hybridization signals seen for A. insularis, but not for A. magna, were shared with the hexaploid oats species, especially with A. byzantina. These diagnostic signals add weight to the idea that the extant A. insularis, or a direct ancestor of it, is the most closely related progenitor of hexaploid oats. The similarity of the chromosome hybridization patterns of the hexaploids and CCDD tetraploids was taken as being indicative of homology. A common chromosome nomenclature for CCDD species based on that of the hexaploid species is proposed.

Published

2021

25. Physical localization of 45S rDNA in Cymbopogon and the analysis of differential distribution of rDNA in homologous chromosomes of Cymbopogon winterianus

Author

Reyazul Rouf Mir, Sundip Kumar, Upendra Kumar, Shivangi Thakur, Rashmi Malik, Priyanka Balyan, and Darshana Bisht

Subjects

Citrus, Speciation, Homologous Chromosomes, Cell Cycle and Cell Division, Cultivar, Cymbopogon flexuosus, Multidisciplinary, Fluorescent in Situ Hybridization, Chromosome Biology, Autosomes, RNA, Ribosomal, 5S, Eukaryota, Chromosome Mapping, Plants, Chromosomal Aberrations, Cell Processes, Cymbopogon winterianus, Medicine, Cymbopogon, Research Article, Evolutionary Processes, Lemons, Science, Molecular Probe Techniques, Biology, Research and Analysis Methods, DNA, Ribosomal, Chromosomes, Chromosomes, Plant, Fruits, Short arms, Botany, Genetics, Homologous chromosome, Molecular Biology Techniques, Molecular Biology, Metaphase, Evolutionary Biology, Organisms, Biology and Life Sciences, Chromosome, Cell Biology, Interspecific competition, Chromosome Pairs, biology.organism_classification, Probe Hybridization, Genetic Loci, Chromosomal Translocations, Karyotyping, Cytogenetic Techniques

Abstract

Cymbopogon, commonly known as lemon grass, is one of the most important aromatic grasses having therapeutic and medicinal values. FISH signals on somatic chromosome spreads off Cymbopogon species indicated the localization of 45S rDNA on the terminal region of short arms of a chromosome pair. A considerable interspecific variation in the intensity of 45S rDNA hybridization signals was observed in the cultivars of Cymbopogon winterianus and Cymbopogon flexuosus. Furthermore, in all the varieties of C. winterianus namely Bio-13, Manjari and Medini, a differential distribution of 45S rDNA was observed in a heterologous pair of chromosomes 1. The development of C. winterianus var. Manjari through gamma radiation may be responsible for breakage of fragile rDNA site from one of the chromosomes of this heterologous chromosome pair. While, in other two varieties of C. winterianus (Bio-13 and Medini), this variability may be because of evolutionary speciation due to natural cross among two species of Cymbopogon which was fixed through clonal propagation. However, in both the situations these changes were fixed by vegetative method of propagation which is general mode of reproduction in the case of C. winterianus.

Published

2021

26. Essential gene acquisition destabilizes plasmid inheritance

Author

Fenna T. Stücker, Yiqing Wang, Myriam Barz, Tal Dagan, Katrin Hammerschmidt, and Tanita Wein

Subjects

Evolutionary Genetics, Cancer Research, QH426-470, Pathology and Laboratory Medicine, Biochemistry, Homologous Chromosomes, Plasmid, Mobile Genetic Elements, Medicine and Health Sciences, Genetics (clinical), Data Management, Genetics, 0303 health sciences, Experimental evolution, Escherichia Coli, Genes, Essential, Chromosome Biology, 030302 biochemistry & molecular biology, Inheritance (genetic algorithm), Genomics, Biological Evolution, Chromosomal Aberrations, Bacterial Pathogens, Phylogenetics, Nucleic acids, Experimental Organism Systems, Essential gene, Medical Microbiology, Horizontal gene transfer, Prokaryotic Models, Pathogens, Plasmids, Research Article, Escherichia, Computer and Information Sciences, Gene Transfer, Horizontal, Forms of DNA, Gene redundancy, Biology, Research and Analysis Methods, Microbiology, Chromosomes, Evolution, Molecular, 03 medical and health sciences, Genetic Elements, Model Organisms, Enterobacteriaceae, Evolutionary Systematics, Molecular Biology, Gene, Microbial Pathogens, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Taxonomy, Comparative genomics, Evolutionary Biology, Bacterial Evolution, Bacteria, Gut Bacteria, Organisms, Biology and Life Sciences, Bacteriology, Cell Biology, DNA, Organismal Evolution, Chromosomal Translocations, Microbial Evolution, Animal Studies

Abstract

Extra-chromosomal genetic elements are important drivers of evolutionary transformations and ecological adaptations in prokaryotes with their evolutionary success often depending on their ‘utility’ to the host. Examples are plasmids encoding antibiotic resistance genes, which are known to proliferate in the presence of antibiotics. Plasmids carrying an essential host function are recognized as permanent residents in their host. Essential plasmids have been reported in several taxa where they often encode essential metabolic functions; nonetheless, their evolution remains poorly understood. Here we show that essential genes are rarely encoded on plasmids; evolving essential plasmids in Escherichia coli we further find that acquisition of an essential chromosomal gene by a plasmid can lead to plasmid extinction. A comparative genomics analysis of Escherichia isolates reveals few plasmid-encoded essential genes, yet these are often integrated into plasmid-related functions; an example is the GroEL/GroES chaperonin. Experimental evolution of a chaperonin-encoding plasmid shows that the acquisition of an essential gene reduces plasmid fitness regardless of the stability of plasmid inheritance. Our results suggest that essential plasmid emergence leads to a dose effect caused by gene redundancy. The detrimental effect of essential gene acquisition on plasmid inheritance constitutes a barrier for plasmid-mediated lateral gene transfer and supplies a mechanistic understanding for the rarity of essential genes in extra-chromosomal genetic elements., Author summary Mobile genetic elements have been extensively studied due to their role as agents of genetic innovation and rapid adaptation in prokaryotes. Specifically, prokaryotic plasmids have been the focus of investigation in the context of bacterial survival under growth limiting conditions with the prime example of resistance to antibiotics and heavy metals. In contrast, plasmids that encode for functions that are essential to their host viability are rarely described. We investigate the evolution of plasmids that encode for genes previously identified as essential for bacterial life. Our analysis of Escherichia isolates reveals only few plasmid-encoded essential genes, which likely function in the plasmid rather than the host life cycle. Following the evolution of plasmids encoding an essential gene in Escherichia coli in real time, we further find that the acquisition of a chromosomal essential gene may lead to plasmid loss. Our study supplies data and a mechanistic understanding on the rarity of essential genes in mobile genetic elements. We conclude that prokaryotic plasmids are rarely essential for their bacterial host.

Published

2020

27. Meiosis reveals the early steps in the evolution of a neo-XY sex chromosome pair in the African pygmy mouse Mus minutoides

Author

Alberto Viera, María Teresa Parra, Nicolas Perrin, Jesús Page, Ana Gil-Fernández, Paul A. Saunders, Pablo López-Jiménez, Julio S. Rufas, Daniel L. Jeffries, Marta Martín-Ruiz, Marta Ribagorda, Frédéric Veyrunes, Institut des Sciences de l'Evolution de Montpellier (UMR ISEM), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Université de Montpellier (UM)-Institut de recherche pour le développement [IRD] : UR226-Centre National de la Recherche Scientifique (CNRS), Centre de Coopération Internationale en Recherche Agronomique pour le Développement (Cirad)-École Pratique des Hautes Études (EPHE), and ANR-18-CE02-0018,SEXREV,Ménage à trois: un troisième chromosome sexuel féminisant. Conséquences évolutives et implications pour la génétique du déterminisme du sexe chez les mammifères(2018)

Subjects

0106 biological sciences, Male, Cancer Research, Sex Differentiation, [SDV]Life Sciences [q-bio], Pseudoautosomal region, Chromosomal translocation, QH426-470, 01 natural sciences, Biochemistry, Translocation, Genetic, Mice, Y Chromosome, Morphogenesis, sex chromosomes, meiosis, evolution, Cell Cycle and Cell Division, Genetics (clinical), Mammals, Pseudoautosomal Regions, 0303 health sciences, Sex Chromosomes, Sexual Differentiation, Eutheria, Chromosome Biology, Synapsis, Chromosome Mapping, Y Chromosomes, Chiasma, Chromosomal Aberrations, Nucleic acids, Meiosis, Cell Processes, Female, Research Article, X Chromosome, DNA recombination, DNA repair, Biology, Research and Analysis Methods, 010603 evolutionary biology, Chromosomes, 03 medical and health sciences, Genetics, Animals, Molecular Biology Techniques, Molecular Biology, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Sexual differentiation, Autosome, Gene Mapping, Chromosome, Biology and Life Sciences, Cell Biology, DNA, Evolutionary biology, Chromosomal Translocations, Developmental Biology

Abstract

Sex chromosomes of eutherian mammals are highly different in size and gene content, and share only a small region of homology (pseudoautosomal region, PAR). They are thought to have evolved through an addition-attrition cycle involving the addition of autosomal segments to sex chromosomes and their subsequent differentiation. The events that drive this process are difficult to investigate because sex chromosomes in almost all mammals are at a very advanced stage of differentiation. Here, we have taken advantage of a recent translocation of an autosome to both sex chromosomes in the African pygmy mouse Mus minutoides, which has restored a large segment of homology (neo-PAR). By studying meiotic sex chromosome behavior and identifying fully sex-linked genetic markers in the neo-PAR, we demonstrate that this region shows unequivocal signs of early sex-differentiation. First, synapsis and resolution of DNA damage intermediates are delayed in the neo-PAR during meiosis. Second, recombination is suppressed or largely reduced in a large portion of the neo-PAR. However, the inactivation process that characterizes sex chromosomes during meiosis does not extend to this region. Finally, the sex chromosomes show a dual mechanism of association at metaphase-I that involves the formation of a chiasma in the neo-PAR and the preservation of an ancestral achiasmate mode of association in the non-homologous segments. We show that the study of meiosis is crucial to apprehend the onset of sex chromosome differentiation, as it introduces structural and functional constrains to sex chromosome evolution. Synapsis and DNA repair dynamics are the first processes affected in the incipient differentiation of X and Y chromosomes, and they may be involved in accelerating their evolution. This provides one of the very first reports of early steps in neo-sex chromosome differentiation in mammals, and for the first time a cellular framework for the addition-attrition model of sex chromosome evolution., Author summary Sex chromosomes seem to evolve and differentiate at different rates in different taxa. The reasons for this variability are still debated. It is well established that recombination suppression around the sex-determining region triggers differentiation, and several studies have investigated this process from a genetic point of view. However, the cellular context in which recombination arrest occurs has received little attention so far. In this report, we show that meiosis, the cellular division in which pairing and recombination between chromosomes takes place, can affect the incipient differentiation of X and Y chromosomes. Combining cytogenetic and genomic approaches, we found that in the African pygmy mouse Mus minutoides, which has recently undergone sex chromosome-autosome fusions, synapsis and DNA repair dynamics are disturbed along the newly added region of the sex chromosomes. We argue that these alterations are a by-product of the fusion itself, and cause recombination suppression across a large region of the neo-sex chromosome pair. Therefore, we propose that the meiotic context in which sex or neo-sex chromosomes arise is crucial to understand the very early stages of their differentiation, as it could promote or hinder recombination suppression, and therefore impact the rate at which these chromosomes differentiate.

Published

2020

28. KANK1-NTRK3 fusions define a subset of BRAF mutation negative renal metanephric adenomas

Author

Stephen Rohan, Jillene Kogan, Ondrej Hes, Ardis Sophian, Michael R. Pins, Lech Mazur, Aida Catic, Amina Kurtovic-Kozaric, Dinesh Rakheja, and Faruk Skenderi

Subjects

Male, 0301 basic medicine, Oncogene Proteins, Fusion, endocrine system diseases, Metanephric adenoma, Translocation, Genetic, 0302 clinical medicine, Child, In Situ Hybridization, Fluorescence, Genetics (clinical), Papillary renal cell carcinomas, BRAFV600E, Chromosomal translocations, Cytogenetics, KANK1-NTRK3 fusion, Middle Aged, Kidney Neoplasms, 030220 oncology & carcinogenesis, Female, Chromosomes, Human, Pair 9, Research Article, Adenoma, Adult, Proto-Oncogene Proteins B-raf, lcsh:Internal medicine, medicine.medical_specialty, Adolescent, lcsh:QH426-470, Chromosome 9, Chromosomal rearrangement, Biology, Young Adult, 03 medical and health sciences, Chromosome 15, Genetics, medicine, Humans, Receptor, trkC, lcsh:RC31-1245, Adaptor Proteins, Signal Transducing, Aged, Chromosomes, Human, Pair 15, BRAF V600E, Wilms' tumor, medicine.disease, digestive system diseases, Cytoskeletal Proteins, lcsh:Genetics, 030104 developmental biology, Mutation, Cancer research

Abstract

Background Metanephric adenoma (MA) is a rare benign renal neoplasm. On occasion, MA can be difficult to differentiate from renal malignancies such as papillary renal cell carcinoma in adults and Wilms̕ tumor in children. Despite recent advancements in tumor genomics, there is limited data available regarding the genetic alterations characteristic of MA. The purpose of this study is to determine the frequency of metanephric adenoma cases exhibiting cytogenetic aberration t (9;15)(p24;q24), and to investigate the association between t (9,15) and BRAF mutation in metanephric adenoma. Methods This study was conducted on 28 archival formalin fixed paraffin-embedded (FFPE) specimens from patients with pathologically confirmed MA. Tissue blocks were selected for BRAF sequencing and fluorescent in situ hybridization (FISH) analysis for chromosomal rearrangement between KANK1 on chromosome 9 (9p24.3) and NTRK3 on chromosome 15 (15q25.3), which was previously characterized and described in two MA cases. Results BRAFV600E mutation was identified in 62% of our cases, 9 (38%) cases were BRAFWT, and 4 cases were uninformative. Of the 20 tumors with FISH results, two (10%) were positive for KANK1-NTRK3 fusion. Both cases were BRAFWT suggesting mutual exclusivity of BRAFV600E and KANK1-NTRK3 fusion, the first such observation in the literature. Conclusions Our data shows that BRAF mutation in MA may not be as frequent as suggested in the literature and KANK-NTRK3 fusions may account for a subset of BRAFWT cases in younger patients. FISH analysis for KANK1-NTRK3 fusion or conventional cytogenetic analysis may be warranted to establish the diagnosis of MA in morphologically and immunohistochemically ambiguous MA cases lacking BRAF mutations.

Published

2020

29. Cruciform DNA in mouse growing oocytes: Its dynamics and its relationship with DNA transcription

Author

Feng-Yun Xie, Jun-Yu Ma, Xiang-Hong Ou, and Xie Feng

Subjects

0301 basic medicine, Genome instability, Male, Transcription, Genetic, Molecular biology, Poly (ADP-Ribose) Polymerase-1, Fluorescent Antibody Technique, 030105 genetics & heredity, Biochemistry, Histones, chemistry.chemical_compound, Mice, Plasmid, PARP1, Oogenesis, Transcription (biology), Animal Cells, Spermatocytes, Testis, Palindromic sequence, Alpha-Amanitin, Multidisciplinary, Mammalian Genomics, Chromosome Biology, Genomics, Cell biology, Chromosomal Aberrations, Nucleic acids, Cruciform, OVA, Medicine, Cellular Types, Research Article, DNA damage, Science, DNA transcription, Biology, Human Genomics, 03 medical and health sciences, Genetics, Animals, Spermatogenesis, DNA, Cruciform, Biology and Life Sciences, DNA structure, Computational Biology, Cell Biology, DNA, Genome Analysis, Sperm, Macromolecular structure analysis, 030104 developmental biology, Germ Cells, chemistry, Animal Genomics, Chromosomal Translocations, Oocytes, Gene expression

Abstract

Cruciform DNA is a causing factor of genome instability and chromosomal translocation, however, most studies about cruciform DNA in mammalian cells were based on palindromic sequences containing plasmids and reports about endogenous cruciform DNA are rare. In this study we observed the dynamics of endogenous cruciform DNA in mouse growing oocytes using immunofluorescence labeling method. We found cruciform DNA foci exist in transcription active growing oocytes but not in transcription inactive fully grown oocytes and colocalized with Parp1 but not with DNA damage marker γH2A.X. By analyzing the Genotype-Tissue Expression data, we found cruciform DNA-mediated chromosomal translocation in human spermatocytes is associated with the specific DNA transcription in testis. When inhibiting the transcription with α-amanitin in mouse oocytes, we found oocyte cruciform DNA foci decreased significantly. In summary, we observed the endogenous cruciform DNA in growing oocytes and our results showed that the cruciform DNA formation is transcription-dependent.

Published

2020

30. Analysis of meiotic segregation by triple-color fish on both total and motile sperm fractions in a t(1p;18) river buffalo bull

Author

Chiara Di Dio, V. Longobardi, Pietro Parma, Alfredo Pauciullo, Alessandra Iannuzzi, Angela Perucatti, G. Zullo, James D. Higgins, Dio, C. D., Longobardi, V., Zullo, G., Parma, P., Pauciullo, A., Perucatti, A., Higgins, J., and Iannuzzi, A.

Subjects

Male, Chromosomes, Artificial, Bacterial, Physiology, Aneuploidy, Marine and Aquatic Sciences, Chromosomal translocation, Translocation, Genetic, Animal Cells, Chromosome Segregation, Medicine and Health Sciences, reproductive and urinary physiology, In Situ Hybridization, Fluorescence, 0303 health sciences, Multidisciplinary, Fluorescent in Situ Hybridization, Chromosome Biology, Reproduction, 04 agricultural and veterinary sciences, Spermatozoa, Chromosomal Aberrations, Meiosis, Sperm Motility, %22">Fish , Medicine, Bubalus, Cellular Types, Research Article, Freshwater Environments, endocrine system, Chromosome Structure and Function, Buffaloes, Science, Molecular Probe Techniques, Biology, Research and Analysis Methods, Chromosomes, Andrology, 03 medical and health sciences, Rivers, medicine, Genetics, Animals, Molecular Biology Techniques, Molecular Biology, Swimming, 030304 developmental biology, Chromosome Aberrations, Cryopreservation, urogenital system, Biological Locomotion, Ecology and Environmental Sciences, 0402 animal and dairy science, Biology and Life Sciences, Aquatic Environments, Motile sperm, Cell Biology, Bodies of Water, biology.organism_classification, medicine.disease, 040201 dairy & animal science, Sperm, River buffalo, Probe Hybridization, Germ Cells, Chromosomal Translocations, Earth Sciences, Departures from Diploidy, Cytogenetic Techniques

Abstract

Chromosomal aberrations are relatively frequent pathologies in both humans and animals. Among them, translocations present a specific meiotic segregation pattern able to give a higher percentage of unbalanced gametes that can induce fertility problems. In this study, the meiotic segregation patterns of 1p, 1q and 18 Bubalus bubalis chromosomes were analyzed in both total sperm fraction and motile sperm fraction of a t(1p;18) carrier and a control bulls by triple-color FISH analysis with a pool of specific BAC probes. The frequencies of each total sperm fraction products in the carrier resulting from alternate, adjacent I, adjacent II and 3:1 segregation were 39%, 20%, 1% and 38%, respectively. On the other hand, the frequencies of each motile sperm fraction products in the carrier resulting from alternate, adjacent I, adjacent II and 3:1 segregation were 93%, 5%, 0% and 2%, respectively. The frequencies of normal sperms in the carrier were 27% and 69% in total sperm fraction and motile sperm fraction, respectively. The frequencies detected in motile sperm fraction were also validated by comparison with bull's progeny. To our knowledge, this is the first report on the meiotic segregation patterns in motile sperm fractions of B. bubalis bull carrying a chromosomal translocation. These data suggest that translocation has a very limited effect on aneuploidy in the gametes, and therefore, on the reproductive abilities of the bull.

Published

2020

31. Interaction of yeast Rad51 and Rad52 relieves Rad52-mediated inhibition of de novo telomere addition

Author

Michael J. Mohan, Nicholas P. Ruppe, Katherine L. Friedman, and Esther A. Epum

Subjects

Cancer Research, Telomerase, RAD52, genetic processes, RAD51, Artificial Gene Amplification and Extension, QH426-470, Biochemistry, Polymerase Chain Reaction, Gene Knockout Techniques, 0302 clinical medicine, DNA Breaks, Double-Stranded, Genetics (clinical), Telomere-binding protein, 0303 health sciences, Chromosome Biology, Chromosomal Deletions, Eukaryota, Telomere, Cell biology, Chromosomal Aberrations, Telomeres, Research Article, Protein Binding, Chromosome Structure and Function, Saccharomyces cerevisiae Proteins, DNA repair, Telomere-Binding Proteins, Saccharomyces cerevisiae, Biology, Research and Analysis Methods, Chromosomes, 03 medical and health sciences, DNA-binding proteins, Genetics, Molecular Biology Techniques, Replication protein A, Molecular Biology, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, fungi, Organisms, Fungi, Biology and Life Sciences, Proteins, Recombinational DNA Repair, Cell Biology, Yeast, Rad52 DNA Repair and Recombination Protein, enzymes and coenzymes (carbohydrates), Nucleoproteins, Chromosomal Translocations, Mutation, Rad51 Recombinase, Homologous recombination, Recombinase Polymerase Amplification, 030217 neurology & neurosurgery

Abstract

DNA double-strand breaks (DSBs) are toxic forms of DNA damage that must be repaired to maintain genome integrity. Telomerase can act upon a DSB to create a de novo telomere, a process that interferes with normal repair and creates terminal deletions. We previously identified sequences in Saccharomyces cerevisiae (SiRTAs; Sites of Repair-associated Telomere Addition) that undergo unusually high frequencies of de novo telomere addition, even when the original chromosome break is several kilobases distal to the eventual site of telomerase action. Association of the single-stranded telomere binding protein Cdc13 with a SiRTA is required to stimulate de novo telomere addition. Because extensive resection must occur prior to Cdc13 binding, we utilized these sites to monitor the effect of proteins involved in homologous recombination. We find that telomere addition is significantly reduced in the absence of the Rad51 recombinase, while loss of Rad52, required for Rad51 nucleoprotein filament formation, has no effect. Deletion of RAD52 suppresses the defect of the rad51Δ strain, suggesting that Rad52 inhibits de novo telomere addition in the absence of Rad51. The ability of Rad51 to counteract this effect of Rad52 does not require DNA binding by Rad51, but does require interaction between the two proteins, while the inhibitory effect of Rad52 depends on its interaction with Replication Protein A (RPA). Intriguingly, the genetic interactions we report between RAD51 and RAD52 are similar to those previously observed in the context of checkpoint adaptation. Forced recruitment of Cdc13 fully restores telomere addition in the absence of Rad51, suggesting that Rad52, through its interaction with RPA-coated single-stranded DNA, inhibits the ability of Cdc13 to bind and stimulate telomere addition. Loss of the Rad51-Rad52 interaction also stimulates a subset of Rad52-dependent microhomology-mediated repair (MHMR) events, consistent with the known ability of Rad51 to prevent single-strand annealing., Author summary DNA double-strand breaks (DSBs) can lead to chromosome loss and rearrangement associated with cancer and genetic disease, so understanding how the cell coordinates multiple possible repair pathways is of critical importance. Telomerase is a ribonucleoprotein enzyme that uses an intrinsic RNA component as a template for the addition of highly repetitive, protective sequences (called telomeres) at normal chromosome ends. Rarely, telomerase acts upon a DSB to create a new or de novo telomere with resultant loss of sequences distal to the site of telomere addition. Here, we show that interactions between proteins with known roles during DSB repair modulate the probability of telomerase action at hotspots of de novo telomere addition in the yeast genome by influencing the association of Cdc13, a protein required for telomerase recruitment, with sites of telomere addition. Intriguingly, the same interactions that facilitate telomere addition prevent other types of rearrangements in response to chromosome breaks.

Published

2020

32. Convergent adaptation of Saccharomyces uvarum to sulfite, an antimicrobial preservative widely used in human-driven fermentations

Author

Laura G. Macías, Melisa González Flores, Eladio Barrio, Ana C. Adam, Roberto Pérez-Torrado, Amparo Querol, María Eugenia Rodríguez, Christian A. Lopes, Ministerio de Ciencia, Innovación y Universidades (España), Generalitat Valenciana, and Universidad Nacional del Comahue

Subjects

Metabolic Processes, Cancer Research, Adaptation, Biological, Yeast and Fungal Models, Artificial Gene Amplification and Extension, Wine, Chromosomal translocation, QH426-470, Biochemistry, Genome, Translocation, Genetic, chemistry.chemical_compound, Anti-Infective Agents, Medicine and Health Sciences, Promoter Regions, Genetic, Phylogeny, Genetics (clinical), Genetics, Chromosome Biology, Alcoholic Beverages, Eukaryota, Genomics, Chromosomal Aberrations, Polymerase chain reaction, Chemistry, Experimental Organism Systems, Physical Sciences, Chromosomes, Fungal, Research Article, Saccharomyces cerevisiae Proteins, Anion Transport Proteins, Saccharomyces cerevisiae, Locus (genetics), Chromosomal translocations, Biology, Research and Analysis Methods, Beverages, Saccharomyces, Model Organisms, Sulfite, Humans, Sulfites, Molecular Biology Techniques, Molecular Biology, Gene, Ecology, Evolution, Behavior and Systematics, Nutrition, Chemical Compounds, Organisms, Fungi, Biology and Life Sciences, Cell Biology, biology.organism_classification, Yeast, Diet, Metabolism, chemistry, Fermentation, Food Preservatives, Animal Studies, Adaptation

Abstract

Different species can find convergent solutions to adapt their genome to the same evolutionary constraints, although functional convergence promoted by chromosomal rearrangements in different species has not previously been found. In this work, we discovered that two domesticated yeast species, Saccharomyces cerevisiae, and Saccharomyces uvarum, acquired chromosomal rearrangements to convergently adapt to the presence of sulfite in fermentation environments. We found two new heterologous chromosomal translocations in fermentative strains of S. uvarum at the SSU1 locus, involved in sulfite resistance, an antimicrobial additive widely used in food production. These are convergent events that share similarities with other SSU1 locus chromosomal translocations previously described in domesticated S. cerevisiae strains. In S. uvarum, the newly described VIIXVI and XIXVI chromosomal translocations generate an overexpression of the SSU1 gene and confer increased sulfite resistance. This study highlights the relevance of chromosomal rearrangements to promote the adaptation of yeast to anthropic environments., This work was supported by grants from the Ministerio de Ciencia, Innovación y Universidades to A.Q (RTI2018-093744-B-C31), EB (RTI2018-093744-B-C32), and by Conselleria d'Educació, Investigació, Cultura i Esport grant PROMETEO/2020/014 to A.Q and EB, as well as grants PICT 2015-1198 from the Fondo para la investigación Científica y Tecnológica, PIP 2015-555 from Comisión de Investigaciónes Científicas and PI04-A128 from Universidad Nacional de Comahue to CL. MGF also thanks CONICET for a postdoctoral fellowship. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.

Published

2021

33. The Easter Egg Weevil (Pachyrhynchus) genome reveals syntenic patterns in Coleoptera across 200 million years of evolution

Author

Arina D. Omer, Athena W. Lam, James B. Henderson, Analyn Anzano Cabras, Cynthia Pérez Estrada, Olga Dudchenko, Andrew J. Rominger, Matthew H. Van Dam, and Erez Lieberman Aiden

Subjects

Cancer Research, Lineage (evolution), Genome, Insect, Animal Phylogenetics, QH426-470, Genome, Beetles, Invertebrate Genomics, Phylogeny, Genetics (clinical), Data Management, Phylogenetic tree, Chromosome Biology, Eukaryota, Phylogenetic Analysis, Genomics, Biological Evolution, Chromosomal Aberrations, Coleoptera, Insects, Phylogenetics, Moths and Butterflies, Research Article, Computer and Information Sciences, Arthropoda, Context (language use), Biology, Synteny, Chromosomes, Evolution, Molecular, Genetics, Animals, Evolutionary Systematics, Molecular Biology, Gene, Ecology, Evolution, Behavior and Systematics, Taxonomy, Evolutionary Biology, Organisms, Biology and Life Sciences, Computational Biology, Chromosome, Cell Biology, Genome Analysis, Invertebrates, Animal Genomics, Chromosomal Translocations, Evolutionary biology, Weevils, Zoology, Entomology

Abstract

Patterns of genomic architecture across insects remain largely undocumented or decoupled from a broader phylogenetic context. For instance, it is unknown whether translocation rates differ between insect orders. We address broad scale patterns of genome architecture across Insecta by examining synteny in a phylogenetic framework from open-source insect genomes. To accomplish this, we add a chromosome level genome to a crucial lineage, Coleoptera. Our assembly of the Pachyrhynchus sulphureomaculatus genome is the first chromosome scale genome for the hyperdiverse Phytophaga lineage and currently the largest insect genome assembled to this scale. The genome is significantly larger than those of other weevils, and this increase in size is caused by repetitive elements. Our results also indicate that, among beetles, there are instances of long-lasting (>200 Ma) localization of genes to a particular chromosome with few translocation events. While some chromosomes have a paucity of translocations, intra-chromosomal synteny was almost absent, with gene order thoroughly shuffled along a chromosome. This large amount of reshuffling within chromosomes with few inter-chromosomal events contrasts with patterns seen in mammals in which the chromosomes tend to exchange larger blocks of material more readily. To place our findings in an evolutionary context, we compared syntenic patterns across Insecta in a phylogenetic framework. For the first time, we find that synteny decays at an exponential rate relative to phylogenetic distance. Additionally, there are significant differences in decay rates between insect orders, this pattern was not driven by Lepidoptera alone which has a substantially different rate., Author summary Patterns of genomic architecture across insects remain largely undocumented or decoupled from a broader evolutionary context. For instance, it is unknown whether rates of gene order decay differ between insect orders. We address broad scale patterns of genome architecture across Insecta by examining synteny (shared gene order) in a phylogenetic framework from open-source insect genomes (143 complete chromosome assemblies in total). To accomplish this, we add a chromosome level genome to a crucial lineage, Coleoptera (beetles). Our assembly of the Easter Egg Weevil Pachyrhynchus sulphureomaculatus genome is the first chromosome scale genome for the hyperdiverse Phytophaga lineage and currently the largest insect genome assembled to this scale. We are the first to identify in beetles that genes stay localized on chromosomes for hundreds of millions of years, while their order along chromosomes gets completely shuffled over time. We are also the first to empirically demonstrate that synteny decay rates different significantly between insect orders and that this pattern in not driven solely by Lepidoptera (moths and butterflies), which has a substantially different rate.

Published

2021

34. Cluster analysis of genomic ETV6–RUNX1 (TEL–AML1) fusion sites in childhood acute lymphoblastic leukemia

Author

von Goessel, H., Jacobs, U., Semper, S., Krumbholz, M., Langer, T., Keller, T., Schrauder, A., van der Velden, V.H.J., van Dongen, J.J.M., Harbott, J., Panzer-Grümayer, E.R., Schrappe, M., Rascher, W., and Metzler, M.

Subjects

*LYMPHOBLASTIC leukemia in children, *GENOMICS, *GENE fusion, *CLUSTER analysis (Statistics), *NUCLEOTIDE sequence, *DIAGNOSTIC use of polymerase chain reaction, *CHROMOSOMAL translocation, *GENETICS

Abstract

Abstract: Fusion between ETV6 and RUNX1 defines the largest genetic subgroup in childhood ALL. The genomic fusion site, unique to individual patients and specific for the malignant clone, represents an ideal molecular marker for quantification of minimal residual disease. Sequencing of DNA breakpoints has been difficult due to the extended size of the respective breakpoint cluster regions. We therefore evaluated a specially designed multiplex long-range PCR assay in 65 diagnostic bone marrow samples for its suitability in routine use. Resulting fusion sites and breakpoints derived from previous studies were subject to cluster analysis to identify potential sequence motifs involved in translocation initiation. [Copyright &y& Elsevier]

Published

2009

35. Chromatin structural elements and chromosomal translocations in leukemia

Author

Zhang, Yanming and Rowley, Janet D.

Subjects

*CHROMATIN, *CHROMOSOME abnormalities, *MYELOID leukemia, *GENETIC mutation, *GENETICS

Abstract

Abstract: Recurring chromosome abnormalities are strongly associated with certain subtypes of leukemia, lymphoma and sarcomas. More recently, their potential involvement in carcinomas, i.e. prostate cancer, has been recognized. They are among the most important factors in determining disease prognosis, and in many cases, identification of these chromosome abnormalities is crucial in selecting appropriate treatment protocols. Chromosome translocations are frequently observed in both de novo and therapy-related acute myeloid leukemia (AML) and myelodysplastic syndromes (MDS). The mechanisms that result in such chromosome translocations in leukemia and other cancers are largely unknown. Genomic breakpoints in all the common chromosome translocations in leukemia, including t(4;11), t(9;11), t(8;21), inv(16), t(15;17), t(12;21), t(1;19) and t(9;22), have been cloned. Genomic breakpoints tend to cluster in certain intronic regions of the relevant genes including MLL, AF4, AF9, AML1, ETO, CBFB, MYHI1, PML, RARA, TEL, E2A, PBX1, BCR and ABL. However, whereas the genomic breakpoints in MLL tend to cluster in the 5′ portion of the 8.3kb breakpoint cluster region (BCR) in de novo and adult patients and in the 3′ portion in infant leukemia patients and t-AML patients, those in both the AML1 and ETO genes occur in the same clustered regions in both de novo and t-AML patients. These differences may reflect differences in the mechanisms involved in the formation of the translocations. Specific chromatin structural elements, such as in vivo topoisomerase II (topo II) cleavage sites, DNase I hypersensitive sites and scaffold attachment regions (SARs) have been mapped in the breakpoint regions of the relevant genes. Strong in vivo topo II cleavage sites and DNase I hypersensitive sites often co-localize with each other and also with many of the BCRs in most of these genes, whereas SARs are associated with BCRs in MLL, AF4, AF9, AML1, ETO and ABL, but not in the BCR gene. In addition, the BCRs in MLL, AML1 and ETO have the lowest free energy level for unwinding double strand DNA. Virtually all chromosome translocations in leukemia that have been analyzed to date show no consistent homologous sequences at the breakpoints, whereas a strong non-homologous end joining (NHEJ) repair signature exists at all of these chromosome translocation breakpoint junctions; this includes small deletions and duplications in each breakpoint, and micro-homologies and non-template insertions at genomic junctions of each chromosome translocation. Surprisingly, the size of these deletions and duplications in the same translocation is much larger in de novo leukemia than in therapy-related leukemia. We propose a non-homologous chromosome recombination model as one of the mechanisms that results in chromosome translocations in leukemia. The topo II cleavage sites at open chromatin regions (DNase I hypersensitive sites), SARs or the regions with low energy level are vulnerable to certain genotoxic or other agents and become the initial breakage sites, which are followed by an excision end joining repair process. [Copyright &y& Elsevier]

Published

2006

36. Tumorigenesis in mice with a fusion of the leukaemia oncogene Mll and the bacterial lacZ gene.

Author

Dobson, Claire L., Warren, Alan J., Pannell, Richard, Forster, Alan, and Rabbits, Terence H.

Subjects

*CARCINOGENESIS, *CANCER genetics, *ONCOGENES, *GENETICS, *CANCER

Abstract

Many different chromosomal translocations occur in man at chromosome 11q23 in acute leukemias. Molecular analyses revealed that the MLL gene (also called ALL-1, HRX or HTRX) is broken by the translocations, causing fusion with genes from other chromosomes. The diversity of MLL fusion partners poses a dilemma about the function of the fusion proteins in tumor development. The consequence of MLL truncation and fusion has been analysed by joining exon 8 of Mll with the bacterial lacZ gene using homologous recombination in mouse embryonic stem cells. We show that this fusion is sufficient to cause embryonic stem cell-derived acute leukaemias in chimeric mice, and these tumors occur with long latency compared with those found in MLL-Af9 chimeric mice. These findings indicate that an MLL fusion protein can contribute to tumorigenesis, even if the fusion partner has no known pathogenic role. Thus, truncation and fusion of MLL can be sufficient for tumorigenesis, regardless of the fusion partner. [ABSTRACT FROM AUTHOR]

Published

2000

37. Reshuffling yeast chromosomes with CRISPR/ Cas9

Author

Aubin Fleiss, Samuel O'Donnell, Téo Fournier, Wenqing Lu, Nicolas Agier, Stéphane Delmas, Joseph Schacherer, Gilles Fischer, Institut de Biologie Paris Seine (IBPS), Sorbonne Université (SU)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Biologie Computationnelle et Quantitative = Laboratory of Computational and Quantitative Biology (LCQB), Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Institut de Biologie Paris Seine (IBPS), Sorbonne Université (SU)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Génétique moléculaire, génomique, microbiologie (GMGM), Centre National de la Recherche Scientifique (CNRS)-Université de Strasbourg (UNISTRA), Gestionnaire, Hal Sorbonne Université, Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS), Institut National de la Santé et de la Recherche Médicale (INSERM)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), and Université de Strasbourg (UNISTRA)-Centre National de la Recherche Scientifique (CNRS)

Subjects

Saccharomyces cerevisiae Proteins, [SDV.BIO]Life Sciences [q-bio]/Biotechnology, Anion Transport Proteins, DNA repair, Bioengineering, Saccharomyces cerevisiae, QH426-470, Biochemistry, Translocation, Genetic, Guide RNA, Cytogenetics, [SDV.BBM.GTP]Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], Genetics, Sulfites, Point Mutation, Promoter Regions, Genetic, Gene Editing, Chromosome Biology, Chemical Compounds, Biology and Life Sciences, Computational Biology, DNA Shuffling, Cell Biology, DNA, Genomics, Genome Analysis, Genomic Libraries, Chromosomal Aberrations, [SDV.BIO] Life Sciences [q-bio]/Biotechnology, Nucleic acids, Chemistry, Chromosomal Translocations, Physical Sciences, Mutation, RNA, Engineering and Technology, [SDV.BBM.GTP] Life Sciences [q-bio]/Biochemistry, Molecular Biology/Genomics [q-bio.GN], CRISPR-Cas Systems, Chromosomes, Fungal, Genome, Fungal, Karyotypes, Genetic Engineering, Research Article, Biotechnology

Abstract

Genome engineering is a powerful approach to study how chromosomal architecture impacts phenotypes. However, quantifying the fitness impact of translocations independently from the confounding effect of base substitutions has so far remained challenging. We report a novel application of the CRISPR/Cas9 technology allowing to generate with high efficiency both uniquely targeted and multiple concomitant reciprocal translocations in the yeast genome. Targeted translocations are constructed by inducing two double-strand breaks on different chromosomes and forcing the trans-chromosomal repair through homologous recombination by chimerical donor DNAs. Multiple translocations are generated from the induction of several DSBs in LTR repeated sequences and promoting repair using endogenous uncut LTR copies as template. All engineered translocations are markerless and scarless. Targeted translocations are produced at base pair resolution and can be sequentially generated one after the other. Multiple translocations result in a large diversity of karyotypes and are associated in many instances with the formation of unanticipated segmental duplications. To test the phenotypic impact of translocations, we first recapitulated in a lab strain the SSU1/ECM34 translocation providing increased sulphite resistance to wine isolates. Surprisingly, the same translocation in a laboratory strain resulted in decreased sulphite resistance. However, adding the repeated sequences that are present in the SSU1 promoter of the resistant wine strain induced sulphite resistance in the lab strain, yet to a lower level than that of the wine isolate, implying that additional polymorphisms also contribute to the phenotype. These findings illustrate the advantage brought by our technique to untangle the phenotypic impacts of structural variations from confounding effects of base substitutions. Secondly, we showed that strains with multiple translocations, even those devoid of unanticipated segmental duplications, display large phenotypic diversity in a wide range of environmental conditions, showing that simply reconfiguring chromosome architecture is sufficient to provide fitness advantages in stressful growth conditions., Author summary Chromosomes are highly dynamic objects that often undergo large structural variations such as reciprocal translocations. Such rearrangements can have dramatic functional consequences, as they can disrupt genes, change their regulation or create novel fusion genes at their breakpoints. For instance, 90–95% of patients diagnosed with chronic myeloid leukemia carry the Philadelphia chromosome characterized by a reciprocal translocation between chromosomes 9 and 22. In addition, translocations reorganize the genetic information along chromosomes, which in turn can modify the 3D architecture of the genome and potentially affect its functioning. Quantifying the fitness impact of translocations independently from the confounding effect of base substitutions has so far remained challenging. Here, we report a novel CRISPR/Cas9-based technology allowing to generate with high efficiency and at a base-pair precision either uniquely targeted or multiple reciprocal translocations in yeast, without leaving any marker or scar in the genome. Engineering targeted reciprocal translocations allowed us for the first time to untangle the phenotypic impacts of large chromosomal rearrangements from that of point mutations. In addition, the generation of multiple translocations led to a large reorganization of the genetic information along the chromosomes, often including unanticipated large segmental duplications. We showed that reshuffling the genome resulted in the emergence of fitness advantage in stressful environmental conditions, even in strains where no gene was disrupted or amplified by the translocations.

Published

2019

38. High-resolution genetic maps ofLotus japonicusandL. burttiibased on re-sequencing of recombinant inbred lines

Author

Mikkel H. Schierup, Shusei Sato, Shohei Kusakabe, Jens Stougaard, Hideki Hirakawa, Niraj Shah, Stig U. Andersen, and Niels Sandal

Subjects

QTL mapping, 0106 biological sciences, 0301 basic medicine, recombinant inbred lines, Lotus, Population, Lotus japonicus, Sequence assembly, Quantitative trait locus, 01 natural sciences, chromosomal translocations, 03 medical and health sciences, Inbred strain, Genetics, genetic map, education, Molecular Biology, education.field_of_study, biology, Contig, food and beverages, General Medicine, Full Papers, biology.organism_classification, assembly errors, 030104 developmental biology, 010606 plant biology & botany, Reference genome

Abstract

Recombinant inbred lines (RILs) derived from bi-parental populations are stable genetic resources, which are widely used for constructing genetic linkage maps. These genetic maps are essential for QTL mapping and can aid contig and scaffold anchoring in the final stages of genome assembly. In this study, two Lotus sp. RIL populations, Lotus japonicus MG-20 × Gifu and Gifu × L. burttii, were characterized by Illumina re-sequencing. Genotyping of 187 MG-20 × Gifu RILs at 87,140 marker positions and 96 Gifu × L. burttii RILs at 357,973 marker positions allowed us to accurately identify 1,929 recombination breakpoints in the MG-20 × Gifu RILs and 1,044 breakpoints in the Gifu × L. burttii population. The resulting high-density genetic maps now facilitate high-accuracy QTL mapping, identification of reference genome mis-assemblies, and characterization of structural variants.

Published

2016

39. The Mll-AF9 gene fusion in mice controls myeloproliferation and specifies acute myeloid leukaemogenesis.

Author

Dobson, C. L., Warren, A. J., R. Pannell, Forster, A., Lavenir, I., Corral, J., Smith, A. J. H., and Rabbitts, T. H.

Subjects

*HUMAN chromosomes, *LEUKEMIA, *CANCER, *IMMUNE system, *GENETICS, *ONCOLOGY, *HEMATOPOIESIS

Abstract

The MLL gene from human chromosome 11q23 is involved in >30 different chromosomal translocations resulting in a plethora of different MLL fusion proteins. Each of these tends to associate with a specific leukaemia type, for example, MLL—AF9 is found mainly in acute myeloid leukaemia. We have studied the role of the Mll—AF9 gene fusion made in mouse embryonic stem cells by an homologous recombination knockin. Acute leukaemias developed in heterozygous mice carrying this fusion as well as in chimeric mice. As with human chromosomal translocation t(9;11), the majority of cases were acute myeloid leukaemias (AMLs) involving immature myeloblasts, but a minority were acute lymphoblastic leukaemia. The AMLs were preceded by effects on haematopoietic differentiation involving a myeloproliferation resulting in accumulation of Mac-1/Gr-1 double-positive mature myeloid cells in bone marrow as early as 6 days after birth. Therefore, non-malignant expansion of myeloid precursors is the first stage of Mll—AF9-mediated leukaemia followed by accumulation of malignant cells in bone marrow and other tissues. Thus, the late onset of overt tumours suggests that secondary tumorigenic mutations are necessary for malignancy associated with MLL—AF9 gene fusion and that myeloproliferation provides the pool of cells in which such events can occur. [ABSTRACT FROM AUTHOR]

Published

1999

40. Development of a new 7BS.7HL winter wheat-winter barley Robertsonian translocation line conferring increased salt tolerance and (1,3;1,4)-β-D-glucan content

Author

Marianna Rakszegi, István Molnár, Éva Darkó, Edina Türkösi, András Cseh, and Márta Molnár-Láng

Subjects

0106 biological sciences, 0301 basic medicine, beta-Glucans, Plant genetics, lcsh:Medicine, Chromosomal translocation, Plant Science, Sodium Chloride, medicine.disease_cause, 01 natural sciences, Plant Roots, Translocation, Genetic, Plant Resistance to Abiotic Stress, Genotype, lcsh:Science, Triticum, 2. Zero hunger, chemistry.chemical_classification, Multidisciplinary, medicine.diagnostic_test, Ecology, Fluorescent in Situ Hybridization, Chromosome Biology, Plant Anatomy, food and beverages, Eukaryota, Salt Tolerance, Plants, Plants, Genetically Modified, Genetically modified organism, Chromosomal Aberrations, Germination, Plant Physiology, Wheat, Seeds, Seasons, Plant Shoots, Research Article, Quantitative Trait Loci, Robertsonian translocation, Mitosis, Molecular Probe Techniques, Biology, Research and Analysis Methods, Chromosomes, Plant, 03 medical and health sciences, Stress, Physiological, Monosomics, Barley, Plant-Environment Interactions, medicine, Genetics, Plant Defenses, Grasses, Molecular Biology Techniques, Molecular Biology, Glucan, Plant Ecology, lcsh:R, Ecology and Environmental Sciences, Organisms, Biology and Life Sciences, Hordeum, Cell Biology, Plant Pathology, Aneuploidy, Probe Hybridization, 030104 developmental biology, Agronomy, chemistry, Chromosomal Translocations, Genetic Loci, lcsh:Q, Cytogenetic Techniques, Departures from Diploidy, 010606 plant biology & botany, Fluorescence in situ hybridization

Abstract

Interspecific hybridization between bread wheat (Triticum aestivum, 2n = 42) and related species allows the transfer of agronomic and quality traits, whereby subsequent generations comprise an improved genetic background and can be directly applied in wheat breeding programmes. While wild relatives are frequently used as sources of agronomically favourable traits, cultivated species can also improve wheat quality and stress resistance. A salt-tolerant ‘Asakaze’/‘Manas’ 7H disomic addition line (2n = 44) with elevated β-glucan content, but with low fertility and an unstable genetic background was developed in an earlier wheat-barley prebreeding programme. The aim of the present study was to take this hybridization programme further and transfer the favourable barley traits into a more stable genetic background. Taking advantage of the breakage-fusion mechanism of univalent chromosomes, the ‘Rannaya’ winter wheat 7B monosomic line was used as female partner to the 7H addition line male, leading to the development of a compensating wheat/barley Robertsonian translocation line (7BS.7HL centric fusion, 2n = 42) exhibiting higher salt tolerance and elevated grain β-glucan content. Throughout the crossing programme, comprising the F1-F4 generations, genomic in situ hybridization, fluorescence in situ hybridization and chromosome-specific molecular markers were used to trace and identify the wheat and barley chromatin. Investigations on salt tolerance during germination and on the (1,3;1,4)-β-D-glucan (mixed-linkage glucan [MLG]) content of the seeds confirmed the salt tolerance and elevated grain MLG content of the translocation line, which can be directly applied in current wheat breeding programmes.

Published

2018

41. Genome-Wide Analysis of Interchromosomal Interaction Probabilities Reveals Chained Translocations and Overrepresentation of Translocation Breakpoints in Genes in a Cutaneous T-Cell Lymphoma Cell Line

Author

Markus Möbs, Piotr Grabarczyk, Matthias Port, Grzegorz K. Przybylski, Anne Steininger, Benjamin Valentin Becker, Andreas W. Kuss, Lars R. Jensen, Chalid Assaf, Grit Ebert, Reinhard Ullmann, and Christian Schmidt

Subjects

0301 basic medicine, Genome instability, Cancer Research, Carcinogenesis, Chromosomal translocation, Biology, lcsh:RC254-282, Genome, Translocation, Genetic, Translokation, T-Zell-Lymphom, chromosomal translocations, Chromosome conformation capture, deep sequencing, 03 medical and health sciences, ddc:610, Carcinogenese, chromoplexy, cutaneous T-cell lymphoma, Gene, Original Research, Genetics, Chromothripsis, Chromosome, Chromoplexy, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Lymphoma, T-Cell, Cutaneous, 030104 developmental biology, Oncology, chromosome conformation capture, High-throughput nucleotide sequencing

Abstract

In classical models of tumorigenesis, the accumulation of tumor promoting chromosomal aberrations is described as a gradual process. Next-generation sequencing-based methods have recently revealed complex patterns of chromosomal aberrations, which are beyond explanation by these classical models of karyotypic evolution of tumor genomes. Thus, the term chromothripsis has been introduced to describe a phenomenon, where temporarily and spatially confined genomic instability results in dramatic chromosomal rearrangements limited to segments of one or a few chromosomes. Simultaneously arising and misrepaired DNA double-strand breaks are also the cause of another phenomenon called chromoplexy, which is characterized by the presence of chained translocations and interlinking deletion bridges involving several chromosomes. In this study, we demonstrate the genome-wide identification of chromosomal translocations based on the analysis of translocation-associated changes in spatial proximities of chromosome territories on the example of the cutaneous T-cell lymphoma cell line Se-Ax. We have used alterations of intra- and interchromosomal interaction probabilities as detected by genome-wide chromosome conformation capture (Hi-C) to infer the presence of translocations and to fine-map their breakpoints. The outcome of this analysis was subsequently compared to datasets on DNA copy number alterations and gene expression. The presence of chained translocations within the Se-Ax genome, partly connected by intervening deletion bridges, indicates a role of chromoplexy in the etiology of this cutaneous T-cell lymphoma. Notably, translocation breakpoints were significantly overrepresented in genes, which highlight gene-associated biological processes like transcription or other gene characteristics as a possible cause of the observed complex rearrangements. Given the relevance of chromosomal aberrations for basic and translational research, genome-wide high-resolution analysis of structural chromosomal aberrations will gain increasing importance.

Published

2018

42. Insights into the origin of the high variability of multivalent-meiotic associations in holocentric chromosomes of Tityus (Archaeotityus) scorpions

Author

Leonardo S. Carvalho, Viviane Fagundes Mattos, Marcos André de Carvalho, Marielle Cristina Schneider, Universidade Estadual Paulista (Unesp), UFPI, UFMT, Universidade Federal de São Paulo (UNIFESP), and Universidade Federal de Minas Gerais (UFMG)

Subjects

0301 basic medicine, Chromosome Structure and Function, Cell Physiology, Arthropoda, Population, lcsh:Medicine, Chromosomal translocation, Biology, Intraspecific competition, Chromosomes, Scorpions, Cell Fusion, Polyploidy, 03 medical and health sciences, Cytogenetics, Meiosis, Arachnida, Genetics, Nucleolus Organizer Region, Animals, Cell Cycle and Cell Division, lcsh:Science, education, Metaphase, In Situ Hybridization, education.field_of_study, Multidisciplinary, Chromosome Biology, lcsh:R, Organisms, Chromosome, Biology and Life Sciences, Eukaryota, Cell Biology, Invertebrates, Chromosomal Aberrations, 030104 developmental biology, Evolutionary biology, Cell Processes, Chromosomal Translocations, Holocentric, lcsh:Q, Nucleolus organizer region, Ploidy, Karyotypes, Departures from Diploidy, Research Article

Abstract

Made available in DSpace on 2018-12-11T16:52:01Z (GMT). No. of bitstreams: 0 Previous issue date: 2018-02-01 Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) Agência Nacional de Águas Instituto Federal de Mato Grosso Labomar, Instituto de Ciências do Mar, Universidade Federal do Ceará Universidad Nacional del Centro de la Provincia de Buenos Aires Instituto Nacional de Pesquisas da Amazônia Universidade de São Paulo Scorpions represent an intriguing group of animals characterized by a high incidence of heterozygous chromosomal rearrangements. In this work, we examined six species of Tityus (Archaeotityus) from Brazilian fauna with a particular focus on elucidating the rearrangements responsible for the intraspecific variability of diploid number and the presence of long chromosomal chains in meiosis. To access any interpopulation diversity, we also studied individuals from four species representing distinct localities. Most species demonstrated intraspecific polymorphism in diploid number (2n = 19 and 2n = 20 in T. clathratus, T. mattogrossensis, and T. pusillus, 2n = 16, 2n = 17 and 2n = 18 in T. paraguayensis, and 2n = 16 and 2n = 24 in T. silvestris) and multi-chromosomal associations during meiosis I, which differed even among individuals with the same chromosome number. In some species, the heterozygous rearrangements were not fixed, resulting such as in Tityus clathatrus, in 11 different chromosomal configurations recognized within a same population. Based on meiotic chromosome behaviour, we suggested that independent rearrangements (fusion/ fission and reciprocal translocations), occurring in different combinations, originated the multi-chromosomal chains. To evaluate the effects of these chromosome chains on meiotic segregation, we applied the chi-square test in metaphase II cells. The non-significant occurrence of aneuploid nuclei indicated that non-disjunction was negligible in specimens bearing heterozygous rearrangements. Finally, based on our analysis of many chromosome characteristics, e.g., holocentricity, achiasmate meiosis, endopolyploidy, ability to segregate heterosynaptic or unsynapsed chromosomes, (TTAGG)n sequence located in terminal regions of rearranged chromosomes, we suggest that the maintenance of multi-chromosomal associations may be evolutionarily advantageous for these species. Universidade Estadual Paulista “Júlio de Mesquita Filho” UNESP Departamento de Biologia Universidade Federal do Piauí UFPI Campus Almícar Ferreira Sobral Floriano Universidade Federal de Mato Grosso UFMT Departamento de Biologia e Zoologia Universidade Federal de São Paulo UNIFESP Departamento de Ecologia e Biologia Evolutiva Pós-Graduação em Zoologia Universidade Federal de Minas Gerais UFMG Universidade Estadual Paulista “Júlio de Mesquita Filho” UNESP Departamento de Biologia FAPESP: 2011/21643-1 FAPESP: 2013/11840-0 Agência Nacional de Águas: 23561–1 Labomar, Instituto de Ciências do Mar, Universidade Federal do Ceará: 25471–1 Labomar, Instituto de Ciências do Mar, Universidade Federal do Ceará: 40014–2 Universidad Nacional del Centro de la Provincia de Buenos Aires: 41383–2 Instituto Nacional de Pesquisas da Amazônia: 48224–1

Published

2018

43. High density SNP mapping and QTL analysis for time of leaf budburst in Corylus avellana L

Author

Ezio Portis, Todd C. Mockler, Erik R. Rowley, Nadia Valentini, Alberto Acquadro, Daniela Torello Marinoni, Chiara Beltramo, Shawn A. Mehlenbacher, and Roberto Botta

Subjects

Genetics and Molecular Biology (all), 0106 biological sciences, 0301 basic medicine, Leaves, Genetic Linkage, lcsh:Medicine, Chromosomal translocation, Plant Science, Plant Genetics, 01 natural sciences, Loss of heterozygosity, DNA library construction, Plant Genomics, lcsh:Science, Genetics, education.field_of_study, Multidisciplinary, Chromosome Biology, Plant Anatomy, Chromosome Mapping, Agriculture, Genomics, Genomic Library Construction, Chromosomal Aberrations, Phenotype, Research Article, Biotechnology, Genetic Markers, Quantitative Trait Loci, Population, Single-nucleotide polymorphism, DNA construction, Biology, Quantitative trait locus, Research and Analysis Methods, Polymorphism, Single Nucleotide, Chromosomes, Plant, Molecular Genetics, 03 medical and health sciences, Corylus, Gene mapping, Genetic linkage, Molecular Biology Techniques, Linkage Mapping, education, Molecular Biology, Linkage (software), Agricultural and Biological Sciences (all), Gene Mapping, lcsh:R, Biology and Life Sciences, Cell Biology, Sequence Analysis, DNA, Plant Leaves, Plant Breeding, 030104 developmental biology, Genetic Loci, Chromosomal Translocations, Plant Biotechnology, lcsh:Q, 010606 plant biology & botany

Abstract

The growing area of European hazelnut (Corylus avellana L.) is increasing, as well as the number of producing countries, and there is a pressing need for new improved cultivars. Hazelnut conventional breeding process is slow, due to the length of juvenile phase and the high heterozygosity level. The development of genetic linkage maps and the identification of molecular markers tightly linked to QTL (quantitative trait loci) of agronomic interest are essential tools for speeding up the selection of seedlings carrying desired traits through marker-assisted selection. The objectives of this study were to enrich a previous linkage map and confirm QTL related to time of leaf budburst, using an F1 population obtained by crossing Tonda Gentile delle Langhe with Merveille de Bollwiller. Genotyping-by-Sequencing was used to identify a total of 9,999 single nucleotide polymorphism markers. Well saturated linkage maps were constructed for each parent using the double pseudo-testcross mapping strategy. A reciprocal translocation was detected in Tonda Gentile delle Langhe between two non-homologous chromosomes. Applying a bioinformatic approach, we were able to disentangle 'pseudo-linkage' between markers, removing markers around the translocation breakpoints and obtain a linear order of the markers for the two chromosomes arms, for each linkage group involved in the translocation. Twenty-nine QTL for time of leaf budburst were identified, including a stably expressed region on LG_02 of the Tonda Gentile delle Langhe map. The stability of these QTL and their coding sequence content indicates promise for the identification of specific chromosomal regions carrying key genes involved in leaf budburst.

Published

2018

44. Position effect, cryptic complexity, and direct gene disruption as disease mechanisms in de novo apparently balanced translocation cases

Author

Carolina Sismani, Efthymia Constantinou, Mads Bak, Violetta Christophidou-Anastasiadou, Athina Theodosiou, Ioannis Papaevripidou, Angelos Alexandrou, Constantia Aristidou, Niels Tommerup, Nicos Skordis, Mana M. Mehrjouy, and Sophia Kitsiou-Tzeli

Subjects

0301 basic medicine, Heredity, Molecular biology, Sry Box, Gene Expression, lcsh:Medicine, Chromosomal translocation, Artificial Gene Amplification and Extension, Otology, Deafness, Polymerase Chain Reaction, Biochemistry, Translocation, Genetic, Database and Informatics Methods, Chromosome Breakpoints, 0302 clinical medicine, Sequencing techniques, Medicine and Health Sciences, DNA sequencing, lcsh:Science, Hearing Disorders, Sanger sequencing, Genetics, Multidisciplinary, Chromothripsis, Chromosome Biology, Phenotype, Chromosomal Aberrations, Position effect, Speech delay, symbols, Female, medicine.symptom, Sequence Analysis, SOXD Transcription Factors, Research Article, Bioinformatics, Karyotype, Biology, 03 medical and health sciences, symbols.namesake, Protein Domains, Intellectual Disability, medicine, Gene Disruption, Humans, Language Development Disorders, Hearing Loss, Gene, Base Sequence, Whole Genome Sequencing, Breakpoint, lcsh:R, Dideoxy DNA sequencing, Biology and Life Sciences, Proteins, Facies, Cell Biology, Research and analysis methods, NFI Transcription Factors, 030104 developmental biology, Molecular biology techniques, Otorhinolaryngology, Chromosomal Translocations, POU Domain Factors, lcsh:Q, Sequence Alignment, 030217 neurology & neurosurgery

Abstract

The majority of apparently balanced translocation (ABT) carriers are phenotypically normal. However, several mechanisms were proposed to underlie phenotypes in affected ABT cases. In the current study, whole-genome mate-pair sequencing (WG-MPS) followed by Sanger sequencing was applied to further characterize de novo ABTs in three affected individuals. WG-MPS precisely mapped all ABT breakpoints and revealed three possible underlying molecular mechanisms. Firstly, in a t(X;1) carrier with hearing loss, a highly skewed Xinactivation pattern was observed and the der(X) breakpoint mapped ∼87kb upstream an Xlinked deafness gene namely POU3F4, thus suggesting an underlying long-range position effect mechanism. Secondly, cryptic complexity and a chromothripsis rearrangement was identified in a t(6;7;8;12) carrier with intellectual disability. Two translocations and a heterozygous deletion disrupted SOX5; a dominant nervous system development gene previously reported in similar patients. Finally, a direct gene disruption mechanism was proposed in a t (4;9) carrier with dysmorphic facial features and speech delay. In this case, the der(9) breakpoint directly disrupted NFIB, a gene involved in lung maturation and development of the pons with important functions in main speech processes. To conclude, in contrast to familial ABT cases with identical rearrangements and discordant phenotypes, where translocations are considered coincidental, translocations seem to be associated with phenotype presentation in affected de novo ABT cases. In addition, this study highlights the importance of investigating both coding and non-coding regions to decipher the underlying pathogenic mechanisms in these patients, and supports the potential introduction of low coverage WGMPS in the clinical investigation of de novo ABTs.

Published

2018

45. Clonal chromosomal and genomic instability during human multipotent mesenchymal stromal cells long-term culture

Author

Stanislav Lauk-Dubitskiy, Vitaliy Brunchukov, Dariya Usupzhanova, I. Kobzeva, Victoria Nikitina, Sergey Rodin, Andrey Bushmanov, Tatiana Karaseva, Valentin Brumberg, Yulia Suchkova, Vladimir Nugis, Astrelina Ta, Aleksandr Samoilov, Ekaterina Dobrovolskaya, Anastasia Machova, Aleksandr Ostashkin, and Elena Lomonosova

Subjects

0301 basic medicine, Clone (cell biology), lcsh:Medicine, Aneuploidy, Chromosomal translocation, Animal Cells, Chromosome instability, Cell Cycle and Cell Division, lcsh:Science, Cells, Cultured, Multidisciplinary, Chromosome Biology, Stem Cells, Karyotype, Hälsovetenskaper, Chromosomal Aberrations, Cell Processes, Tetrasomy, Karyotypes, Cellular Types, Research Article, Chromosome Structure and Function, Biology, Research and Analysis Methods, Genomic Instability, Chromosomes, Immunophenotyping, Polyploidy, Cytogenetics, 03 medical and health sciences, Health Sciences, Genetics, medicine, Humans, Molecular Biology Techniques, Molecular Biology, Metaphase, Chromosome Aberrations, lcsh:R, Mesenchymal stem cell, Biology and Life Sciences, Chromosome, Mesenchymal Stem Cells, Cell Biology, medicine.disease, Molecular biology, 030104 developmental biology, Chromosomal Translocations, Karyotyping, lcsh:Q, Departures from Diploidy, Microsatellite Repeats, Cloning

Abstract

Background aims Spontaneous mutagenesis often leads to appearance of genetic changes in cells. Although human multipotent mesenchymal stromal cells (hMSC) are considered as genetically stable, there is a risk of genomic and structural chromosome instability and, therefore, side effects of cell therapy associated with long-term effects. In this study, the karyotype, genetic variability and clone formation analyses have been carried out in the long-term culture MSC from human gingival mucosa. Methods The immunophenotype of MSC has been examined using flow cytofluorometry and short tandem repeat (STR) analysis has been carried out for authentication. The karyotype has been examined using GTG staining and mFISH, while the assessment of the aneuploidy 8 frequency has been performed using centromere specific chromosome FISH probes in interphase cells. Results The immunophenotype and STR loci combination did not change during the process of cultivation. From passage 23 the proliferative activity of cultured MSCs was significantly reduced. From passage 12 of cultivation, clones of cells with stable chromosome aberrations have been identified and the biggest of these (12%) are tetrasomy of chromosome 8. The random genetic and structural chromosomal aberrations and the spontaneous level of chromosomal aberrations in the hMSC long-term cultures were also described. Conclusions The spectrum of spontaneous chromosomal aberrations in MSC long-term cultivation has been described. Clonal chromosomal aberrations have been identified. A clone of cells with tetrasomy 8 has been detected in passage 12 and has reached the maximum size by passage 18 before and decreased along with the reduction of proliferative activity of cell line by passage 26. At later passages, the MSC line exhibited a set of cells with structural variants of the karyotype with a preponderance of normal diploid cells. The results of our study strongly suggest a need for rigorous genetic analyses of the clone formation in cultured MSCs before use in medicine.

Published

2018

46. CRISPR/Cas9 technology for targeted genome editing

Author

Lomov, N.A., Borunova, V.V., and Rubtsov, M.A.

Subjects

personalized therapy, QH301-705.5, Reviews, Computational biology, Biology, QH426-470, General Biochemistry, Genetics and Molecular Biology, chromosomal translocations, genome targeting, Genetics, CRISPR, genome editing, Biology (General), CRISPR/Cas9

Abstract

CRISPRs (Clustered Regularly Interspaced Short Palindromic Repeats) are the segments of prokaryotic DNA containing short repeats in its nucleotide sequence. Today we know that this is a bacterial protection system against viral DNA. The molecular components of CRISPR/Cas9 system have been used for a gene editing in eukaryotes since 2013. But as any other method it also has the limitations and drawbacks. Here we are going to review the history of CRISPR biology and to discuss the possibilities that this new technology provides to researchers as well as the prospects for its use in the medical research and treatment. CRISPRs (Clustered Regularly Interspaced Short Palindromic Repeats) – послідовності в геномі прокариот, які складаються з коротких повторів, що перемежовуються унікальними послідовностями. Це система бактеріальної захисту від вірусної ДНК. Молекулярні компоненти даної системи з 2013 року використовуються як інструмент редагування еукаріотічесого геному, хоча дана технологія і має деякі обмеження і недоліки. У даному огляді ми торкнемося історію застосування системи CRISPR / Cas9 і обговоримо можливості, які дана технологія надає для дослідження і лікування різних захворювань. CRISPRs (Clustered Regularly Interspaced Short Palindromic Repeats) – последовательности в геноме прокариот, которые состоят из коротких повторов, перемежающихся уникальными последовательностями. Это система бактериальной защиты от вирусной ДНК. Молекулярные компоненты данной системы с 2013 года используются как инструмент редактирования эукариотического генома, хотя данная технология и имеет некоторые ограничения и недостатки. В данном обзоре мы затронем историю применения системы CRISPR/Cas9 и обсудим возможности, которые данная технология предоставляет для исследования и лечения различных заболеваний.

Published

2015

47. Characterization of Chromosomal Translocation Breakpoint Sequences in Solid Tumours: 'An In Silico Analysis'

Author

Valentina V. Umrania, Aditi Daga, Afzal Ansari, and Rakesh Rawal

Subjects

Genetics, Chromosome engineering, In silico, Breakpoint, segmental duplication, physico-chemical parameters, Chromosomal translocation, Chromosomal rearrangement, Biology, Genome, Fusion protein, Article, chromosomal translocations, fusion protein, solid tumours, Segmental duplication

Abstract

Chromosomal translocations that results in formation and activation of fusion oncogenes are observed in numerous solid malignancies since years back. Expression of fusion kinases in these cancers drives the initiation & progression that ultimately leads to tumour development and thus comes out to be clinically imperative in terms of diagnosis and treatment of cancer. Nonetheless, molecular mechanisms beneath these translocations remained unexplored consequently limiting our knowledge of carcinogenesis and hence is the current field where further research is required. The issue of prime focus is the precision with which the chromosomes breaks and reunites within genome. Characterization of Genomic sequences located at Breakpoint region may direct us towards the thorough understanding of mechanism leading to chromosomal rearrangement. A unique computational multi-parametric analysis was performed for characterization of genomic sequence within and around breakpoint region. This study turns out to be novel as it reveals the occurrence of Segmental Duplications flanking the breakpoints of all translocation. Breakpoint Islands were also investigated for the presence of other intricate genomic architecture and various physico-chemical parameters. Our study particularly highlights the probable role of SDs and specific genomic features in precise chromosomal breakage. Additionally, it pinpoints the potential features that may be significant for double-strand breaks leading to chromosomal rearrangements.

Published

2015

48. Clustering of samples and variables with mixed-type data

Author

Manuela Hummel, Annette Kopp-Schneider, and Dominic Edelmann

Subjects

0301 basic medicine, Computer science, lcsh:Medicine, Gene Expression, computer.software_genre, 01 natural sciences, Hematologic Cancers and Related Disorders, 010104 statistics & probability, Medicine and Health Sciences, Cluster Analysis, lcsh:Science, Multidisciplinary, Chromosome Biology, Simulation and Modeling, Applied Mathematics, Contrast (statistics), Mutual information, Hematology, Acute Lymphoblastic Leukemia, Chromosomal Aberrations, Distance correlation, Oncology, Data Interpretation, Statistical, Physical Sciences, Lymphoblastic Leukemia, Data mining, Algorithms, Research Article, Computer and Information Sciences, Research and Analysis Methods, 03 medical and health sciences, Cytogenetics, Clustering Algorithms, Data visualization, Leukemias, Genetics, 0101 mathematics, Cluster analysis, business.industry, Data Visualization, lcsh:R, Biology and Life Sciences, Cancers and Neoplasms, Random Variables, Cell Biology, Probability Theory, Hierarchical clustering, Visualization, 030104 developmental biology, Chromosomal Translocations, lcsh:Q, business, computer, Mathematics

Abstract

Analysis of data measured on different scales is a relevant challenge. Biomedical studies often focus on high-throughput datasets of, e.g., quantitative measurements. However, the need for integration of other features possibly measured on different scales, e.g. clinical or cytogenetic factors, becomes increasingly important. The analysis results (e.g. a selection of relevant genes) are then visualized, while adding further information, like clinical factors, on top. However, a more integrative approach is desirable, where all available data are analyzed jointly, and where also in the visualization different data sources are combined in a more natural way. Here we specifically target integrative visualization and present a heatmap-style graphic display. To this end, we develop and explore methods for clustering mixed-type data, with special focus on clustering variables. Clustering of variables does not receive as much attention in the literature as does clustering of samples. We extend the variables clustering methodology by two new approaches, one based on the combination of different association measures and the other on distance correlation. With simulation studies we evaluate and compare different clustering strategies. Applying specific methods for mixed-type data proves to be comparable and in many cases beneficial as compared to standard approaches applied to corresponding quantitative or binarized data. Our two novel approaches for mixed-type variables show similar or better performance than the existing methods ClustOfVar and bias-corrected mutual information. Further, in contrast to ClustOfVar, our methods provide dissimilarity matrices, which is an advantage, especially for the purpose of visualization. Real data examples aim to give an impression of various kinds of potential applications for the integrative heatmap and other graphical displays based on dissimilarity matrices. We demonstrate that the presented integrative heatmap provides more information than common data displays about the relationship among variables and samples. The described clustering and visualization methods are implemented in our R package CluMix available from https://cran.r-project.org/web/packages/CluMix.

Published

2017

49. Division-induced DNA double strand breaks in the chromosome terminus region of Escherichia coli lacking RecBCD DNA repair enzyme

Author

Sinha, Anurag Kumar, Durand, Adeline, Desfontaines, Jean-Michel, Iurchenko, Ielyzaveta, Auger, Hélène, Leach, David R F, Barre, François-Xavier, Michel, Bénédicte, Institut de Biologie Intégrative de la Cellule (I2BC), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), Evolution et maintenance des chromosomes circulaires (EMC2), Département Biologie des Génomes (DBG), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Institut de Biologie Intégrative de la Cellule (I2BC), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), and Stabilité de l’ADN bactérien (STABAC)

Subjects

DNA Replication, DNA, Bacterial, Exodeoxyribonuclease V, lcsh:QH426-470, DNA Repair, Bioinformatics, [SDV]Life Sciences [q-bio], Carbohydrates, Research and Analysis Methods, Biochemistry, Database and Informatics Methods, Sequence Motif Analysis, Journal Article, Escherichia coli, Genetics, DNA Breaks, Double-Stranded, Cell Cycle and Cell Division, Cell Analysis, DNA sequence analysis, Chromosome Biology, Organic Compounds, Escherichia coli Proteins, fungi, Monosaccharides, Organic Chemistry, Chemical Compounds, Biology and Life Sciences, Sequence Analysis, DNA, Cell Biology, DNA, Chromosomes, Bacterial, Chromosomal Aberrations, Nucleic acids, lcsh:Genetics, Chemistry, Glucose, Bioassays and Physiological Analysis, Cell Division Analysis, Cell Processes, Chromosomal Translocations, Genetic Loci, Physical Sciences, Sequence Analysis, Cell Division, Research Article

Abstract

Marker frequency analysis of the Escherichia coli recB mutant chromosome has revealed a deficit of DNA in a specific zone of the terminus, centred on the dif/TerC region. Using fluorescence microscopy of a marked chromosomal site, we show that the dif region is lost after replication completion, at the time of cell division, in one daughter cell only, and that the phenomenon is transmitted to progeny. Analysis by marker frequency and microscopy shows that the position of DNA loss is not defined by the replication fork merging point since it still occurs in the dif/TerC region when the replication fork trap is displaced in strains harbouring ectopic Ter sites. Terminus DNA loss in the recB mutant is also independent of dimer resolution by XerCD at dif and of Topo IV action close to dif. It occurs in the terminus region, at the point of inversion of the GC skew, which is also the point of convergence of specific sequence motifs like KOPS and Chi sites, regardless of whether the convergence of GC skew is at dif (wild-type) or a newly created sequence. In the absence of FtsK-driven DNA translocation, terminus DNA loss is less precisely targeted to the KOPS convergence sequence, but occurs at a similar frequency and follows the same pattern as in FtsK+ cells. Importantly, using ftsIts, ftsAts division mutants and cephalexin treated cells, we show that DNA loss of the dif region in the recB mutant is decreased by the inactivation of cell division. We propose that it results from septum-induced chromosome breakage, and largely contributes to the low viability of the recB mutant., Author summary RecBCD protein complex is an important player of DSB repair in bacteria and bacteria that cannot repair DNA double-stranded breaks (DSB) have a low viability. Whole genome sequencing analyses showed a deficit in specific sequences of the chromosome terminus region in recB mutant cells, suggesting terminus DNA degradation during growth. We studied here the phenomenon of terminus DNA loss by whole genome sequencing and microscopy analyses of exponentially growing bacteria. We tested all processes known to take place in the chromosome terminus region for a putative role in DNA loss: replication fork termination, dimer resolution, resolution of catenated chromosomes, and translocation of the chromosome arms in daughter cells during septum formation. None of the mutations that affect these processes prevents the phenomenon. However, we observed that terminus DNA loss is abolished in cells that cannot divide. We propose that in cells defective for RecBCD-mediated DSB repair the terminus region of the chromosome remains in the way of the growing septum during cell division, then septum closure triggers chromosome breakage and, in turn, DNA degradation.

Published

2017

50. Molecular strategies for detecting chromosomal translocations in soft tissue tumors (Review)

Author

Francesca Collina, Giuseppina Liguori, Gerardo Botti, Renato Franco, Laura Marra, Margherita Cerrone, Monica Cantile, Annarosaria De Chiara, Cerrone, Margherita, Cantile, Monica, Collina, Francesca, Marra, Laura, Liguori, Giuseppina, Franco, Renato, De Chiara, Annarosaria, and Botti, Gerardo

Subjects

Soft Tissue Neoplasm, Chromosomal translocation, Soft Tissue Neoplasms, Computational biology, Biology, soft tissue tumors, Translocation, Genetic, chromosomal translocations, Genetic, molecular analyses, Genetics, medicine, Humans, Gene, Medicine (all), Molecular analyse, Soft tissue tumor, Cancer, General Medicine, Articles, Cell cycle, medicine.disease, Fusion protein, Molecular medicine, Real-time polymerase chain reaction, Human

Abstract

Approximately one third of soft tissue tumors are characterized by chromosomal aberrations, in particular, translocations and amplifications, which appear to be highly specific. The identification of fusion transcripts not only supports the diagnosis, but provides the basis for the development of novel therapeutic strategies aimed at blocking the aberrant activity of chimeric proteins. Molecular biology, and in particular, cytogenetic and qualitative and quantitative polymerase chain reaction technologies, allow with high efficiency and specificity, the determination of specific fusion transcripts resulting from chromosomal translocations, as well as the analysis of gene amplifications. In this review, various molecular techniques that allow the identification of translocations and consequent fusion transcripts generated are discussed in the broad spectrum of soft tissue tumors.

Published

2014