Your search keyword '"chromosomal rearrangements"' showing total 25 results

1. Genome-wide expansion and reorganization during grass evolution: from 30 Mb chromosomes in rice and Brachypodium to 550 Mb in Avena.

Author

Liu, Qing, Ye, Lyuhan, Li, Mingzhi, Wang, Ziwei, Xiong, Gui, Ye, Yushi, Tu, Tieyao, Schwarzacher, Trude, and Heslop-Harrison, John Seymour

Subjects

*OATS, *CHROMOSOMES, *CHROMOSOME structure, *BRACHYPODIUM, *CHROMOSOMAL rearrangement, *RICE

Abstract

Background: The BOP (Bambusoideae, Oryzoideae, and Pooideae) clade of the Poaceae has a common ancestor, with similarities to the genomes of rice, Oryza sativa (2n = 24; genome size 389 Mb) and Brachypodium, Brachypodium distachyon (2n = 10; 271 Mb). We exploit chromosome-scale genome assemblies to show the nature of genomic expansion, structural variation, and chromosomal rearrangements from rice and Brachypodium, to diploids in the tribe Aveneae (e.g., Avena longiglumis, 2n = 2x = 14; 3,961 Mb assembled to 3,850 Mb in chromosomes). Results: Most of the Avena chromosome arms show relatively uniform expansion over the 10-fold to 15-fold genome-size increase. Apart from non-coding sequence diversification and accumulation around the centromeres, blocks of genes are not interspersed with blocks of repeats, even in subterminal regions. As in the tribe Triticeae, blocks of conserved synteny are seen between the analyzed species with chromosome fusion, fission, and nesting (insertion) events showing deep evolutionary conservation of chromosome structure during genomic expansion. Unexpectedly, the terminal gene-rich chromosomal segments (representing about 50 Mb) show translocations between chromosomes during speciation, with homogenization of genome-specific repetitive elements within the tribe Aveneae. Newly-formed intergenomic translocations of similar extent are found in the hexaploid A. sativa. Conclusions: The study provides insight into evolutionary mechanisms and speciation in the BOP clade, which is valuable for measurement of biodiversity, development of a clade-wide pangenome, and exploitation of genomic diversity through breeding programs in Poaceae. [ABSTRACT FROM AUTHOR]

Published

2023

2. Homoeologous evolution of the allotetraploid genome of Poa annua L.

Author

Benson, Christopher W., Sheltra, Matthew R., Maughan, Peter J., Jellen, Eric N., Robbins, Matthew D., Bushman, B. Shaun, Patterson, Eric L., Hall, Nathan D., and Huff, David R.

Subjects

*GENOME size, *BLUEGRASSES (Plants), *CHROMOSOMAL rearrangement, *CHROMOSOME structure, *PLANT genes, *BROOD parasitism, *PLANT genomes, *GENOMES

Abstract

Background: Poa annua (annual bluegrass) is an allotetraploid turfgrass, an agronomically significant weed, and one of the most widely dispersed plant species on earth. Here, we report the chromosome-scale genome assemblies of P. annua's diploid progenitors, P. infirma and P. supina, and use multi-omic analyses spanning all three species to better understand P. annua's evolutionary novelty. Results: We find that the diploids diverged from their common ancestor 5.5 – 6.3 million years ago and hybridized to form P. annua ≤ 50,000 years ago. The diploid genomes are similar in chromosome structure and most notably distinguished by the divergent evolutionary histories of their transposable elements, leading to a 1.7 × difference in genome size. In allotetraploid P. annua, we find biased movement of retrotransposons from the larger (A) subgenome to the smaller (B) subgenome. We show that P. annua's B subgenome is preferentially accumulating genes and that its genes are more highly expressed. Whole-genome resequencing of several additional P. annua accessions revealed large-scale chromosomal rearrangements characterized by extensive TE-downsizing and evidence to support the Genome Balance Hypothesis. Conclusions: The divergent evolutions of the diploid progenitors played a central role in conferring onto P. annua its remarkable phenotypic plasticity. We find that plant genes (guided by selection and drift) and transposable elements (mostly guided by host immunity) each respond to polyploidy in unique ways and that P. annua uses whole-genome duplication to purge highly parasitized heterochromatic sequences. The findings and genomic resources presented here will enable the development of homoeolog-specific markers for accelerated weed science and turfgrass breeding. [ABSTRACT FROM AUTHOR]

Published

2023

3. Long-read genome sequencing identifies cryptic structural variants in congenital aniridia cases.

Author

Damián, Alejandra, Núñez-Moreno, Gonzalo, Jubin, Claire, Tamayo, Alejandra, de Alba, Marta Rodríguez, Villaverde, Cristina, Fund, Cédric, Delépine, Marc, Leduc, Aurélie, Deleuze, Jean François, Mínguez, Pablo, Ayuso, Carmen, and Corton, Marta

Abstract

Background: Haploinsufficiency of the transcription factor PAX6 is the main cause of congenital aniridia, a genetic disorder characterized by iris and foveal hypoplasia. 11p13 microdeletions altering PAX6 or its downstream regulatory region (DRR) are present in about 25% of patients; however, only a few complex rearrangements have been described to date. Here, we performed nanopore-based whole-genome sequencing to assess the presence of cryptic structural variants (SVs) on the only two unsolved "PAX6-negative" cases from a cohort of 110 patients with congenital aniridia after unsuccessfully short-read sequencing approaches. Results: Long-read sequencing (LRS) unveiled balanced chromosomal rearrangements affecting the PAX6 locus at 11p13 in these two patients and allowed nucleotide-level breakpoint analysis. First, we identified a cryptic 4.9 Mb de novo inversion disrupting intron 7 of PAX6, further verified by targeted polymerase chain reaction amplification and sequencing and FISH-based cytogenetic analysis. Furthermore, LRS was decisive in correctly mapping a t(6;11) balanced translocation cytogenetically detected in a second proband with congenital aniridia and considered non-causal 15 years ago. LRS resolved that the breakpoint on chromosome 11 was indeed located at 11p13, disrupting the DNase I hypersensitive site 2 enhancer within the DRR of PAX6, 161 Kb from the causal gene. Patient-derived RNA expression analysis demonstrated PAX6 haploinsufficiency, thus supporting that the 11p13 breakpoint led to a positional effect by cleaving crucial enhancers for PAX6 transactivation. LRS analysis was also critical for mapping the exact breakpoint on chromosome 6 to the highly repetitive centromeric region at 6p11.1. Conclusions: In both cases, the LRS-based identified SVs have been deemed the hidden pathogenic cause of congenital aniridia. Our study underscores the limitations of traditional short-read sequencing in uncovering pathogenic SVs affecting low-complexity regions of the genome and the value of LRS in providing insight into hidden sources of variation in rare genetic diseases. [ABSTRACT FROM AUTHOR]

Published

2023

4. Large scale genomic rearrangements in selected Arabidopsis thaliana T-DNA lines are caused by T-DNA insertion mutagenesis.

Author

Pucker, Boas, Kleinbölting, Nils, and Weisshaar, Bernd

Subjects

*MUTAGENESIS, *CHROMOSOMAL rearrangement, *REVERSE genetics, *CHROMOSOMES, *ARABIDOPSIS thaliana, *GENOMES, *MEIOSIS

Abstract

Background: Experimental proof of gene function assignments in plants is based on mutant analyses. T-DNA insertion lines provided an invaluable resource of mutants and enabled systematic reverse genetics-based investigation of the functions of Arabidopsis thaliana genes during the last decades. Results: We sequenced the genomes of 14 A. thaliana GABI-Kat T-DNA insertion lines, which eluded flanking sequence tag-based attempts to characterize their insertion loci, with Oxford Nanopore Technologies (ONT) long reads. Complex T-DNA insertions were resolved and 11 previously unknown T-DNA loci identified, resulting in about 2 T-DNA insertions per line and suggesting that this number was previously underestimated. T-DNA mutagenesis caused fusions of chromosomes along with compensating translocations to keep the gene set complete throughout meiosis. Also, an inverted duplication of 800 kbp was detected. About 10 % of GABI-Kat lines might be affected by chromosomal rearrangements, some of which do not involve T-DNA. Local assembly of selected reads was shown to be a computationally effective method to resolve the structure of T-DNA insertion loci. We developed an automated workflow to support investigation of long read data from T-DNA insertion lines. All steps from DNA extraction to assembly of T-DNA loci can be completed within days. Conclusions: Long read sequencing was demonstrated to be an effective way to resolve complex T-DNA insertions and chromosome fusions. Many T-DNA insertions comprise not just a single T-DNA, but complex arrays of multiple T-DNAs. It is becoming obvious that T-DNA insertion alleles must be characterized by exact identification of both T-DNA::genome junctions to generate clear genotype-to-phenotype relations. [ABSTRACT FROM AUTHOR]

Published

2021

5. Multiple independent chromosomal fusions accompanied the radiation of the Antarctic teleost genus Trematomus (Notothenioidei:Nototheniidae).

Author

Auvinet, Juliette, Graça, Paula, Dettai, Agnès, Amores, Angel, Postlethwait, John H., Detrich III, H. William, Ozouf-Costaz, Catherine, Coriton, Olivier, and Higuet, Dominique

Subjects

*CHROMOSOMAL rearrangement, *FISH populations, *POPULATION differentiation, *RADIATION, *GENETIC speciation

Abstract

Background: Chromosomal rearrangements are thought to be an important driving force underlying lineage diversification, but their link to speciation continues to be debated. Antarctic teleost fish of the family Nototheniidae (Notothenioidei) diversified in a changing environmental context, which led to ecological, morphological, and genetic differentiation among populations. In addition, extensive chromosomal repatterning accompanied species divergence in several clades. The most striking karyotypic changes involved the recent species radiation (about 10 My) of the genus Trematomus, with chromosomal pair numbers ranging between 29 and 12. These dramatic reductions in chromosome number resulted mostly from large-scale chromosome fusions. Multiple centric and/or tandem fusions have been hypothesized in at least seven of the twelve recognized Trematomus species. To reconstruct their evolutionary history, we employed comparative cytogenomics (BAC-FISH and chromosome painting) to reveal patterns of interspecific chromosomal orthologies across several notothenioid clades. Results: We defined orthologous chromosomal segments of reference, termed Structural Units (SUs). SUs were identified in a total of 18 notothenioid species. We demonstrated for the first time that SUs were strongly conserved across every specimen examined, with chromosomal syntenies highlighting a paucity of intrachromosomal macro-rearrangements. Multiple independent fusions of these SUs were inferred in the Trematomus species, in contrast to the shared SU fusions in species of the sister lineage Notothenia. Conclusions: The SU segments were defined units of chromosomal rearrangement in the entire family Nototheiidae, which diverged from the other notothenioid families 20 My ago. Some of the identified chromosomal syntenies within the SUs were even conserved in their closest relatives, the family Eleginopsidae. Comparing the timing of acquisition of the fusions in the closely related genera Notothenia and Trematomus of the nototheniid species family, we conclude that they exhibit distinct chromosomal evolutionary histories, which may be relevant to different speciation scenarios. [ABSTRACT FROM AUTHOR]

Published

2020

6. Comparative chromosome maps between the stone curlew and three ciconiiform species (the grey heron, little egret and crested ibis)

Author

Wang, Jinhuan, Su, Weiting, Hu, Yi, Li, Shengbin, O’Brien, Patricia C. M., Ferguson-Smith, Malcolm A., Yang, Fengtang, and Nie, Wenhui

Published

2022

7. Heterogeneous rates of genome rearrangement contributed to the disparity of species richness in Ascomycota.

Author

Rajeh, Ahmad, Lv, Jie, and Lin, Zhenguo

Subjects

*GENOMES, *GENE flow, *CHROMOSOMAL rearrangement, *SPECIES diversity, *ASCOMYCETES

Abstract

Background: Chromosomal rearrangements have been shown to facilitate speciation through creating a barrier of gene flow. However, it is not known whether heterogeneous rates of chromosomal rearrangement at the genome scale contributed to the huge disparity of species richness among different groups of organisms, which is one of the most remarkable and pervasive patterns on Earth. The largest fungal phylum Ascomycota is an ideal study system to address this question because it comprises three subphyla (Saccharomycotina, Taphrinomycotina, and Pezizomycotina) whose species numbers differ by two orders of magnitude (59,000, 1000, and 150 respectively). Results: We quantified rates of genome rearrangement for 71 Ascomycota species that have well-assembled genomes. The rates of inter-species genome rearrangement, which were inferred based on the divergence rates of gene order, are positively correlated with species richness at both ranks of subphylum and class in Ascomycota. This finding is further supported by our quantification of intra-species rearrangement rates based on paired-end genome sequencing data of 216 strains from three representative species, suggesting a difference of intrinsic genome instability among Ascomycota lineages. Our data also show that different rates of imbalanced rearrangements, such as deletions, are a major contributor to the heterogenous rearrangement rates. Conclusions: Various lines of evidence in this study support that a higher rate of rearrangement at the genome scale might have accelerated the speciation process and increased species richness during the evolution of Ascomycota species. Our findings provide a plausible explanation for the species disparity among Ascomycota lineages, which will be valuable to unravel the underlying causes for the huge disparity of species richness in various taxonomic groups. [ABSTRACT FROM AUTHOR]

Published

2018

8. Uncovering the evolutionary history of neo-XY sex chromosomes in the grasshopper Ronderosia bergii (Orthoptera, Melanoplinae) through satellite DNA analysis.

Author

Palacios-Gimenez, Octavio M., Milani, Diogo, Lemos, Bernardo, Castillo, Elio R., Martí, Dardo A., Ramos, Erica, Martins, Cesar, and Cabral-de-Mello, Diogo C.

Subjects

*CHROMOSOMAL rearrangement, *BIOLOGICAL evolution, *SATELLITE DNA, *SEX chromosomes, *GRASSHOPPERS

Abstract

Background: Neo-sex chromosome systems arose independently multiple times in evolution, presenting the remarkable characteristic of repetitive DNAs accumulation. Among grasshoppers, occurrence of neo-XY was repeatedly noticed in Melanoplinae. Here we analyzed the most abundant tandem repeats of R. bergii (2n = 22, neo-XY♂) using deep Illumina sequencing and graph-based clustering in order to address the neo-sex chromosomes evolution. Results: The analyses revealed ten families of satDNAs comprising about ~1% of the male genome, which occupied mainly C-positive regions of autosomes. Regarding the sex chromosomes, satDNAs were recorded within centromeric or interstitial regions of the neo-X chromosome and four satDNAs occurred in the neo-Y, two of them being exclusive (Rber248 and Rber299). Using a combination of probes we uncovered five well-defined cytological variants for neo-Y, originated by multiple paracentric inversions and satDNA amplification, besides fragmented neo-Y. These neo-Y variants were distinct in frequency between embryos and adult males. Conclusions: The genomic data together with cytogenetic mapping enabled us to better understand the neo-sex chromosome dynamics in grasshoppers, reinforcing differentiation of neo-X and neo-Y and revealing the occurrence of multiple additional rearrangements involved in the neo-Y evolution of R. bergii. We discussed the possible causes that led to differences in frequency for the neo-Y variants between embryos and adults. Finally we hypothesize about the role of DNA satellites in R. bergii as well as putative historical events involved in the evolution of the R. bergii neo-XY. [ABSTRACT FROM AUTHOR]

Published

2018

9. Efficient generation and reversion of chromosomal translocations using CRISPR/Cas technology.

Author

Lekomtsev, Sergey, Aligianni, Sofia, Lapao, Ana, and Bürckstümmer, Tilmann

Subjects

*CHROMOSOME structure, *CHROMOSOMAL translocation, *NEOPLASTIC cell transformation, *RNA, *CRISPRS

Abstract

Background: Chromosomal translocations are a hallmark of cancer cells and give rise to fusion oncogenes. To gain insight into the mechanisms governing tumorigenesis, adequate model cell lines are required. Results: We employ the versatile CRISPR/Cas system to engineer cell lines in which chromosomal translocations are either generated de novo (CD74-ROS1) or existing translocations are reverted back to the original configuration (BCR-ABL1). To this end, we co-apply two guide RNAs to artificially generate two breakpoints and screen for spontaneous fusion events by PCR. Conclusions: The approach we use is efficient and delivers clones bearing translocationsin a predictable fashion. Detailed analysis suggests that the clones display no additional undesired alterations, implying that the approach is robust and precise. [ABSTRACT FROM AUTHOR]

Published

2016

10. Genomic organization of repetitive DNAs highlights chromosomal evolution in the genus Clarias (Clariidae, Siluriformes).

Author

Maneechot, Nuntiya, Yano, Cassia Fernanda, Carlos Bertollo, Luiz Antonio, Getlekha, Nuntaporn, Molina, Wagner Franco, Ditcharoen, Sukhonthip, Tengjaroenkul, Bundit, Supiwong, Weerayuth, Tanomtong, Alongklod, and de Bello Cioffi, Marcelo

Subjects

*CLARIAS, *CATFISH genetics, *NUCLEOTIDE sequence, *CHROMOSOME analysis, *MICROSATELLITE repeats, *KARYOTYPES

Abstract

Background: The genus Clarias (Clariidae, Siluriformes) contains at least 61 species naturally spread over vast regions of Asia, India and Africa. However, Clarias species have also been introduced in many different countries and represent the most widespread catfishes in the world. These fishes are also known as "walking catfishes" due to their ability to move over land. A large degree of chromosomal variation has been previously found in this family, mainly using conventional cytogenetic investigations, with diploid chromosome numbers ranging between 48 and 100. In this study, we analyzed the karyotype structure and distribution of four repetitive DNA sequences (5S and 18S rDNAs and (CA)15 and (GA)15 microsatellites) in three Clarias species (C. batrachus, C. gariepinus, C. macrocephalus), as well as in a probable natural hybrid of the two latter species from different Thailand river basins. Results: Clarias gariepinus and C. macrocephalus had 2n = 56 and 2n = 54, respectively, as well as karyotypes composed mainly by metacentric and submetacentric chromosomes. Their karyotypes differed in the number and location of 5S and 18S rDNA sites and in the degree of microsatellite accumulation. An intermediate chromosomal pattern incorporating those of the parental species was found in the probable hybrid, confirming its interspecific origin. Clarias batrachus had 2n = 104 chromosomes and its karyotype was dominated by mainly acrocentric elements, indicating that unusual multiple centric fissions were involved in its karyotype differentiation. The karyotype of this species presented an unexpected dispersion of ribosomal DNAs, possessing 54 and 12 sites of 5S and 18S rDNAs, respectively, as well as a high accumulation and differential distribution of both microsatellite repeats, representing 'hot spots' for chromosomal rearrangement. Conclusion: Both conventional and molecular cytogenetic markers were useful tools for demonstrating remarkable evolutionary dynamism and highlighting multiple chromosomal rearrangements and hybridization events correlated with the notable karyotypic diversity of these walking catfishes. [ABSTRACT FROM AUTHOR]

Published

2016

11. Irradiation induced inversions suppress recombination between the M locus and morphological markers in Aedes aegypti

Author

Augustinos, Antonios A., Misbah-ul-Haq, Muhammad, Carvalho, Danilo O., de la Fuente, Lucia Duran, Koskinioti, Panagiota, and Bourtzis, Kostas

Published

2020

12. Multidirectional chromosome painting substantiates the occurrence of extensive genomic reshuffling within Accipitriformes.

Author

Wenhui Nie, O'Brien, Patricia C. M., Beiyuan Fu, Jinghuan Wang, Weiting Su, Kai He, Bed'Hom, Bertrand, Volobouev, Vitaly, Ferguson-Smith, Malcolm A., Dobigny, Gauthier, and Fengtang Yang

Subjects

*CHICKENS, *CHROMOSOMES, *KARYOTYPES, *ACCIPITRIDAE, *GRIFFON vulture

Abstract

Background: Previous cross-species painting studies with probes from chicken (Gallus gallus) chromosomes 1-10 and a paint pool of nineteen microchromosomes have revealed that the drastic karyotypic reorganization in Accipitridae is due to extensive synteny disruptions and associations. However, the number of synteny association events and identities of microchromosomes involved in such synteny associations remain undefined, due to the lack of paint probes derived from individual chicken microchromosomes. Moreover, no genome-wide homology map between Accipitridae species and other avian species with atypical karyotype organization has been reported till now, and the karyotype evolution within Accipitriformes remains unclear. Results: To delineate the synteny-conserved segments in Accipitridae, a set of painting probes for the griffon vulture, Gyps fulvus (2n = 66) was generated from flow-sorted chromosomes. Together with previous generated probes from the stone curlew, Burhinus oedicnemus (2n = 42), a Charadriiformes species with atypical karyotype organization, we conducted multidirectional chromosome painting, including reciprocal chromosome painting between B. oedicnemus and G. fulvus and cross-species chromosome painting between B. oedicnemus and two accipitrid species (the Himalayan griffon, G. himalayensis 2n = 66, and the common buzzard, Buteo buteo, 2n = 68). In doing so, genome-wide homology maps between B. oedicnemus and three Accipitridae species were established. From there, a cladistic analysis using chromosomal characters and mapping of chromosomal changes on a consensus molecular phylogeny were conducted in order to search for cytogenetic signatures for different lineages within Accipitriformes. Conclusion: Our study confirmed that the genomes of the diurnal birds of prey, especially the genomes of species in Accipitriformes excluding Cathartidae, have been extensively reshuffled when compared to other bird lineages. The chromosomal rearrangements involved include both fusions and fissions. Our chromosome painting data indicated that the Palearctic common buzzard (BBU) shared several common chromosomal rearrangements with some Old World vultures, and was found to be more closely related to other Accipitridae than to Neotropical buteonine raptors from the karyotypic perspective. Using both a chromosome-based cladistic analysis as well as by mapping of chromosomal differences onto a molecular-based phylogenetic tree, we revealed a number of potential cytogenetic signatures that support the clade of Pandionidae (PHA) + Accipitridae. In addition, our cladistic analysis using chromosomal characters appears to support the placement of osprey (PHA) in Accipitridae. [ABSTRACT FROM AUTHOR]

Published

2015

13. Clinical characterization of int22h1/int22h2-mediated Xq28 duplication/deletion: new cases and literature review.

Author

El-Hattab, Ayman W., Schaaf, Christian P., Ping Fang, Roeder, Elizabeth, Kimonis, Virginia E., Church, Joseph A., Patel, Ankita, and Sau Wai Cheung

Subjects

*CHROMOSOMAL rearrangement, *CHROMOSOME abnormalities, *X-linked intellectual disabilities, *X chromosome abnormalities, *CHROMOSOME duplication

Abstract

Background: Int22h1/int22h2-mediated Xq28 duplication syndrome is caused by ~0.5 Mb chromosomal duplications mediated by nonallelic homologous recombination between intron 22 homologous region 1 (int22h1) and 2 (int22h2), which, in addition to int22h3, are also responsible for inversions disrupting the F8 gene in hemophilia A. This syndrome has recently been described in 9 males with cognitive impairment, behavioral problems, and distinctive facial features; and 6 females with milder phenotypes. The reciprocal deletion was previously reported in a mother and daughter. It was suggested that this deletion may not have phenotypic effects in females because of skewed chromosome X inactivation, but may be embryonic lethal in males. Methods: Array comparative genomic hybridization analyses were performed using oligonucleotide-based chromosomal microarray. Chromosome X inactivation studies were performed at the AR (androgen receptor) and FMR1 (fragile X mental retardation 1) loci. Results: We present here 5 males and 6 females with int22h1/int22h2-mediated Xq28 duplication syndrome. The males manifested cognitive impairment, behavioral problems, and distinctive facial features. Two of the six females manifested mild cognitive impairment. This duplication was maternally inherited, and skewed chromosome X inactivation was observed in the majority of females carrying the duplication. We also report the reciprocal deletion in a mother and daughter with overweight, but normal cognition. In addition, we present the first case of a prenatally diagnosed de novo int22h1/int22h2-mediated deletion in a healthy female infant. We reviewed individuals previously reported with similar or overlapping rearrangements and evaluated the potential roles of genes in the rearrangement region. Conclusions: The similarity of clinical features among individuals with the int22h1/int22h2-mediated Xq28 duplication supports the notion that this duplication causes a recognizable syndrome that affects males with females exhibiting milder phenotypes. It is suggested that the observed cognitive impairment in this syndrome results from increased dosage of RAB39B gene located within the duplicated region. Increased dosage of CLIC2 may also contribute to the phenotype. The reciprocal deletion results in skewed chromosome X inactivation and no clinical phenotype in females. Review of overlapping deletions suggests that hemizygous loss of VBP1 may be the cause for the proposed male lethality associated with this deletion. [ABSTRACT FROM AUTHOR]

Published

2015

14. Unraveling the chromosome 17 patterns of FISH in interphase nuclei: an in-depth analysis of the HER2 amplicon and chromosome 17 centromere by karyotyping, FISH and M-FISH in breast cancer cells.

Author

Rondón-Lagos, Milena, Di Cantogno, Ludovica Verdun, Rangel, Nelson, Mele, Teresa, Ramírez-Clavijo, Sandra R., Scagliotti, Giorgio, Marchiò, Caterina, and Sapino, Anna

Subjects

*BREAST cancer diagnosis, *GENETICS of breast cancer, *KARYOTYPES, *CHROMOSOMES, *FLUORESCENCE in situ hybridization, *CHROMOSOMAL rearrangement

Abstract

Background In diagnostic pathology, HER2 status is determined in interphase nuclei by fluorescence in situ hybridization (FISH) with probes for the HER2 gene and for the chromosome 17 centromere (CEP17). The latter probe is used as a surrogate for chromosome 17 copies, however chromosome 17 (Chr17) is frequently rearranged. The frequency and type of specific structural Chr17 alterations in breast cancer have been studied by using comparative genomic hybridization and spectral karyotyping, but not fully detailed. Actually, balanced chromosome rearrangements (e.g. translocations or inversions) and low frequency mosaicisms are assessable on metaphases using G-banding karyotype and multicolor FISH (M-FISH) only. Methods We sought to elucidate the CEP17 and HER2 FISH patterns of interphase nuclei by evaluating Chr17 rearrangements in metaphases of 9 breast cancer cell lines and a primary culture from a triple negative breast carcinoma by using G-banding, FISH and M-FISH. Results Thirty-nine rearranged chromosomes containing a portion of Chr17 were observed. Chromosomes 8 and 11 were the most frequent partners of Chr17 translocations. The lowest frequency of Chr17 abnormalities was observed in the HER2-negative cell lines, while the highest was observed in the HER2-positive SKBR3 cells. The MDA-MB231 triple negative cell line was the sole to show only non-altered copies of Chr17, while the SKBR3, MDA- MB361 and JIMT-1 HER2-positive cells carried no normal Chr17 copies. True polysomy was observed in MDA-MB-231 as the only Chr17 alteration. In BT474 cells polysomy was associated to Chr17 structural alterations. By comparing M-FISH and FISH data, in 8 out of 39 rearranged chromosomes only CEP17 signals were detectable in the rearranged or altered positions, whereas in 14 rearranged chromosomes HER2 and STARD3 genes were present without CEP17 signals. HER2 and STARD3 always co-localized on the same chromosomes and were always co-amplified, whereas TOP2A also mapped to different derivatives and was co-amplified with HER2 and STARD3 on SKBR3 cells only. Conclusion The high frequency of complex Chr17 abnormalities suggests that the interpretation of FISH results on interphase nuclei using a dual probe assay to assess gene amplification should be performed "with caution", given that CEP17 signals are not always indicative of normal unaltered or rearranged copies of Chr17. [ABSTRACT FROM AUTHOR]

Published

2014

15. Irradiation induced inversions suppress recombination between the M locus and morphological markers in Aedes aegypti

Author

Antonios A. Augustinos, Danilo O. Carvalho, Panagiota Koskinioti, Kostas Bourtzis, Lucia Duran de la Fuente, and Muhammad Misbah-ul-Haq

Subjects

0301 basic medicine, Genetic Markers, Male, lcsh:QH426-470, Chromosomal rearrangements, 030231 tropical medicine, Mutant, Population, Locus (genetics), Genes, Insect, Sexing, Mosquito Vectors, Biology, Genetic recombination, Insect Control, Genetic sexing strains, 03 medical and health sciences, 0302 clinical medicine, Aedes, Genetics, Animals, education, Gene, Genetics (clinical), Recombination, Genetic, education.field_of_study, Research, Wild type, Vector control, lcsh:Genetics, 030104 developmental biology, Gamma Rays, Infertility, Sterile insect technique, Female, Recombination, Population suppression

Abstract

BackgroundAedes aegyptiis the primary vector of arthropod-borne viruses and one of the most widespread and invasive mosquito species. Due to the lack of efficient specific drugs or vaccination strategies, vector population control methods, such as the sterile insect technique, are receiving renewed interest. However, availability of a reliable genetic sexing strategy is crucial, since there is almost zero tolerance for accidentally released females. Development of genetic sexing strains through classical genetics is hindered by genetic recombination that is not suppressed in males as is the case in many Diptera. Isolation of naturally-occurring or irradiation-induced inversions can enhance the genetic stability of genetic sexing strains developed through genetically linking desirable phenotypes with the male determining region.ResultsFor the induction and isolation of inversions through irradiation, 200 male pupae of the ‘BRA’ wild type strain were irradiated at 30 Gy and 100 isomale lines were set up by crossing with homozygous ‘red-eye’ (re) mutant females. Recombination betweenreand the M locus and the white (w) gene (causing a recessive white eye phenotype when mutated) and the M locus was tested in 45 and 32 lines, respectively. One inversion (Inv35) reduced recombination between bothreand the M locus, andwand the M locus, consistent with the presence of a rather extended inversion between the two morphological mutations, that includes the M locus. Another inversion (Inv5) reduced recombination only betweenwand the M locus. In search of naturally-occurring, recombination-suppressing inversions, homozygous females from the red eye and the white eye strains were crossed with seventeen and fourteen wild type strains collected worldwide, representing either recently colonized or long-established laboratory populations. Despite evidence of varying frequencies of recombination, no combination led to the elimination or substantial reduction of recombination.ConclusionInducing inversions through irradiation is a feasible strategy to isolate recombination suppressors either on the M or the m chromosome forAedes aegypti. Such inversions can be incorporated in genetic sexing strains developed through classical genetics to enhance their genetic stability and support SIT or other approaches that aim to population suppression through male-delivered sterility.

Published

2020

16. Chromosomal organization and evolutionary history of Mariner transposable elements in Scarabaeinae coleopterans.

Author

Oliveira, Sarah G., Cabral-de-Mello, Diogo C., Moura, Rita C., and Martins, Cesar

Subjects

*BEETLES, *ANIMAL genetics, *CYTOGENETICS, *NUCLEOTIDE sequence, *GENE mapping, *ANIMAL genome mapping

Abstract

Background With the aim to increase the knowledge on the evolution of coleopteran genomes, we investigated through cytogenetics and nucleotide sequence analysis Mariner transposons in three Scarabaeinae species (Coprophanaeus cyanescens, C. ensifer and Diabroctis mimas). Results The cytogenetic mapping revealed an accumulation of Mariner transposon in the pericentromeric repetitive regions characterized as rich in heterochromatin and C0t-1 DNA fraction (DNA enriched with high and moderately repeated sequences). Nucleotide sequence analysis of Mariner revealed the presence of two major groups of Mariner copies in the three investigated coleoptera species. Conclusions The Mariner is accumulated in the centromeric area of the coleopteran chromosomes probably as a consequence of the absence of recombination in the heterochromatic regions. Our analysis detected high diversification of Mariner sequences during the evolutionary history of the group. Furthermore, comparisons between the coleopterans sequences with other insects and mammals, suggest that the horizontal transfer (HT) could have acted in the spreading of the Mariner in diverse non-related animal groups. [ABSTRACT FROM AUTHOR]

Published

2013

17. Genome-wide analysis of human hotspot intersected genes highlights the roles of meiotic recombination in evolution and disease.

Author

Tao Zhou, Zhibin Hu, Zuomin Zhou, Xuejiang Guo, and Jiahao Sha

Subjects

*HEREDITY, *GENES, *IMMUNE system, *CELL communication, *TISSUES

Abstract

Background: Meiotic recombination events are not randomly located, but rather cluster at hotspot regions. Recently, the fine-scale mapping of genome-wide human recombination hotspots was performed. Here, we systematically analyzed the evolutionary and disease-associated features of hotspots that overlapped with proteincoding genes. Results: In this study, we defined hotspot intersected genes as HI genes. We found that HI genes were prone to be located in the extracellular part and were functionally enriched in cell-to-cell communication. Tissue-specific genes and secreted protein encoding genes were overrepresented in HI genes, while housekeeping genes were underrepresented. Compared to slowly evolving housekeeping genes and random genes with lower recombination rates, HI genes evolved faster. The fact that brain and blood specific genes were overrepresented in HI genes indicates that they may be involved in the evolution of human intelligence and the immune system. We also found that genes related to disease were enriched in HI genes, especially genes with disease-associated chromosomal rearrangements. Hotspot sequence motifs were overrepresented in common sequences of HI genes and genes with disease-associated chromosomal rearrangements. We further listed repeat elements that were enriched both in hotspots and genes with disease-associated chromosomal rearrangements. Conclusion: HI genes are evolving and may be involved in the generation of key features of human during evolution. Disease-associated genes may be by-products of meiotic recombination. In addition, hotspot sequence motifs and repeat elements showed the connection between meiotic recombination and genes with diseaseassociated chromosomal rearrangements at the sequence level. Our study will enable us to better understand the evolutionary and biological significance of human meiotic recombination. [ABSTRACT FROM AUTHOR]

Published

2013

18. Exome profiling of primary, metastatic and recurrent ovarian carcinomas in a BRCA1-positive patient.

Author

Jian Zhang, Yuhao Shi, Lalonde, Emilie, Lili Li, Cavallone, Luca, Ferenczy, Alex, Gotlieb, Walter H., Foulkes, William D., and Majewski, Jacek

Subjects

*OVARIAN cancer treatment, *CANCER relapse, *METASTASIS, *GENETIC mutation, *HETEROZYGOSITY, *TUMOR growth

Abstract

Background: Ovarian carcinoma is a common, and often deadly, gynecological cancer. Mutations in BRCA1 and BRCA2 genes are present in at least a fifth of patients. Uncovering other genes that become mutated subsequent to BRCA1/BRCA2 inactivation during cancer development will be helpful for more effective treatments. Methods: We performed exome sequencing on the blood, primary tumor, omental metastasis and recurrence following therapy with carboplatin and paclitaxel, from a patient carrying a BRCA1 S1841R mutation. Results: We observed loss of heterozygosity in the BRCA1 mutation in the primary and subsequent tumors, and somatic mutations in the TP53 and NF1 genes were identified, suggesting their role along with BRCA1 driving the tumor development. Notably, we show that exome sequencing is effective in detecting large chromosomal rearrangements such as deletions and amplifications in cancer. We found that a large deletion was present in the three tumors in the regions containing BRCA1, TP53, and NF1 mutations, and an amplification in the regions containing MYC. We did not observe the emergence of any new mutations among tumors from diagnosis to relapse after chemotherapy, suggesting that mutations already present in the primary tumor contributed to metastases and chemotherapy resistance. Conclusions: Our findings suggest that exome sequencing of matched samples from one patient is a powerful method of detecting somatic mutations and prioritizing their potential role in the development of the disease. [ABSTRACT FROM AUTHOR]

Published

2013

19. High throughput genotyping of structural variations in a complex plant genome using an original Affymetrix® axiom® array

Author

Mabire, Clément, Duarte, Jorge, Darracq, Aude, Pirani, Ali, Rimbert, Hélène, Madur, Delphine, Combes, Valérie, Vitte, Clémentine, Praud, Sébastien, Rivière, Nathalie, Joets, Johann, Pichon, Jean-Philippe, and Nicolas, Stéphane D.

Published

2019

20. B chromosome in the beetle Coprophanaeus cyanescens (Scarabaeidae): emphasis in the organization of repetitive DNA sequences.

Author

Gomes de Oliveira, Sarah, de Moura, Rita Cassia, and Martins, Cesar

Subjects

*SCARABAEIDAE, *NUCLEOTIDE sequence, *FLUORESCENCE in situ hybridization, *SEX chromosomes, *RNA

Abstract

Background: To contribute to the knowledge of coleopteran cytogenetics, especially with respect to the genomic content of B chromosomes, we analyzed the composition and organization of repetitive DNA sequences in the Coprophanaeus cyanescens karyotype. We used conventional staining and the application of fluorescence in situ hybridization (FISH) mapping using as probes C0t-1 DNA fraction, the 18S and 5S rRNA genes, and the LOA-like non-LTR transposable element (TE). Results: Th conventional analysis detected 3 individuals (among 50 analyzed) carrying one small metacentric and mitotically unstable B chromosome. The FISH analysis revealed a pericentromeric block of C0t-1 DNA in the B chromosome but no 18S or 5S rDNA clusters in this extra element. Using the LOA-like TE probe, the FISH analysis revealed large pericentromeric blocks in eight autosomal bivalents and in the B chromosome, and a pericentromeric block extending to the short arm in one autosomal pair. No positive hybridization signal was observed for the LOA-like element in the sex chromosomes. Conclusions: The results indicate that the origin of the B chromosome is associated with the autosomal elements, as demonstrated by the hybridization with C0t-1 DNA and the LOA-like TE. The present study is the first report on the cytogenetic mapping of a TE in coleopteran chromosomes. These TEs could have been involved in the origin and evolution of the B chromosome in C. cyanescens. [ABSTRACT FROM AUTHOR]

Published

2012

21. Sequence based analysis of U-2973, a cell line established from a double-hit B-cell lymphoma with concurrent MYC and BCL2 rearrangements.

Author

Hooper, Sean D., Xiang Jiao, Sundstr”m, Elisabeth, Rehman, Farah L., Tellgren-Roth, Christian, Sj”blom, Tobias, and Cavelier, Lucia

Subjects

*CELL culture, *CELL lines, *LYMPHOMAS, *CANCER patients, *GENETICS

Abstract

Background: Double-hit lymphoma is a complex and highly aggressive sub-type of B-cell lymphoma, which has recently been classified and is an area of active research interest due to the poor prognosis for patients with this disease. It is characterized by the presence of both an activating MYC chromosomal translocation and a simultaneous additional oncogenic translocation, often of the BCL2 gene. Recently, a cell line was established from a patient with this complex lymphoma and analyzed using conventional tools revealing it contains both MYC and BCL2 translocation events. Findings: In this work, we reanalyzed the genome of the cell line using next generation whole genome sequencing technology in order to catalogue translocations, insertions and deletions which may contribute to the pathology of this lymphoma type. Conclusions: We describe the cell line in much greater detail, and pinpoint the exact locations of the chromosomal breakpoints. We also find several rearrangements within cancer-associated genes, which were not found using conventional tools, suggesting that high throughput sequencing may reveal novel targets for therapy, which could be used concurrently with existing treatments. [ABSTRACT FROM AUTHOR]

Published

2012

22. UGbS-Flex, a novel bioinformatics pipeline for imputation-free SNP discovery in polyploids without a reference genome: finger millet as a case study

Author

Qi, Peng, Gimode, Davis, Saha, Dipnarayan, Schröder, Stephan, Chakraborty, Debkanta, Wang, Xuewen, Dida, Mathews M., Malmberg, Russell L., and Devos, Katrien M.

Published

2018

23. Expression of common fragile sites in two Ceboidea species: Saimiri boliviensis and Alouatta caraya (Primates: Platyrrhini)

Author

Ariela Freya Fundia, Marta Mudry, and María Gorostiaga

Subjects

lcsh:QH426-470, Euchromatin, Heterochromatin, Otras Ciencias Biológicas, Platyrrhini, Ciencias Biológicas, HETEROCHROMATIN, purl.org/becyt/ford/1 [https], 03 medical and health sciences, evolution, Genetics, Genetics(clinical), purl.org/becyt/ford/1.6 [https], chromosomal rearrangements, Ecology, Evolution, Behavior and Systematics, lcsh:SF1-1100, evolution---Ceboidea, 030304 developmental biology, 0303 health sciences, biology, Research, Chromosomal fragile site, 030305 genetics & heredity, Breakpoint, heterochromatin, Chromosome, General Medicine, biology.organism_classification, EVOLUTION, lcsh:Genetics, [SDV.GEN.GA]Life Sciences [q-bio]/Genetics/Animal genetics, Ceboidea, hétérochromatine, Saimiri boliviensis, Alouatta caraya, sites fragiles, Animal Science and Zoology, lcsh:Animal culture, fragile sites, CEBOIDEA, PRIMATES PLATYRRHINI, CIENCIAS NATURALES Y EXACTAS, CHROMOSOME FRAGILE SITES, remaniements chromosomiques

Abstract

International audience; Fragile sites are points of preferential breakage that may be involved in chromosome rearrangements. Induction of common fragile sites (c-fra) and spontaneous breakage were analyzed in two New World Monkeys species: Saimiri boliviensis (SBO) and Alouatta caraya (ACA). Spontaneous chromosome aberrations were analyzed on untreated lymphocyte cultures with Brögger's formula (1977). SBO presented a low level of spontaneous breakage, while higher frequencies were detected in ACA in which bands 1q23; 2q13 and 11q19 were significantly affected ($p < 0.01$). The populational distribution of c-fra was analyzed by the Chi$^2$ test in FUdR plus caffeine treated cultures. A total of 21 c-fra was identified in SBO and 24 in ACA. Fragile sites A$_1$q33, B$_1$p21, B$_4$p14, C$_3$q23 and C$_5$q22 were identified in all analyzed SBO specimens. The most frequent c-fra identified in ACA specimens were 1q23, 1q31, 1q33, 2q22, 8q14, 12q31, 13q22, 14q15 and Xq22. Fragile sites A$_1$q31, A$_1$q33, B$_1$q14, B$_3$q13, B$_4$q21 and Xq22 identified in SBO and 1q31, 1q33, 2q22, 4q21, 6q13, 13q22 and Xq22 from ACA were the most conserved sites. A low coincidence between the location of c-fra and that of heterochromatin and breakpoints involved in euchromatic rearrangements known for these genera, was established.; Sites communs de fragilité chromosomique chez deux espèces de Ceboïdés : Saimiri boliviensis et Alouatta caraya (Primates : Platyrrhini). Les sites fragiles sont des régions de cassure préférentielle, dans le génome, qui peuvent être associées à des remaniements chromosomiques. On a étudié les sites communs fragiles (c-fra) et les cassures spontanées dans deux genres de primates du Nouveau Monde : Saimiri boliviensis (SBO) et Alouatta caraya (ACA). Les cassures spontanées ont été étudiées avec la formule de Brögger (1977) sur des cultures de lymphocytes non traités. Alors que SBO présente très peu de cassures spontanées, celles-ci sont fréquentes chez ACA, où trois bandes : 1q23, 2q13 et 11q19 sont significativement affectées ($p < 0,01$). La distribution spécifique des c-fra a été analysée par le test du Chi$^2$ dans des cultures traitées par le FUdR et la caféine. Un total de 21 c-fra chez SBO et 24 chez ACA a été observé. Les c-fra A$_1$q33, B$_1$p21, B$_4$p14, C$_3$q23 et C$_5$q22 ont été identifiés dans tous les spécimens SBO. Les c-fra les plus fréquents identifiés chez ACA sont 1q23, 1q31, 1q33, 2q22, 8q14, 12q31, 13q22, 14q15 et Xq22. Les c-fra les plus conservés chez SBO sont A$_1$q31, A$_1$q33, B$_1$q14, B$_3$q13, B$_4$q21 et Xq22 et chez ACA 1q31, 1q33, 2q22, 4q21, 6q13, 13q22 et Xq22. Nous avons établi une faible coïncidence entre l'emplacement des c-fra et celui de l'hétérochromatine et des cassures impliquées dans les remaniements de l'euchromatine connus dans ces genres.

Published

2000

24. Expression of common fragile sites in two Ceboidea species: Saimiri boliviensis and Alouatta caraya (Primates: Platyrrhini)

Author

Fundia, Ariela, Gorostiaga, María, and Mudry, Marta

Published

2000

25. Two genome sequences of the same bacterial strain, Gluconacetobacter diazotrophicus PAl 5, suggest a new standard in genome sequence submission.

Author

Giongo A, Tyler HL, Zipperer UN, and Triplett EW

Abstract

Gluconacetobacter diazotrophicus PAl 5 is of agricultural significance due to its ability to provide fixed nitrogen to plants. Consequently, its genome sequence has been eagerly anticipated to enhance understanding of endophytic nitrogen fixation. Two groups have sequenced the PAl 5 genome from the same source (ATCC 49037), though the resulting sequences contain a surprisingly high number of differences. Therefore, an optical map of PAl 5 was constructed in order to determine which genome assembly more closely resembles the chromosomal DNA by aligning each sequence against a physical map of the genome. While one sequence aligned very well, over 98% of the second sequence contained numerous rearrangements. The many differences observed between these two genome sequences could be owing to either assembly errors or rapid evolutionary divergence. The extent of the differences derived from sequence assembly errors could be assessed if the raw sequencing reads were provided by both genome centers at the time of genome sequence submission. Hence, a new genome sequence standard is proposed whereby the investigator supplies the raw reads along with the closed sequence so that the community can make more accurate judgments on whether differences observed in a single stain may be of biological origin or are simply caused by differences in genome assembly procedures.

Published

2010