Your search keyword '"Repetitive Sequences"' showing total 2,285 results

1. Prevalent Fast Evolution of Genes Involved in Heterochromatin Functions.

Author

Lin, Leila, Huang, Yuheng, McIntyre, Jennifer, Chang, Ching-Ho, Colmenares, Serafin, and Lee, Yuh Chwen G

Subjects

HETEROCHROMATIC genes, HETEROCHROMATIN, CHROMOSOMES, CHROMATIN, EVOLUTIONARY models

Abstract

Heterochromatin is a gene-poor and repeat-rich genomic compartment universally found in eukaryotes. Despite its low transcriptional activity, heterochromatin plays important roles in maintaining genome stability, organizing chromosomes, and suppressing transposable elements. Given the importance of these functions, it is expected that genes involved in heterochromatin regulation would be highly conserved. Yet, a handful of these genes were found to evolve rapidly. To investigate whether these previous findings are anecdotal or general to genes modulating heterochromatin, we compile an exhaustive list of 106 candidate genes involved in heterochromatin functions and investigate their evolution over short and long evolutionary time scales in Drosophila. Our analyses find that these genes exhibit significantly more frequent evolutionary changes, both in the forms of amino acid substitutions and gene copy number change, when compared to genes involved in Polycomb-based repressive chromatin. While positive selection drives amino acid changes within both structured domains with diverse functions and intrinsically disordered regions, purifying selection may have maintained the proportions of intrinsically disordered regions of these proteins. Together with the observed negative associations between the evolutionary rate of these genes and the genomic abundance of transposable elements, we propose an evolutionary model where the fast evolution of genes involved in heterochromatin functions is an inevitable outcome of the unique functional roles of heterochromatin, while the rapid evolution of transposable elements may be an effect rather than cause. Our study provides an important global view of the evolution of genes involved in this critical cellular domain and provides insights into the factors driving the distinctive evolution of heterochromatin. [ABSTRACT FROM AUTHOR]

Published

2024

2. Analyses of 600+ insect genomes reveal repetitive element dynamics and highlight biodiversity-scale repeat annotation challenges.

Author

Sproul, John, Hotaling, Scott, Heckenhauer, Jacqueline, Powell, Ashlyn, Marshall, Dez, Larracuente, Amanda, Pauls, Steffen, Frandsen, Paul, and Kelley, Joanna

Subjects

Repetitive Sequences, Nucleic Acid, Genomics, Genome, Insect, Terminal Repeat Sequences, DNA Transposable Elements

Abstract

Repetitive elements (REs) are integral to the composition, structure, and function of eukaryotic genomes, yet remain understudied in most taxonomic groups. We investigated REs across 601 insect species and report wide variation in RE dynamics across groups. Analysis of associations between REs and protein-coding genes revealed dynamic evolution at the interface between REs and coding regions across insects, including notably elevated RE-gene associations in lineages with abundant long interspersed nuclear elements (LINEs). We leveraged this large, empirical data set to quantify impacts of long-read technology on RE detection and investigate fundamental challenges to RE annotation in diverse groups. In long-read assemblies, we detected ∼36% more REs than short-read assemblies, with long terminal repeats (LTRs) showing 162% increased detection, whereas DNA transposons and LINEs showed less respective technology-related bias. In most insect lineages, 25%-85% of repetitive sequences were unclassified following automated annotation, compared with only ∼13% in Drosophila species. Although the diversity of available insect genomes has rapidly expanded, we show the rate of community contributions to RE databases has not kept pace, preventing efficient annotation and high-resolution study of REs in most groups. We highlight the tremendous opportunity and need for the biodiversity genomics field to embrace REs and suggest collective steps for making progress toward this goal.

Published

2023

3. Characterization of genome repeat sequence composition and chromosomal distribution in Leymus secalinus

Author

CHEN Jie, LI Yuan, YANG Ying, LIU Bo, and DOU Quanwen

Subjects

leymus, repetitive sequences, fluorescence in situ hybridization (fish), polyploid, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

Abstract [Objective] Leymus Hochst. stands as a crucial genetic resource for the genetic improvement and breeding of cereal crops. However, as allopolyploid plants, their genome origin remains unclear. This study aims to explore the genomic origin of the species in Leymus secalinus and the characteristics of interspecies genomic diversity by comparing the distribution of the repetitive sequences in the genomes of L. secalinus, L. racemosus, and Psathyrostachys juncea. [Methods] Genomic Cot-1DNA library of L. secalinus was constructed, and clones were sequenced and analyzed. The repetitive sequences were mapped to the chromosome of L. secalinus, L. racemosus, and P . juncea by fluorescence in situ hybridization (FISH). [Results] (1) The repetitive sequences of the Cot-1 DNA of L. secalinus were classified into 4 types based on their expected genomic distribution patterns: Tandem repeats, dispersed repeats, tandem mixed dispersed repeats, and uncharacterized repeats, representing 32.4%, 45.7%, 12.4%, and 9.5%, respectively. (2) The number of the hybridization sites of the tandem repeats TaiI-family, Lt1-6, pTa-535, and pSc250 were highly varied from 7-20, 1-14, 17-26, and 0-24, respectively, across different species and accessions. (3) Ten LTR repeats hybridized the tested species chromosomes mainly by 3 patterns. Hybridizations were distributed in centromere, pericentromere, and intercalary regions in all chromosomes. Hybridizations were distributed in all the chromosomes. Hybridizations were distributed the same as the pattern 1 except some chromosomes were carrying telomeric hybridizations. Two LTR/copia sequences were detected only in L. secalinus, while the others were detected in all species and accessions tested but with polymorphisms in hybridization intensities or hybridization patterns in partial chromosomes. [Conclusion] Some of the repetitive sequences in Leymus species may have the characteristics of rapid evolution, which supports the rapid homogenization spread of scattered repetitive sequences to the entire nuclear genome during the polyploidy of Leymus species.

Published

2024

4. Repetitive Sequence Stability in Embryonic Stem Cells.

Author

Shi, Guang, Pang, Qianwen, Lin, Zhancheng, Zhang, Xinyi, and Huang, Kaimeng

Subjects

*EMBRYONIC stem cells, *DEVELOPMENTAL biology, *GENE expression, *EMBRYOLOGY, *CELLULAR control mechanisms, *DNA repair

Abstract

Repetitive sequences play an indispensable role in gene expression, transcriptional regulation, and chromosome arrangements through trans and cis regulation. In this review, focusing on recent advances, we summarize the epigenetic regulatory mechanisms of repetitive sequences in embryonic stem cells. We aim to bridge the knowledge gap by discussing DNA damage repair pathway choices on repetitive sequences and summarizing the significance of chromatin organization on repetitive sequences in response to DNA damage. By consolidating these insights, we underscore the critical relationship between the stability of repetitive sequences and early embryonic development, seeking to provide a deeper understanding of repetitive sequence stability and setting the stage for further research and potential therapeutic strategies in developmental biology and regenerative medicine. [ABSTRACT FROM AUTHOR]

Published

2024

5. Comparative analysis of the diversity of trinucleotide repeats in bacterial genomes.

Author

Paul, Bobby and Siddaramappa, Shivakumara

Abstract

The human gut is the most favorable niche for microbial populations, and few studies have explored the possibilities of horizontal gene transfer between host and pathogen. Trinucleotide repeat (TNR) expansion in humans can cause more than 40 neurodegenerative diseases. Further, TNRs are a type of microsatellite that resides on coding regions can contribute to the synthesis of homopolymeric amino acids. Hence, the present study aims to estimate the occurrence and diversity of TNRs in bacterial genomes available in the NCBI Genome database. Genome-wide analyses revealed that several bacterial genomes contain different types of uninterrupted TNRs. It was found that TNRs are abundant in the genomes of Alcaligenes faecalis, Mycoplasma gallisepticum, Mycoplasma genitalium, Sorangium cellulosum, and Thermus thermophilus. Interestingly, the genome of Bacillus thuringiensis strain YBT-1518 contained 169 uninterrupted ATT repeats. The genome of Leclercia adecarboxylata had 46 uninterrupted CAG repeats, which potentially translate into polyglutamine. In some instances, the TNRs were present in genes that potentially encode essential functions. Similar occurrences in human genes are known to cause genetic disorders. Further analysis of the occurrence of TNRs in bacterial genomes is likely to provide a better understanding of mismatch repair, genetic disorders, host-pathogen interaction, and homopolymeric amino acids. [ABSTRACT FROM AUTHOR]

Published

2024

6. 新麦草基因组重复序列组成及 在赖草属物种染色体上的分布.

Author

杨 莹, 李 媛, 陈 洁, 刘 博, and 窦全文

Subjects

SATELLITE DNA, CHROMOSOMES, IN situ hybridization, FLUORESCENCE in situ hybridization, SPECIES hybridization

Abstract

Copyright of Bulletin of Botanical Research is the property of Bulletin of Botanical Research Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

7. Mapping of Repetitive Sequences in Brachyhypopomus brevirostris (Hypopomidae, Gymnotiformes) from the Brazilian Amazon.

Author

Rodrigues, Paula Pinto, Machado, Milla de Andrade, Pety, Ananda Marques, Oliveira da Silva, Willam, Pieczarka, Julio Cesar, and Nagamachi, Cleusa Yoshiko

Subjects

*KARYOTYPES, *HOMOLOGOUS chromosomes, *FLUORESCENCE in situ hybridization, *ELECTRIC fishes, *CYTOGENETICS, *CHROMOSOMES

Abstract

Simple Summary: Neotropical electric fish have a large diversity in the Amazon region. We investigated the karyotype of the species Brachyhypopomus brevirostris from two localities in Brazil's northern region, Santarém in Pará state and Tefé in Amazonas state, using classical and molecular cytogenetics. Specimens from both localities presented the same karyotype. These are the first results regarding the distribution of repetitive sequences for B. brevirostris samples from the Tefé locality, and the first karyotypic description for the Santarém locality. These results differ from those previously described for samples from Humaitá (Amazon state). This karyotypic difference suggests that the Humaitá sample belongs to another species, which is reinforced in the recent redescription of the genus Brachyhypopomus. Brachyhypopomus (Hypopomidae, Gymnotiformes) is a monophyletic genus consisting of 28 formally described species. Karyotypic data are available for 12 species. The same karyotype is described for two species (B. brevirostris and B. hamiltoni), as well as different karyotypes for the same species from distinct locations (B. brevirostris). In this context, B. brevirostris may constitute a cryptic species complex. Thus, in the present study, we analyzed the karyotype of B. brevirostris, from Santarém, Pará, and Tefé, Amazonas, using classical cytogenetics (conventional staining and C-banding) and molecular techniques (fluorescence in situ hybridization using 18S rDNA, 5S rDNA, U2 snRNA, and telomeric probes). The results show that samples from both locations present 2n = 38, with all chromosomes being acrocentric (FC = 38a). In both populations, 18S rDNA sequences are present on only one pair of homologous chromosomes and telomeric sequences occur only at the ends of the chromosomes. In the Tefé sample, the 5S rDNA occurs in two pairs, and the U2 snRNA in three pairs. These results are the first descriptions of these sequences for B. brevirostris samples from the Tefé locality, as well as the first karyotypic description for the Santarém locality. Future cytotaxonomic studies of this genus can benefit from these results. [ABSTRACT FROM AUTHOR]

Published

2024

8. Plastid Genome Assembly Using Long-read data.

Author

Zhou, Wenbin, Armijos, Carolina, Lee, Chaehee, Lu, Ruisen, Wang, Jeremy, Ruhlman, Tracey, Jansen, Robert, Jones, Alan, and Jones, Corbin

Subjects

Juncus, Juncaceae, Poales, chloroplast, long-read assembly, rearrangement events, Genome, Plastid, Repetitive Sequences, Nucleic Acid, Gene Rearrangement, Plastids, High-Throughput Nucleotide Sequencing, Sequence Analysis, DNA

Abstract

Although plastid genome (plastome) structure is highly conserved across most seed plants, investigations during the past two decades have revealed several disparately related lineages that experienced substantial rearrangements. Most plastomes contain a large inverted repeat and two single-copy regions, and a few dispersed repeats; however, the plastomes of some taxa harbour long repeat sequences (>300 bp). These long repeats make it challenging to assemble complete plastomes using short-read data, leading to misassemblies and consensus sequences with spurious rearrangements. Single-molecule, long-read sequencing has the potential to overcome these challenges, yet there is no consensus on the most effective method for accurately assembling plastomes using long-read data. We generated a pipeline, plastid Genome Assembly Using Long-read data (ptGAUL), to address the problem of plastome assembly using long-read data from Oxford Nanopore Technologies (ONT) or Pacific Biosciences platforms. We demonstrated the efficacy of the ptGAUL pipeline using 16 published long-read data sets. We showed that ptGAUL quickly produces accurate and unbiased assemblies using only ~50× coverage of plastome data. Additionally, we deployed ptGAUL to assemble four new Juncus (Juncaceae) plastomes using ONT long reads. Our results revealed many long repeats and rearrangements in Juncus plastomes compared with basal lineages of Poales. The ptGAUL pipeline is available on GitHub: https://github.com/Bean061/ptgaul.

Published

2023

9. Mapping of five classes of repetitive DNAs and microsatellite repeats in the genome of the Rainbow Shark, Epalzeorhynchos frenatum (Fowler, 1934)

Author

Kamika Sribenja and Nuntaporn Getlekha

Subjects

Epalzeorhynchos frenatum, Rainbow Shark, Chromosome, Repetitive sequences, Fish cytogenetics, Biology (General), QH301-705.5, Cytology, QH573-671

Abstract

The karyotype and chromosomal characteristics of Epalzeorhynchos frenatum (Fowler, 1934) were examined using different staining techniques (Conventional banding, C-banding and Ag-NORs banding) and the use of fluorescent in situ hybridization (FISH) to detect 18S, 5S rDNA sites and microsatellite sequences ((CA)15, (GA)15 and (CGG)10 as markers). The result revealed karyotypes with 2n = 50 chromosomes (NF=86), consisting of 12 metacentric, 12 submetacentric, 12 acrocentric, and 14 telocentric chromosomes; there were no heteromorphic sex chromosomes. The NORs site was a noticeable proximal heterochromatic block on the short arm of pair No. 13, and C-positive heterochromatin was detected in the centromeric sections of the chromosomes as well as the telomeric regions of other pairs. On the short arm of pairs No. 13 and 15, the telomeric regions contained the 18S and 5S rDNA sites, respectively. Several chromosomes bearing these repetitive DNA sequences were shared, alongside with some exclusive chromosomal markers especially CGG rich segment (No. 13). This means that, as verified by two methods, it involves a syntenic condition for the 18S rDNA, NORs, and (CGG)10 microsatellite probes.

Published

2024

10. Draft genome of Brasenia schreberi, a worldwide distributed and endangered aquatic plant

Author

Lin-Fang Wu, Wei-Guang Zhu, En-Ping Yu, Hong-Lin Cao, and Zheng-Feng Wang

Subjects

Gene prediction, Genome feature, Genome annotation, Repetitive sequences, Genetics, QH426-470

Abstract

Abstract Objectives Brasenia is a monotypic genus in the family of Cabombaceae. The only species, B. schreberi, is a macrophyte distributed worldwide. Because it requires good water quality, it is endangered in China and other countries due to the deterioration of aquatic habitats. The young leaves and stems of B. schreberi are covered by thick mucilage, which has high medical value. As an allelopathic aquatic plant, it can also be used in the management of aquatic weeds. Here, we present its assembled and annotated genome to help shed light on medial and allelopathic substrates and facilitate their conservation. Data description Genomic DNA and RNA extracted from B. schreberi leaf tissues were used for whole genome and RNA sequencing using a Nanopore and/or MGI sequencer. The assembly was 1,055,148,839 bp in length, with 92 contigs and an N50 of 22,379,495 bp. The repetitive elements in the assembly were 555,442,205 bp. A completeness assessment of the assembly with BUSCO and compleasm indicated 88.4 and 90.9% completeness in the Eudicots database and 95.4 and 96.6% completeness in the Embryphyta database. Gene annotation revealed 67,747 genes that coded for 73,344 proteins.

Published

2024

11. Identifying candidate structured RNAs in CRISPR operons

Author

Fremin, Brayon J and Kyrpides, Nikos C

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Biotechnology, CRISPR-Cas Systems, Genomics, Operon, RNA, Repetitive Sequences, Nucleic Acid, CRISPR, structured RNA, comparative genomics, Developmental Biology, Biochemistry and cell biology

Abstract

Noncoding RNAs with secondary structures play important roles in CRISPR-Cas systems. Many of these structures likely remain undiscovered. We used a large-scale comparative genomics approach to predict 156 novel candidate structured RNAs from 36,111 CRISPR-Cas systems. A number of these were found to overlap with coding genes, including palindromic candidates that overlapped with a variety of Cas genes in type I and III systems. Among these 156 candidates, we identified 46 new models of CRISPR direct repeats and 1 tracrRNA. This tracrRNA model occasionally overlapped with predicted cas9 coding regions, emphasizing the importance of expanding our search windows for novel structure RNAs in coding regions. We also demonstrated that the antirepeat sequence in this tracrRNA model can be used to accurately assign thousands of predicted CRISPR arrays to type II-C systems. This study highlights the importance of unbiased identification of candidate structured RNAs across CRISPR-Cas systems.

Published

2022

12. Proximity proteomics of C9orf72 dipeptide repeat proteins identifies molecular chaperones as modifiers of poly-GA aggregation

Author

Liu, Feilin, Morderer, Dmytro, Wren, Melissa C, Vettleson-Trutza, Sara A, Wang, Yanzhe, Rabichow, Benjamin E, Salemi, Michelle R, Phinney, Brett S, Oskarsson, Björn, Dickson, Dennis W, and Rossoll, Wilfried

Subjects

Biochemistry and Cell Biology, Biological Sciences, Rare Diseases, Neurosciences, Biotechnology, Brain Disorders, Dementia, ALS, Neurodegenerative, Acquired Cognitive Impairment, 2.1 Biological and endogenous factors, Aetiology, Neurological, Amyotrophic Lateral Sclerosis, C9orf72 Protein, Dipeptides, Frontotemporal Dementia, HEK293 Cells, Humans, Molecular Chaperones, Protein Aggregation, Pathological, Proteomics, RNA, Repetitive Sequences, Nucleic Acid, C9orf72, Poly-GA, Proximity proteomics, Heat shock proteins, Clinical Sciences, Biochemistry and cell biology

Abstract

The most common inherited cause of two genetically and clinico-pathologically overlapping neurodegenerative diseases, amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD), is the presence of expanded GGGGCC intronic hexanucleotide repeats in the C9orf72 gene. Aside from haploinsufficiency and toxic RNA foci, another non-exclusive disease mechanism is the non-canonical translation of the repeat RNA into five different dipeptide repeat proteins (DPRs), which form neuronal inclusions in affected patient brains. While evidence from cellular and animal models supports a toxic gain-of-function of pathologic poly-GA, poly-GR, and poly-PR aggregates in promoting deposition of TDP-43 pathology and neurodegeneration in affected brain areas, the relative contribution of DPRs to the disease process in c9FTD/ALS patients remains unclear. Here we have used the proximity-dependent biotin identification (BioID) proximity proteomics approach to investigate the formation and collective composition of DPR aggregates using cellular models. While interactomes of arginine rich poly-GR and poly-PR aggregates overlapped and were enriched for nucleolar and ribosomal proteins, poly-GA aggregates demonstrated a distinct association with proteasomal components, molecular chaperones (HSPA1A/HSP70, HSPA8/HSC70, VCP/p97), co-chaperones (BAG3, DNAJA1A) and other factors that regulate protein folding and degradation (SQSTM1/p62, CALR, CHIP/STUB1). Experiments in cellular models of poly-GA pathology show that molecular chaperones and co-chaperones are sequestered to the periphery of dense cytoplasmic aggregates, causing depletion from their typical cellular localization. Their involvement in the pathologic process is confirmed in autopsy brain tissue, where HSPA8, BAG3, VCP, and its adapter protein UBXN6 show a close association with poly-GA aggregates in the frontal cortex, temporal cortex, and hippocampus of c9FTLD and c9ALS cases. The association of heat shock proteins and co-chaperones with poly-GA led us to investigate their potential role in reducing its aggregation. We identified HSP40 co-chaperones of the DNAJB family as potent modifiers that increased the solubility of poly-GA, highlighting a possible novel therapeutic avenue and a central role of molecular chaperones in the pathogenesis of human C9orf72-linked diseases.

Published

2022

13. Comparative analysis of plastid genomes reveals rearrangements, repetitive sequence features, and phylogeny in the Annonaceae.

Author

Jingyao Ping, Jing Hao, Ting Wang, and Yingjuan Su

Subjects

ANNONACEAE, PHYLOGENY, GENETIC engineering, COMPARATIVE genomics, COMPARATIVE studies, GENOMES, VALUE (Economics)

Abstract

The Annonaceae stands as the most species rich family in the Magnoliales, a basal group of angiosperms. Widely distributed in tropical and subtropical regions, it holds significant ecological and economic value. The plastid genome (plastome) is often employed in studies related to plant phylogenetics, comparative genomics, evolutionary biology, and genetic engineering. Nonetheless, research progress on plastid genomics in the Annonaceae has been relatively slow. In this study, we analyzed the structure and repetitive sequence features of plastomes from 28 Annonaceae species. Among them, Mitrephora tomentosa and Desmos chinensis were newly sequenced, with sizes of 160,157 bp and 192,167 bp, and GC contents of 38.3% and 38.4%, respectively. The plastome size in the Annonaceae ranged from 158,837 bp to 202,703 bp, with inverted repeat (IR) region sizes ranging from 64,621 bp to 25,861 bp. Species exhibiting expansion in the IR region showed an increase in plastome size and gene number, frequent boundary changes, different expansion modes (bidirectional or unidirectional), and an increase in repetitive sequences. Specifically, a large number of dispersed repetitive sequences lead to an increase in the size of the LSC region in Goniothalamus tamirensis. Phylogenetic analysis revealed Annonoideae and Malmeoideae as monophyletic groups and sister clades, with Cananga odorata outside of them, followed by Anaxagorea javanica. This research uncovers the structural variation characteristics of plastomes in the Annonaceae, providing valuable information for understanding the phylogeny and plastome evolution of Annonaceae. [ABSTRACT FROM AUTHOR]

Published

2024

14. Near-Optimal Search Time in δ-Optimal Space, and Vice Versa.

Author

Kociumaka, Tomasz, Navarro, Gonzalo, and Olivares, Francisco

Subjects

*COMPRESSIBILITY

Abstract

Two recent lower bounds on the compressibility of repetitive sequences, δ ≤ γ , have received much attention. It has been shown that a length-n string S over an alphabet of size σ can be represented within the optimal O (δ log n log σ δ log n ) space, and further, that within that space one can find all the occ occurrences in S of any length-m pattern in time O (m log n + o c c log ϵ n) for any constant ϵ > 0 . Instead, the near-optimal search time O (m + (o c c + 1) log ϵ n) has been achieved only within O (γ log n γ) space. Both results are based on considerably different locally consistent parsing techniques. The question of whether the better search time could be supported within the δ -optimal space remained open. In this paper, we prove that both techniques can indeed be combined to obtain the best of both worlds: O (m + (o c c + 1) log ϵ n) search time within O (δ log n log σ δ log n ) space. Moreover, the number of occurrences can be computed in O (m + log 2 + ϵ n) time within O (δ log n log σ δ log n ) space. We also show that an extra sublogarithmic factor on top of this space enables optimal O (m + o c c) search time, whereas an extra logarithmic factor enables optimal O(m) counting time. [ABSTRACT FROM AUTHOR]

Published

2024

15. The genomic study of repetitive elements in Solea senegalensis reveals multiple impacts of transposable elements in the evolution and architecture of Pleuronectiformes chromosomes.

Author

Cross, Ismael, Rodríguez, María E., Portela-Bens, Silvia, Merlo, Manuel A., Gálvez-Salido, Aaron, Navajas-Pérez, Rafael, and Rebordinos, Laureana

Subjects

SOLEA senegalensis, CHROMOSOMES, CENTROMERE, FLATFISHES, CHROMOSOME structure, SATELLITE DNA, SUPINE position

Abstract

Pleuronectiformes are flatfishes with high commercial value and a prominent example of successful marine adaptation through chromosomal evolution. Hence, the aim of this study was to analyze the 14 relative abundance of repetitive elements (satellite DNA and transposable elements (TE)) in the 15 genome of 10 fish species (8 flatfish) delving into the study of the species of special relevance, 16 Senegalese sole, Solea senegalensis. The results showed differences in the abundance of repetitive elements, with S. senegalensis exhibiting the highest frequency and coverage of these elements reaching the 40% of the genome and not at random distribution. It is noteworthy the presence of relevant peaks of Helitrons in centromeric/pericentromeric positions mainly in the bi-armed chromosomes 1, 2, 4, 6, 7, and 9. The position of the centromeres of this species determined through the genomic localization of the family of satellite DNA PvuII, and other repetitive sequences was obtained de novo. This allowed us to know the genomic position of the centromeres in 19 out of the 21 chromosomes of S. senegalensis. Helitrons showed an accumulation of tandem copies mainly in the pericentromeric positions of chromosomes 1 and 2, occupying a region, in the first case, of 600Kb of tandem repeats. That has only been previously described inmammals andplants.Divergence and copy number studies indicated the presence of active families in the species' genome and the existence of two important events of transposon activity (burst) in the genome of S. senegalensis, mainly accentuated in Helitrons. The results showed that only the families of DNA transposons exhibited a landscape with symmetrical bell-shaped distribution. The phylogenetic analysis of Helitron families revealed the presence of two large groups of families and the presence of four groups of sequences with heterogeneous distribution among chromosomes. Finally, the phylogenomic analysis of 8615 sequences belonging to Helitron insertions from 5 families of flatfish and two external species, allowed to classify the copies into nine groups of sequences with different levels of divergence and clusters, including some branches with distant phylogenetically species. The implications of this study will help to expand the knowledge of chromosome structure and evolution of these species. [ABSTRACT FROM AUTHOR]

Published

2024

16. Draft genome of Brasenia schreberi, a worldwide distributed and endangered aquatic plant.

Author

Wu, Lin-Fang, Zhu, Wei-Guang, Yu, En-Ping, Cao, Hong-Lin, and Wang, Zheng-Feng

Subjects

*AQUATIC weeds, *GENOMES, *WHOLE genome sequencing, *AQUATIC habitats, *DATABASES, *AQUATIC plants

Abstract

Objectives: Brasenia is a monotypic genus in the family of Cabombaceae. The only species, B. schreberi, is a macrophyte distributed worldwide. Because it requires good water quality, it is endangered in China and other countries due to the deterioration of aquatic habitats. The young leaves and stems of B. schreberi are covered by thick mucilage, which has high medical value. As an allelopathic aquatic plant, it can also be used in the management of aquatic weeds. Here, we present its assembled and annotated genome to help shed light on medial and allelopathic substrates and facilitate their conservation. Data description: Genomic DNA and RNA extracted from B. schreberi leaf tissues were used for whole genome and RNA sequencing using a Nanopore and/or MGI sequencer. The assembly was 1,055,148,839 bp in length, with 92 contigs and an N50 of 22,379,495 bp. The repetitive elements in the assembly were 555,442,205 bp. A completeness assessment of the assembly with BUSCO and compleasm indicated 88.4 and 90.9% completeness in the Eudicots database and 95.4 and 96.6% completeness in the Embryphyta database. Gene annotation revealed 67,747 genes that coded for 73,344 proteins. [ABSTRACT FROM AUTHOR]

Published

2024

17. The chromosomal distribution of ribosomal DNA and repetitive DNAs in the genome of the red cheek barb, Systomus rubripinnis (Valenciennes, 1842)

Author

Sribenja, Kamika and Getlekha, Nuntaporn

Published

2024

18. 5S Ribosomal DNA in the Family Plumbaginaceae.

Author

Tynkevich, Y. O., Valin, M. O., Moysiyenko, I. I., Panchuk, I. I., and Volkov, R. A.

Abstract

Tandemly arranged repetitive regions (repeats) that encode 5S rRNA (5S rDNA) are an indispensable component of eukaryotic genomes. Typically, 5S rDNA repeats within a genome are very similar due to the concerted nature of the evolution of this type of repeats. Each 5S rDNA repeat consists of an evolutionarily conserved coding sequence (CDS) and a variable intergenic spacer (IGS). 5S rDNA is a popular model for studying the molecular evolution of repetitive sequences, and the high rate of IGS mutations determines its wide use in phylogenetic analysis of closely related taxa. Nevertheless, 5S rDNA remains unexplored for many groups of higher plants, especially for the Plumbaginaceae family. Some taxa of this family are endemic to southern Ukraine and listed in the Red Book. However, their taxonomic status is controversial, and its clarification requires the use of molecular phylogenetic methods. In this work, we examined the molecular organization of 5S rDNA for representatives of four genera of the tribe Limonieae, the largest in the family Plumbaginaceae. It was shown that the CDS of 5S rDNA of representatives of the genera Limonium, Armeria, and Ceratolimon possess single mutations that do not affect the formation of the secondary structure of 5S rRNA. In contrast, in the genomes of Goniolimon species, in addition to functionally normal 5S rDNA repeats, numerous pseudogenes were found that do not evolve in a concerted manner and contain numerous mutations in the CDS that disrupt the secondary structure of 5S rRNA. A significant phylogenetic distance between representatives of the subgenera Pteroclados and Limonium of the genus Limonium indicates that Pteroclados can be considered a separate genus. The high rate of molecular evolution makes 5S rDNA IGS a convenient tool for the reconstruction of phylogenetic relationships within the studied genera of the tribe Limonieae and the barcoding of Ukrainian endemics of the genus Limonium. [ABSTRACT FROM AUTHOR]

Published

2023

19. Fast satellite DNA evolution in Nothobranchius annual killifishes.

Author

Voleníková, Anna, Lukšíková, Karolína, Mora, Pablo, Pavlica, Tomáš, Altmanová, Marie, Štundlová, Jana, Pelikánová, Šárka, Simanovsky, Sergey A., Jankásek, Marek, Reichard, Martin, Nguyen, Petr, and Sember, Alexandr

Abstract

Satellite DNA (satDNA) is a rapidly evolving class of tandem repeats, with some monomers being involved in centromere organization and function. To identify repeats associated with (peri)centromeric regions, we investigated satDNA across Southern and Coastal clades of African annual killifishes of the genus Nothobranchius. Molecular cytogenetic and bioinformatic analyses revealed that two previously identified satellites, designated here as NkadSat01-77 and NfurSat01-348, are associated with (peri)centromeres only in one lineage of the Southern clade. NfurSat01-348 was, however, additionally detected outside centromeres in three members of the Coastal clade. We also identified a novel satDNA, NrubSat01-48, associated with (peri)centromeres in N. foerschi, N. guentheri, and N. rubripinnis. Our findings revealed fast turnover of satDNA associated with (peri)centromeres and different trends in their evolution in two clades of the genus Nothobranchius. [ABSTRACT FROM AUTHOR]

Published

2023

20. Comparative cytogenetics of microsatellite distribution in two tetra fishes Astyanax bimaculatus (Linnaeus, 1758) and Psalidodon scabripinnis (Jenyns, 1842)

Author

Rodrigo Petry Corrêa de Sousa, Ivanete de Oliveira Furo, Gláucia Caroline Silva-Oliveira, Rosigleyse Corrêa de Sousa-Felix, Carla Denise Bessa-Brito, Raynara Costa Mello, Iracilda Sampaio, Roberto Ferreira Artoni, Edivaldo Herculano Corrêa de Oliveira, and Marcelo Vallinoto

Subjects

B Chromosome, Characidae, Chromosomal evolution, Genetic diversity, Repetitive sequences, Medicine, Biology (General), QH301-705.5

Abstract

Background The main cytogenetic studies of the Characidae family comprise the genera Astyanax and Psalidodon involving the use of repetitive DNA probes. However, for the microsatellite classes, studies are still scarce and the function of these sequences in the genome of these individuals is still not understood. Thus, we aimed to analyze and compare the distribution of microsatellite sequences in the species Astyanax bimaculatus and Psalidodon scabripinnis. Methods We collected biopsies from the fins of A. bimaculatus and P. scabripinnis to perform cell culture, followed by chromosome extraction, and mapped the distribution of 14 microsatellites by FISH in both species. Results and Discussion The diploid number observed for both species was 2n = 50, with an acrocentric B microchromosome in A. bimaculatus and a metacentric B chromosome in P. scabripinnis. Regarding FISH, 11 probes hybridized in the karyotype of A. bimaculatus mainly in centromeric regions, and 13 probes hybridized in P. scabripinnis, mainly in telomeric regions, in addition to a large accumulation of microsatellite hybridization on its B chromosome. Conclusion Comparative FISH mapping of 14 microsatellite motifs revealed different patterns of distribution both in autosomes and supernumerary chromosomes of A. bimaculatus and P. scabripinnis, suggesting independent evolutionary processes in each of these species, representing excellent data on chromosome rearrangements and cytotaxonomy.

Published

2024

21. From telomere to telomere: The transcriptional and epigenetic state of human repeat elements

Author

Hoyt, Savannah J, Storer, Jessica M, Hartley, Gabrielle A, Grady, Patrick GS, Gershman, Ariel, de Lima, Leonardo G, Limouse, Charles, Halabian, Reza, Wojenski, Luke, Rodriguez, Matias, Altemose, Nicolas, Rhie, Arang, Core, Leighton J, Gerton, Jennifer L, Makalowski, Wojciech, Olson, Daniel, Rosen, Jeb, Smit, Arian FA, Straight, Aaron F, Vollger, Mitchell R, Wheeler, Travis J, Schatz, Michael C, Eichler, Evan E, Phillippy, Adam M, Timp, Winston, Miga, Karen H, and O'Neill, Rachel J

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Generic health relevance, Epigenesis, Genetic, Genome, Human, Humans, Repetitive Sequences, Nucleic Acid, Telomere, Transcription, Genetic, General Science & Technology

Abstract

Mobile elements and repetitive genomic regions are sources of lineage-specific genomic innovation and uniquely fingerprint individual genomes. Comprehensive analyses of such repeat elements, including those found in more complex regions of the genome, require a complete, linear genome assembly. We present a de novo repeat discovery and annotation of the T2T-CHM13 human reference genome. We identified previously unknown satellite arrays, expanded the catalog of variants and families for repeats and mobile elements, characterized classes of complex composite repeats, and located retroelement transduction events. We detected nascent transcription and delineated CpG methylation profiles to define the structure of transcriptionally active retroelements in humans, including those in centromeres. These data expand our insight into the diversity, distribution, and evolution of repetitive regions that have shaped the human genome.

Published

2022

22. Complete genomic and epigenetic maps of human centromeres

Author

Altemose, Nicolas, Logsdon, Glennis A, Bzikadze, Andrey V, Sidhwani, Pragya, Langley, Sasha A, Caldas, Gina V, Hoyt, Savannah J, Uralsky, Lev, Ryabov, Fedor D, Shew, Colin J, Sauria, Michael EG, Borchers, Matthew, Gershman, Ariel, Mikheenko, Alla, Shepelev, Valery A, Dvorkina, Tatiana, Kunyavskaya, Olga, Vollger, Mitchell R, Rhie, Arang, McCartney, Ann M, Asri, Mobin, Lorig-Roach, Ryan, Shafin, Kishwar, Lucas, Julian K, Aganezov, Sergey, Olson, Daniel, de Lima, Leonardo Gomes, Potapova, Tamara, Hartley, Gabrielle A, Haukness, Marina, Kerpedjiev, Peter, Gusev, Fedor, Tigyi, Kristof, Brooks, Shelise, Young, Alice, Nurk, Sergey, Koren, Sergey, Salama, Sofie R, Paten, Benedict, Rogaev, Evgeny I, Streets, Aaron, Karpen, Gary H, Dernburg, Abby F, Sullivan, Beth A, Straight, Aaron F, Wheeler, Travis J, Gerton, Jennifer L, Eichler, Evan E, Phillippy, Adam M, Timp, Winston, Dennis, Megan Y, O'Neill, Rachel J, Zook, Justin M, Schatz, Michael C, Pevzner, Pavel A, Diekhans, Mark, Langley, Charles H, Alexandrov, Ivan A, and Miga, Karen H

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Generic health relevance, Centromere, Chromosome Mapping, Epigenesis, Genetic, Evolution, Molecular, Genome, Human, Genomics, Humans, Repetitive Sequences, Nucleic Acid, General Science & Technology

Abstract

Existing human genome assemblies have almost entirely excluded repetitive sequences within and near centromeres, limiting our understanding of their organization, evolution, and functions, which include facilitating proper chromosome segregation. Now, a complete, telomere-to-telomere human genome assembly (T2T-CHM13) has enabled us to comprehensively characterize pericentromeric and centromeric repeats, which constitute 6.2% of the genome (189.9 megabases). Detailed maps of these regions revealed multimegabase structural rearrangements, including in active centromeric repeat arrays. Analysis of centromere-associated sequences uncovered a strong relationship between the position of the centromere and the evolution of the surrounding DNA through layered repeat expansions. Furthermore, comparisons of chromosome X centromeres across a diverse panel of individuals illuminated high degrees of structural, epigenetic, and sequence variation in these complex and rapidly evolving regions.

Published

2022

23. Assembly, annotation and analysis of the chloroplast genome of the Algarrobo tree Neltuma pallida (subfamily: Caesalpinioideae)

Author

Esteban Caycho, Renato La Torre, and Gisella Orjeda

Subjects

Neltuma pallida, Chloroplast genome, Gene annotation, Repetitive sequences, Sequence comparison, Boundary shift, Botany, QK1-989

Abstract

Abstract Background Neltuma pallida is a tree that grows in arid soils in northwestern Peru. As a predominant species of the Equatorial Dry Forest ecoregion, it holds significant economic and ecological value for both people and environment. Despite this, the species is severely threatened and there is a lack of genetic and genomic research, hindering the proposal of evidence-based conservation strategies. Results In this work, we conducted the assembly, annotation, analysis and comparison of the chloroplast genome of a N. pallida specimen with those of related species. The assembled chloroplast genome has a length of 162,381 bp with a typical quadripartite structure (LSC-IRA-SSC-IRB). The calculated GC content was 35.97%. However, this is variable between regions, with a higher GC content observed in the IRs. A total of 132 genes were annotated, of which 19 were duplicates and 22 contained at least one intron in their sequence. A substantial number of repetitive sequences of different types were identified in the assembled genome, predominantly tandem repeats (> 300). In particular, 142 microsatellites (SSR) markers were identified. The phylogenetic reconstruction showed that N. pallida grouped with the other Neltuma species and with Prosopis cineraria. The analysis of sequence divergence between the chloroplast genome sequences of N. pallida, N. juliflora, P. farcta and Strombocarpa tamarugo revealed a high degree of similarity. Conclusions The N. pallida chloroplast genome was found to be similar to those of closely related species. With a size of 162,831 bp, it had the classical chloroplast quadripartite structure and GC content of 35.97%. Most of the 132 identified genes were protein-coding genes. Additionally, over 800 repetitive sequences were identified, including 142 SSR markers. In the phylogenetic analysis, N. pallida grouped with other Neltuma spp. and P. cineraria. Furthermore, N. pallida chloroplast was highly conserved when compared with genomes of closely related species. These findings can be of great potential for further diversity studies and genetic improvement of N. pallida.

Published

2023

24. Targeted editing and evolution of engineered ribosomes in vivo by filtered editing.

Author

Radford, Felix, Elliott, Shane D, Schepartz, Alanna, and Isaacs, Farren J

Subjects

Ribosomes, Escherichia coli, Polymers, RNA, Ribosomal, 16S, RNA, Ribosomal, 23S, Anti-Bacterial Agents, Genetic Engineering, Mutagenesis, Site-Directed, Protein Biosynthesis, RNA Splicing, Repetitive Sequences, Nucleic Acid, Genome, Bacterial, Introns, Exons, CRISPR-Cas Systems, Gene Editing, Genetics, Human Genome, Bioengineering, Biotechnology

Abstract

Genome editing technologies introduce targeted chromosomal modifications in organisms yet are constrained by the inability to selectively modify repetitive genetic elements. Here we describe filtered editing, a genome editing method that embeds group 1 self-splicing introns into repetitive genetic elements to construct unique genetic addresses that can be selectively modified. We introduce intron-containing ribosomes into the E. coli genome and perform targeted modifications of these ribosomes using CRISPR/Cas9 and multiplex automated genome engineering. Self-splicing of introns post-transcription yields scarless RNA molecules, generating a complex library of targeted combinatorial variants. We use filtered editing to co-evolve the 16S rRNA to tune the ribosome's translational efficiency and the 23S rRNA to isolate antibiotic-resistant ribosome variants without interfering with native translation. This work sets the stage to engineer mutant ribosomes that polymerize abiological monomers with diverse chemistries and expands the scope of genome engineering for precise editing and evolution of repetitive DNA sequences.

Published

2022

25. Repetitive Sequence Stability in Embryonic Stem Cells

Author

Guang Shi, Qianwen Pang, Zhancheng Lin, Xinyi Zhang, and Kaimeng Huang

Subjects

repetitive sequences, epigenetic regulation, DNA damage, embryonic stem cells, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Repetitive sequences play an indispensable role in gene expression, transcriptional regulation, and chromosome arrangements through trans and cis regulation. In this review, focusing on recent advances, we summarize the epigenetic regulatory mechanisms of repetitive sequences in embryonic stem cells. We aim to bridge the knowledge gap by discussing DNA damage repair pathway choices on repetitive sequences and summarizing the significance of chromatin organization on repetitive sequences in response to DNA damage. By consolidating these insights, we underscore the critical relationship between the stability of repetitive sequences and early embryonic development, seeking to provide a deeper understanding of repetitive sequence stability and setting the stage for further research and potential therapeutic strategies in developmental biology and regenerative medicine.

Published

2024

26. Mapping of Repetitive Sequences in Brachyhypopomus brevirostris (Hypopomidae, Gymnotiformes) from the Brazilian Amazon

Author

Paula Pinto Rodrigues, Milla de Andrade Machado, Ananda Marques Pety, Willam Oliveira da Silva, Julio Cesar Pieczarka, and Cleusa Yoshiko Nagamachi

Subjects

repetitive sequences, FISH, Amazon Basin, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Brachyhypopomus (Hypopomidae, Gymnotiformes) is a monophyletic genus consisting of 28 formally described species. Karyotypic data are available for 12 species. The same karyotype is described for two species (B. brevirostris and B. hamiltoni), as well as different karyotypes for the same species from distinct locations (B. brevirostris). In this context, B. brevirostris may constitute a cryptic species complex. Thus, in the present study, we analyzed the karyotype of B. brevirostris, from Santarém, Pará, and Tefé, Amazonas, using classical cytogenetics (conventional staining and C-banding) and molecular techniques (fluorescence in situ hybridization using 18S rDNA, 5S rDNA, U2 snRNA, and telomeric probes). The results show that samples from both locations present 2n = 38, with all chromosomes being acrocentric (FC = 38a). In both populations, 18S rDNA sequences are present on only one pair of homologous chromosomes and telomeric sequences occur only at the ends of the chromosomes. In the Tefé sample, the 5S rDNA occurs in two pairs, and the U2 snRNA in three pairs. These results are the first descriptions of these sequences for B. brevirostris samples from the Tefé locality, as well as the first karyotypic description for the Santarém locality. Future cytotaxonomic studies of this genus can benefit from these results.

Published

2024

27. Rapid Discriminative Identification of the Two Predominant Echinococcus Species from Canine Fecal Samples in the Tibetan Region of China by Loop-Mediated Isothermal Amplification–Lateral Flow Dipstick Assay

Author

Xinyue Lv, Jiajia Ai, Xiaojin Mo, Haojie Ding, Sofia Litchev, Entung Lu, Youhong Weng, Qing He, Quzhen Gongsang, Shijie Yang, Xiumin Ma, Jingzhong Li, Huasheng Pang, Shaohong Lu, and Qingming Kong

Subjects

echinococcosis, LAMP, repetitive sequences, dry fluorescence immunoassay analyzer, lateral flow dipstick, prevalence, Medicine

Abstract

Echinococcosis poses a significant concern in the fields of public health and veterinary care as it can be transmitted between animals and humans. The primary endemic subtypes are cystic echinococcosis (CE) and alveolar echinococcosis (AE), which result from infestation by Echinococcus granulosus and Echinococcus multilocularis, respectively. A prominent epidemic of echinococcosis greatly affects the Tibet Autonomous Region (TAR) in China. A new technique called the loop-mediated isothermal amplification–lateral flow dipstick (LAMP-LFD) test is introduced in this research to differentiate between E. granulosus and E. multilocularis using their repetitive genetic sequences. The test is characterized by its portable nature, simple operation, quick result production, high sensitivity, and low susceptibility to aerosol contamination. The LAMP-LFD method demonstrated an exceptional minimal detection limit, reaching levels as low as approximately 1 fg/μL (femtogram per microliter) of genomic DNA. The assay’s specificity was assessed, and no cross-reactivity was seen. A total of 982 dog fecal samples were collected from 54 counties in the TAR region between July 2021 and June 2022. The established method underwent validation using a commercially available ELISA kit. The agreement rate between the LAMP-LFD and ELISA methods was 97.25%, with a sensitivity of 96.05% and a specificity of 97.35%. The assay described in this study improves specificity by using a double-labeled probe, and it reduces the risk of false-positive results caused by aerosol contamination through the use of a sealed device. This makes it a suitable choice for quickly and accurately identifying the two main types of Echinococcus in field settings.

Published

2024

28. Estimating repeat spectra and genome length from low-coverage genome skims with RESPECT.

Author

Sarmashghi, Shahab, Balaban, Metin, Rachtman, Eleonora, Touri, Behrouz, Mirarab, Siavash, and Bafna, Vineet

Subjects

Algorithms, Animals, Computational Biology, Computer Simulation, Databases, Genetic, Genome, Genomics, Humans, Invertebrates, Least-Squares Analysis, Linear Models, Mammals, Models, Genetic, Phylogeny, Plants, Repetitive Sequences, Nucleic Acid, Software, Vertebrates

Abstract

The cost of sequencing the genome is dropping at a much faster rate compared to assembling and finishing the genome. The use of lightly sampled genomes (genome-skims) could be transformative for genomic ecology, and results using k-mers have shown the advantage of this approach in identification and phylogenetic placement of eukaryotic species. Here, we revisit the basic question of estimating genomic parameters such as genome length, coverage, and repeat structure, focusing specifically on estimating the k-mer repeat spectrum. We show using a mix of theoretical and empirical analysis that there are fundamental limitations to estimating the k-mer spectra due to ill-conditioned systems, and that has implications for other genomic parameters. We get around this problem using a novel constrained optimization approach (Spline Linear Programming), where the constraints are learned empirically. On reads simulated at 1X coverage from 66 genomes, our method, REPeat SPECTra Estimation (RESPECT), had 2.2% error in length estimation compared to 27% error previously achieved. In shotgun sequenced read samples with contaminants, RESPECT length estimates had median error 4%, in contrast to other methods that had median error 80%. Together, the results suggest that low-pass genomic sequencing can yield reliable estimates of the length and repeat content of the genome. The RESPECT software will be publicly available at https://urldefense.proofpoint.com/v2/url?u=https-3A__github.com_shahab-2Dsarmashghi_RESPECT.git&d=DwIGAw&c=-35OiAkTchMrZOngvJPOeA&r=ZozViWvD1E8PorCkfwYKYQMVKFoEcqLFm4Tg49XnPcA&m=f-xS8GMHKckknkc7Xpp8FJYw_ltUwz5frOw1a5pJ81EpdTOK8xhbYmrN4ZxniM96&s=717o8hLR1JmHFpRPSWG6xdUQTikyUjicjkipjFsKG4w&e=.

Published

2021

29. The genomic study of repetitive elements in Solea senegalensis reveals multiple impacts of transposable elements in the evolution and architecture of Pleuronectiformes chromosomes

Author

Ismael Cross, María E. Rodríguez, Silvia Portela-Bens, Manuel A. Merlo, Aaron Gálvez-Salido, Rafael Navajas-Pérez, and Laureana Rebordinos

Subjects

Solea senegalensis, transposable elements, DNA satellite, repetitive sequences, evolution, centromeres, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Pleuronectiformes are flatfishes with high commercial value and a prominent example of successful marine adaptation through chromosomal evolution. Hence, the aim of this study was to analyze the 14 relative abundance of repetitive elements (satellite DNA and transposable elements (TE)) in the 15 genome of 10 fish species (8 flatfish) delving into the study of the species of special relevance, 16 Senegalese sole, Solea senegalensis. The results showed differences in the abundance of repetitive elements, with S. senegalensis exhibiting the highest frequency and coverage of these elements reaching the 40% of the genome and not at random distribution. It is noteworthy the presence of relevant peaks of Helitrons in centromeric/pericentromeric positions mainly in the bi-armed chromosomes 1, 2, 4, 6, 7, and 9. The position of the centromeres of this species determined through the genomic localization of the family of satellite DNA PvuII, and other repetitive sequences was obtained de novo. This allowed us to know the genomic position of the centromeres in 19 out of the 21 chromosomes of S. senegalensis. Helitrons showed an accumulation of tandem copies mainly in the pericentromeric positions of chromosomes 1 and 2, occupying a region, in the first case, of 600Kb of tandem repeats. That has only been previously described in mammals and plants. Divergence and copy number studies indicated the presence of active families in the species’ genome and the existence of two important events of transposon activity (burst) in the genome of S. senegalensis, mainly accentuated in Helitrons. The results showed that only the families of DNA transposons exhibited a landscape with symmetrical bell-shaped distribution. The phylogenetic analysis of Helitron families revealed the presence of two large groups of families and the presence of four groups of sequences with heterogeneous distribution among chromosomes. Finally, the phylogenomic analysis of 8615 sequences belonging to Helitron insertions from 5 families of flatfish and two external species, allowed to classify the copies into nine groups of sequences with different levels of divergence and clusters, including some branches with distant phylogenetically species. The implications of this study will help to expand the knowledge of chromosome structure and evolution of these species.

Published

2024

30. Assembly, annotation and analysis of the chloroplast genome of the Algarrobo tree Neltuma pallida (subfamily: Caesalpinioideae).

Author

Caycho, Esteban, La Torre, Renato, and Orjeda, Gisella

Subjects

*CHLOROPLAST DNA, *CHLOROPLASTS, *CAESALPINIACEAE, *TANDEM repeats, *TROPICAL dry forests, *ARID soils, *GENETIC variation

Abstract

Background: Neltuma pallida is a tree that grows in arid soils in northwestern Peru. As a predominant species of the Equatorial Dry Forest ecoregion, it holds significant economic and ecological value for both people and environment. Despite this, the species is severely threatened and there is a lack of genetic and genomic research, hindering the proposal of evidence-based conservation strategies. Results: In this work, we conducted the assembly, annotation, analysis and comparison of the chloroplast genome of a N. pallida specimen with those of related species. The assembled chloroplast genome has a length of 162,381 bp with a typical quadripartite structure (LSC-IRA-SSC-IRB). The calculated GC content was 35.97%. However, this is variable between regions, with a higher GC content observed in the IRs. A total of 132 genes were annotated, of which 19 were duplicates and 22 contained at least one intron in their sequence. A substantial number of repetitive sequences of different types were identified in the assembled genome, predominantly tandem repeats (> 300). In particular, 142 microsatellites (SSR) markers were identified. The phylogenetic reconstruction showed that N. pallida grouped with the other Neltuma species and with Prosopis cineraria. The analysis of sequence divergence between the chloroplast genome sequences of N. pallida, N. juliflora, P. farcta and Strombocarpa tamarugo revealed a high degree of similarity. Conclusions: The N. pallida chloroplast genome was found to be similar to those of closely related species. With a size of 162,831 bp, it had the classical chloroplast quadripartite structure and GC content of 35.97%. Most of the 132 identified genes were protein-coding genes. Additionally, over 800 repetitive sequences were identified, including 142 SSR markers. In the phylogenetic analysis, N. pallida grouped with other Neltuma spp. and P. cineraria. Furthermore, N. pallida chloroplast was highly conserved when compared with genomes of closely related species. These findings can be of great potential for further diversity studies and genetic improvement of N. pallida. [ABSTRACT FROM AUTHOR]

Published

2023

31. Genome-wide analysis of transposable elements and satellite DNA in Humulus scandens, a dioecious plant with XX/XY1Y2 chromosomes.

Author

Guo-Jun Zhang, Ke-Li Jia, Jin Wang, Wu-Jun Gao, and Shu-Fen Li

Subjects

SATELLITE DNA, PLANT chromosomes, SEX chromosomes, DIOECIOUS plants, CHROMOSOME analysis, CHROMOSOMES

Abstract

Transposable elements (TEs) and satellite DNAs, two major categories of repetitive sequences, are expected to accumulate in non-recombining genome regions, including sex-linked regions, and contribute to sex chromosome evolution. The dioecious plant, Humulus scandens, can be used for studying the evolution of the XX/XY1Y2 sex chromosomes. In this study, we thoroughly examined the repetitive components of male and female H. scandens using next-generation sequencing data followed by bioinformatics analysis and florescence in situ hybridization (FISH). The H. scandens genome has a high overall repetitive sequence composition, 68.30% in the female and 66.78% in the male genome, with abundant long terminal repeat (LTR) retrotransposons (RTs), including more Ty3/Gypsy than Ty1/Copia elements, particularly two Ty3/Gypsy lineages, Tekay and Retand. Most LTR-RT lineages were found dispersed across the chromosomes, though CRM and Athila elements were predominately found within the centromeres and the pericentromeric regions. The Athila elements also showed clearly higher FISH signal intensities in the Y1 and Y2 chromosomes than in the X or autosomes. Three novel satellite DNAs were specifically distributed in the centromeric and/or telomeric regions, with markedly different distributions on the X, Y1, and Y2 chromosomes. Combined with FISH using satellite DNAs to stain chromosomes during meiotic diakinesis, we determined the synapsis pattern and distinguish pseudoautosomal regions (PARs). The results indicate that the XY1Y2 sex chromosomes of H. scandens might have originated from a centric fission event. This study improves our understanding of the repetitive sequence organization of H. scandens genome and provides a basis for further analysis of their chromosome evolution process. [ABSTRACT FROM AUTHOR]

Published

2023

32. Identification and characterization of centromeric sequences in Xenopus laevis

Author

Smith, Owen K, Limouse, Charles, Fryer, Kelsey A, Teran, Nicole A, Sundararajan, Kousik, Heald, Rebecca, and Straight, Aaron F

Subjects

Biological Sciences, Genetics, Human Genome, Underpinning research, 1.1 Normal biological development and functioning, Generic health relevance, Animals, Centromere, Centromere Protein A, Chromatin, Nucleosomes, Repetitive Sequences, Nucleic Acid, Xenopus laevis, Medical and Health Sciences, Bioinformatics

Abstract

Centromeres play an essential function in cell division by specifying the site of kinetochore formation on each chromosome for mitotic spindle attachment. Centromeres are defined epigenetically by the histone H3 variant Centromere Protein A (Cenpa). Cenpa nucleosomes maintain the centromere by designating the site for new Cenpa assembly after dilution by replication. Vertebrate centromeres assemble on tandem arrays of repetitive sequences, but the function of repeat DNA in centromere formation has been challenging to dissect due to the difficulty in manipulating centromeres in cells. Xenopus laevis egg extracts assemble centromeres in vitro, providing a system for studying centromeric DNA functions. However, centromeric sequences in Xenopus laevis have not been extensively characterized. In this study, we combine Cenpa ChIP-seq with a k-mer based analysis approach to identify the Xenopus laevis centromere repeat sequences. By in situ hybridization, we show that Xenopus laevis centromeres contain diverse repeat sequences, and we map the centromere position on each Xenopus laevis chromosome using the distribution of centromere-enriched k-mers. Our identification of Xenopus laevis centromere sequences enables previously unapproachable centromere genomic studies. Our approach should be broadly applicable for the analysis of centromere and other repetitive sequences in any organism.

Published

2021

33. FBXO44 promotes DNA replication-coupled repetitive element silencing in cancer cells

Author

Shen, Jia Z, Qiu, Zhixin, Wu, Qiulian, Finlay, Darren, Garcia, Guillermina, Sun, Dahui, Rantala, Juha, Barshop, William, Hope, Jennifer L, Gimple, Ryan C, Sangfelt, Olle, Bradley, Linda M, Wohlschlegel, James, Rich, Jeremy N, and Spruck, Charles

Subjects

Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Immunology, Cancer, Immunotherapy, Human Genome, Genetics, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Adult, Cell Line, Tumor, Cell Proliferation, Cell Survival, DNA Breaks, Double-Stranded, DNA Replication, Drug Resistance, Neoplasm, F-Box Proteins, Female, Gene Expression Regulation, Neoplastic, Histones, Humans, Immune Checkpoint Inhibitors, Immunity, Interferons, Lysine, Male, Methylation, Middle Aged, Neoplasm Proteins, Neoplasms, Nucleosomes, Repetitive Sequences, Nucleic Acid, Signal Transduction, Transcription, Genetic, Treatment Outcome, FBXO44, H3K9me3, SUV39H1, immunotherapy, repetitive elements, Biological Sciences, Medical and Health Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences

Abstract

Repetitive elements (REs) compose ∼50% of the human genome and are normally transcriptionally silenced, although the mechanism has remained elusive. Through an RNAi screen, we identified FBXO44 as an essential repressor of REs in cancer cells. FBXO44 bound H3K9me3-modified nucleosomes at the replication fork and recruited SUV39H1, CRL4, and Mi-2/NuRD to transcriptionally silence REs post-DNA replication. FBXO44/SUV39H1 inhibition reactivated REs, leading to DNA replication stress and stimulation of MAVS/STING antiviral pathways and interferon (IFN) signaling in cancer cells to promote decreased tumorigenicity, increased immunogenicity, and enhanced immunotherapy response. FBXO44 expression inversely correlated with replication stress, antiviral pathways, IFN signaling, and cytotoxic T cell infiltration in human cancers, while a FBXO44-immune gene signature correlated with improved immunotherapy response in cancer patients. FBXO44/SUV39H1 were dispensable in normal cells. Collectively, FBXO44/SUV39H1 are crucial repressors of RE transcription, and their inhibition selectively induces DNA replication stress and viral mimicry in cancer cells.

Published

2021

34. Diploid genomic architecture of Nitzschia inconspicua, an elite biomass production diatom

Author

Oliver, Aaron, Podell, Sheila, Pinowska, Agnieszka, Traller, Jesse C, Smith, Sarah R, McClure, Ryan, Beliaev, Alex, Bohutskyi, Pavlo, Hill, Eric A, Rabines, Ariel, Zheng, Hong, Allen, Lisa Zeigler, Kuo, Alan, Grigoriev, Igor V, Allen, Andrew E, Hazlebeck, David, and Allen, Eric E

Subjects

Biological Sciences, Genetics, Biotechnology, Affordable and Clean Energy, Biomass, Carbonic Anhydrases, Contig Mapping, Diatoms, Diploidy, Genome, Genome Size, Genome, Chloroplast, Genome, Mitochondrial, Open Reading Frames, Phylogeny, Repetitive Sequences, Nucleic Acid, Sequence Analysis, DNA, Synteny

Abstract

A near-complete diploid nuclear genome and accompanying circular mitochondrial and chloroplast genomes have been assembled from the elite commercial diatom species Nitzschia inconspicua. The 50 Mbp haploid size of the nuclear genome is nearly double that of model diatom Phaeodactylum tricornutum, but 30% smaller than closer relative Fragilariopsis cylindrus. Diploid assembly, which was facilitated by low levels of allelic heterozygosity (2.7%), included 14 candidate chromosome pairs composed of long, syntenic contigs, covering 93% of the total assembly. Telomeric ends were capped with an unusual 12-mer, G-rich, degenerate repeat sequence. Predicted proteins were highly enriched in strain-specific marker domains associated with cell-surface adhesion, biofilm formation, and raphe system gliding motility. Expanded species-specific families of carbonic anhydrases suggest potential enhancement of carbon concentration efficiency, and duplicated glycolysis and fatty acid synthesis pathways across cytosolic and organellar compartments may enhance peak metabolic output, contributing to competitive success over other organisms in mixed cultures. The N. inconspicua genome delivers a robust new reference for future functional and transcriptomic studies to illuminate the physiology of benthic pennate diatoms and harness their unique adaptations to support commercial algae biomass and bioproduct production.

Published

2021

35. Principles of RNA processing from analysis of enhanced CLIP maps for 150 RNA binding proteins

Author

Van Nostrand, Eric L, Pratt, Gabriel A, Yee, Brian A, Wheeler, Emily C, Blue, Steven M, Mueller, Jasmine, Park, Samuel S, Garcia, Keri E, Gelboin-Burkhart, Chelsea, Nguyen, Thai B, Rabano, Ines, Stanton, Rebecca, Sundararaman, Balaji, Wang, Ruth, Fu, Xiang-Dong, Graveley, Brenton R, and Yeo, Gene W

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Vaccine Related, Human Genome, Immunization, Vaccine Related (AIDS), Prevention, Biotechnology, Underpinning research, 1.1 Normal biological development and functioning, Binding Sites, Hep G2 Cells, Humans, Immunoprecipitation, Introns, K562 Cells, RNA, RNA Processing, Post-Transcriptional, RNA Splicing, RNA, Ribosomal, RNA-Binding Proteins, Repetitive Sequences, Nucleic Acid, Retroelements, Spliceosomes, eCLIP, CLIP-seq, RNA binding protein, RNA processing, Environmental Sciences, Information and Computing Sciences, Bioinformatics

Abstract

BackgroundA critical step in uncovering rules of RNA processing is to study the in vivo regulatory networks of RNA binding proteins (RBPs). Crosslinking and immunoprecipitation (CLIP) methods enable mapping RBP targets transcriptome-wide, but methodological differences present challenges to large-scale analysis across datasets. The development of enhanced CLIP (eCLIP) enabled the mapping of targets for 150 RBPs in K562 and HepG2, creating a unique resource of RBP interactomes profiled with a standardized methodology in the same cell types.ResultsOur analysis of 223 eCLIP datasets reveals a range of binding modalities, including highly resolved positioning around splicing signals and mRNA untranslated regions that associate with distinct RBP functions. Quantification of enrichment for repetitive and abundant multicopy elements reveals 70% of RBPs have enrichment for non-mRNA element classes, enables identification of novel ribosomal RNA processing factors and sites, and suggests that association with retrotransposable elements reflects multiple RBP mechanisms of action. Analysis of spliceosomal RBPs indicates that eCLIP resolves AQR association after intronic lariat formation, enabling identification of branch points with single-nucleotide resolution, and provides genome-wide validation for a branch point-based scanning model for 3' splice site recognition. Finally, we show that eCLIP peak co-occurrences across RBPs enable the discovery of novel co-interacting RBPs.ConclusionsThis work reveals novel insights into RNA biology by integrated analysis of eCLIP profiling of 150 RBPs with distinct functions. Further, our quantification of both mRNA and other element association will enable further research to identify novel roles of RBPs in regulating RNA processing.

Published

2020

36. Genome-wide analysis of transposable elements and satellite DNA in Humulus scandens, a dioecious plant with XX/XY1Y2 chromosomes

Author

Guo-Jun Zhang, Ke-Li Jia, Jin Wang, Wu-Jun Gao, and Shu-Fen Li

Subjects

Humulus scandens, repetitive sequences, satellites, sex chromosome evolution, transposable elements (TEs), Plant culture, SB1-1110

Abstract

Transposable elements (TEs) and satellite DNAs, two major categories of repetitive sequences, are expected to accumulate in non-recombining genome regions, including sex-linked regions, and contribute to sex chromosome evolution. The dioecious plant, Humulus scandens, can be used for studying the evolution of the XX/XY1Y2 sex chromosomes. In this study, we thoroughly examined the repetitive components of male and female H. scandens using next-generation sequencing data followed by bioinformatics analysis and florescence in situ hybridization (FISH). The H. scandens genome has a high overall repetitive sequence composition, 68.30% in the female and 66.78% in the male genome, with abundant long terminal repeat (LTR) retrotransposons (RTs), including more Ty3/Gypsy than Ty1/Copia elements, particularly two Ty3/Gypsy lineages, Tekay and Retand. Most LTR-RT lineages were found dispersed across the chromosomes, though CRM and Athila elements were predominately found within the centromeres and the pericentromeric regions. The Athila elements also showed clearly higher FISH signal intensities in the Y1 and Y2 chromosomes than in the X or autosomes. Three novel satellite DNAs were specifically distributed in the centromeric and/or telomeric regions, with markedly different distributions on the X, Y1, and Y2 chromosomes. Combined with FISH using satellite DNAs to stain chromosomes during meiotic diakinesis, we determined the synapsis pattern and distinguish pseudoautosomal regions (PARs). The results indicate that the XY1Y2 sex chromosomes of H. scandens might have originated from a centric fission event. This study improves our understanding of the repetitive sequence organization of H. scandens genome and provides a basis for further analysis of their chromosome evolution process.

Published

2023

37. A new type of tandem repeats in Myotis petax (Chiroptera, Vespertilionidae) mitochondrial control region.

Author

Gorobeyko, Uliana Vasilievna, Sheremetyeva, Irina Nikolaevna, Kazakov, Denis Vasilievich, and Guskov, Valentin Yurievich

Abstract

Background: Tandem repeats in mitochondrial DNA control region are known to different animal taxa, including bat species of the family Vespertilionidae. The long R1-repeats in the bat ETAS-domain are often presented in a variable copy number and may exhibit both inter-individual and intra-individual sequence diversity. The function of repeats in the control region is still unclear, but it has been shown that repetitive sequences in some animal groups (shrews, cats and sheep) may include parts of ETAS1 and ETAS2 conservative blocks of mitochondrial DNA. Methods and results: Analysis of the control region sequences for 31 Myotis petax specimens allowed the identification of the inter-individual variability and clarification of the composition of the R1-repeats. The copy number of the R1-repeats varies from 4 to 7 in individuals. The specimens examined do not exhibit a size heteroplasmy previously described for Myotis species. The unusual short 30 bp R1-repeats have been detected in M. petax for the first time. The ten specimens from Amur Region and Primorsky Territory have one or two copies of these additional repeats. Conclusions: It was determined that the R1-repeats in M. petax control region consist of parts of the ETAS1 and ETAS2 blocks. The origin of the additional repeats seems to be related to the 51 bp deletion in the central part of the R1-repeat unit and subsequent duplication. Comparison of repetitive sequences in the control region of closely-related Myotis species identified the occurrence of incomplete repeats also resulting from the short deletions, but distinct from additional repeats of M. petax. [ABSTRACT FROM AUTHOR]

Published

2023

38. Endogenous retroviruses drive species-specific germline transcriptomes in mammals

Author

Sakashita, Akihiko, Maezawa, So, Takahashi, Kazuki, Alavattam, Kris G, Yukawa, Masashi, Hu, Yueh-Chiang, Kojima, Shohei, Parrish, Nicholas F, Barski, Artem, Pavlicev, Mihaela, and Namekawa, Satoshi H

Subjects

Biological Sciences, Biomedical and Clinical Sciences, Genetics, Contraception/Reproduction, 1.1 Normal biological development and functioning, Underpinning research, Animals, Chromatin, Endogenous Retroviruses, Enhancer Elements, Genetic, Gene Expression Regulation, Viral, Humans, Long Interspersed Nucleotide Elements, Male, Mammals, Meiosis, Mice, Inbred C57BL, Mice, Transgenic, Mitosis, Mutation, Proto-Oncogene Proteins c-myb, Repetitive Sequences, Nucleic Acid, Rodentia, Spermatogenesis, Spermatozoa, Trans-Activators, Transcriptome, Chemical Sciences, Medical and Health Sciences, Biophysics, Developmental Biology, Biological sciences, Biomedical and clinical sciences, Chemical sciences

Abstract

Gene regulation in the germline ensures the production of high-quality gametes, long-term maintenance of the species and speciation. Male germline transcriptomes undergo dynamic changes after the mitosis-to-meiosis transition and have been subject to evolutionary divergence among mammals. However, the mechanisms underlying germline regulatory divergence remain undetermined. Here, we show that endogenous retroviruses (ERVs) influence species-specific germline transcriptomes. After the mitosis-to-meiosis transition in male mice, specific ERVs function as active enhancers to drive germline genes, including a mouse-specific gene set, and bear binding motifs for critical regulators of spermatogenesis, such as A-MYB. This raises the possibility that a genome-wide transposition of ERVs rewired germline gene expression in a species-specific manner. Of note, independently evolved ERVs are associated with the expression of human-specific germline genes, demonstrating the prevalence of ERV-driven mechanisms in mammals. Together, we propose that ERVs fine-tune species-specific transcriptomes in the mammalian germline.

Published

2020

39. Maternal effect killing by a supergene controlling ant social organization

Author

Avril, Amaury, Purcell, Jessica, Béniguel, Sébastien, and Chapuisat, Michel

Subjects

Genetics, Human Genome, Animals, Ants, Evolution, Molecular, Female, Gene Expression Regulation, Developmental, Genes, Insect, Haplotypes, Male, Maternal Inheritance, Meiosis, Regulatory Sequences, Nucleic Acid, Repetitive Sequences, Nucleic Acid, Social Behavior, selfish genetic elements, maternal effect killer, transmission ratio distortion, supergene, queen number

Abstract

Supergenes underlie striking polymorphisms in nature, yet the evolutionary mechanisms by which they arise and persist remain enigmatic. These clusters of linked loci can spread in populations because they captured coadapted alleles or by selfishly distorting the laws of Mendelian inheritance. Here, we show that the supergene haplotype associated with multiple-queen colonies in Alpine silver ants is a maternal effect killer. All eggs from heterozygous queens failed to hatch when they did not inherit this haplotype. Hence, the haplotype specific to multiple-queen colonies is a selfish genetic element that enhances its own transmission by causing developmental arrest of progeny that do not carry it. At the population level, such transmission ratio distortion favors the spread of multiple-queen colonies, to the detriment of the alternative haplotype associated with single-queen colonies. Hence, selfish gene drive by one haplotype will impact the evolutionary dynamics of alternative forms of colony social organization. This killer hidden in a social supergene shows that large nonrecombining genomic regions are prone to cause multifarious effects across levels of biological organization.

Published

2020

40. Genomic footprints of activated telomere maintenance mechanisms in cancer.

Author

Sieverling, Lina, Hong, Chen, Koser, Sandra D, Ginsbach, Philip, Kleinheinz, Kortine, Hutter, Barbara, Braun, Delia M, Cortés-Ciriano, Isidro, Xi, Ruibin, Kabbe, Rolf, Park, Peter J, Eils, Roland, Schlesner, Matthias, PCAWG-Structural Variation Working Group, Brors, Benedikt, Rippe, Karsten, Jones, David TW, Feuerbach, Lars, and PCAWG Consortium

Subjects

PCAWG-Structural Variation Working Group, PCAWG Consortium, Telomere, Humans, Neoplasms, Telomerase, Molecular Chaperones, Case-Control Studies, Repetitive Sequences, Nucleic Acid, Mutation, Genome, Human, Co-Repressor Proteins, RNA, Long Noncoding, Whole Genome Sequencing, X-linked Nuclear Protein, Repetitive Sequences, Nucleic Acid, Genome, Human, RNA, Long Noncoding

Abstract

Cancers require telomere maintenance mechanisms for unlimited replicative potential. They achieve this through TERT activation or alternative telomere lengthening associated with ATRX or DAXX loss. Here, as part of the ICGC/TCGA Pan-Cancer Analysis of Whole Genomes (PCAWG) Consortium, we dissect whole-genome sequencing data of over 2500 matched tumor-control samples from 36 different tumor types aggregated within the ICGC/TCGA Pan-Cancer Analysis of Whole Genomes (PCAWG) Consortium to characterize the genomic footprints of these mechanisms. While the telomere content of tumors with ATRX or DAXX mutations (ATRX/DAXXtrunc) is increased, tumors with TERT modifications show a moderate decrease of telomere content. One quarter of all tumor samples contain somatic integrations of telomeric sequences into non-telomeric DNA. This fraction is increased to 80% prevalence in ATRX/DAXXtrunc tumors, which carry an aberrant telomere variant repeat (TVR) distribution as another genomic marker. The latter feature includes enrichment or depletion of the previously undescribed singleton TVRs TTCGGG and TTTGGG, respectively. Our systematic analysis provides new insight into the recurrent genomic alterations associated with telomere maintenance mechanisms in cancer.

Published

2020

41. Pericentromeric heterochromatin is hierarchically organized and spatially contacts H3K9me2 islands in euchromatin

Author

Lee, Yuh Chwen G, Ogiyama, Yuki, Martins, Nuno MC, Beliveau, Brian J, Acevedo, David, Wu, C-ting, Cavalli, Giacomo, and Karpen, Gary H

Subjects

Biological Sciences, Genetics, Human Genome, Animals, Centrosome, Chromosome Structures, Drosophila Proteins, Drosophila melanogaster, Euchromatin, Genome, Heterochromatin, Histones, Repetitive Sequences, Nucleic Acid, Developmental Biology

Abstract

Membraneless pericentromeric heterochromatin (PCH) domains play vital roles in chromosome dynamics and genome stability. However, our current understanding of 3D genome organization does not include PCH domains because of technical challenges associated with repetitive sequences enriched in PCH genomic regions. We investigated the 3D architecture of Drosophila melanogaster PCH domains and their spatial associations with the euchromatic genome by developing a novel analysis method that incorporates genome-wide Hi-C reads originating from PCH DNA. Combined with cytogenetic analysis, we reveal a hierarchical organization of the PCH domains into distinct "territories." Strikingly, H3K9me2-enriched regions embedded in the euchromatic genome show prevalent 3D interactions with the PCH domain. These spatial contacts require H3K9me2 enrichment, are likely mediated by liquid-liquid phase separation, and may influence organismal fitness. Our findings have important implications for how PCH architecture influences the function and evolution of both repetitive heterochromatin and the gene-rich euchromatin.

Published

2020

42. CRISPR-Cas9 Screens Identify the RNA Helicase DDX3X as a Repressor of C9ORF72 (GGGGCC)n Repeat-Associated Non-AUG Translation

Author

Cheng, Weiwei, Wang, Shaopeng, Zhang, Zhe, Morgens, David W, Hayes, Lindsey R, Lee, Soojin, Portz, Bede, Xie, Yongzhi, Nguyen, Baotram V, Haney, Michael S, Yan, Shirui, Dong, Daoyuan, Coyne, Alyssa N, Yang, Junhua, Xian, Fengfan, Cleveland, Don W, Qiu, Zhaozhu, Rothstein, Jeffrey D, Shorter, James, Gao, Fen-Biao, Bassik, Michael C, and Sun, Shuying

Subjects

Biological Psychology, Biomedical and Clinical Sciences, Neurosciences, Psychology, Frontotemporal Dementia (FTD), Brain Disorders, Neurodegenerative, ALS, Acquired Cognitive Impairment, Dementia, Rare Diseases, Genetics, 2.1 Biological and endogenous factors, Aetiology, Neurological, Amyotrophic Lateral Sclerosis, Animals, C9orf72 Protein, CRISPR-Cas Systems, DEAD-box RNA Helicases, Drosophila, Frontotemporal Dementia, Humans, Protein Biosynthesis, Repetitive Sequences, Nucleic Acid, CRISPR-Cas9 screen, DDX3X, FTD, RAN translation, RNA, helicase, neurodegeneration, repeat expansion, Cognitive Sciences, Neurology & Neurosurgery, Biological psychology

Abstract

Hexanucleotide GGGGCC repeat expansion in C9ORF72 is the most prevalent genetic cause of amyotrophic lateral sclerosis (ALS) and frontotemporal dementia (FTD). One pathogenic mechanism is the aberrant accumulation of dipeptide repeat (DPR) proteins produced by the unconventional translation of expanded RNA repeats. Here, we performed genome-wide CRISPR-Cas9 screens for modifiers of DPR protein production in human cells. We found that DDX3X, an RNA helicase, suppresses the repeat-associated non-AUG translation of GGGGCC repeats. DDX3X directly binds to (GGGGCC)n RNAs but not antisense (CCCCGG)n RNAs. Its helicase activity is essential for the translation repression. Reduction of DDX3X increases DPR levels in C9ORF72-ALS/FTD patient cells and enhances (GGGGCC)n-mediated toxicity in Drosophila. Elevating DDX3X expression is sufficient to decrease DPR levels, rescue nucleocytoplasmic transport abnormalities, and improve survival of patient iPSC-differentiated neurons. This work identifies genetic modifiers of DPR protein production and provides potential therapeutic targets for C9ORF72-ALS/FTD.

Published

2019

43. Construction and comparison of three reference‐quality genome assemblies for soybean

Author

Valliyodan, Babu, Cannon, Steven B, Bayer, Philipp E, Shu, Shengqiang, Brown, Anne V, Ren, Longhui, Jenkins, Jerry, Chung, Claire Y‐L, Chan, Ting‐Fung, Daum, Christopher G, Plott, Christopher, Hastie, Alex, Baruch, Kobi, Barry, Kerrie W, Huang, Wei, Patil, Gunvant, Varshney, Rajeev K, Hu, Haifei, Batley, Jacqueline, Yuan, Yuxuan, Song, Qijian, Stupar, Robert M, Goodstein, David M, Stacey, Gary, Lam, Hon‐Ming, Jackson, Scott A, Schmutz, Jeremy, Grimwood, Jane, Edwards, David, and Nguyen, Henry T

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Alleles, Centromere, Disease Resistance, Fabaceae, Genetic Variation, Genetics, Population, Genome, Plant, Genotype, Haplotypes, Hardness, Multigene Family, Phylogeny, Polymorphism, Single Nucleotide, Quantitative Trait Loci, Repetitive Sequences, Nucleic Acid, Seed Bank, Sequence Inversion, Telomere, Glycine max, Glycine soja, comparative genomics, domestication, genome assembly, soybean, Biochemistry and Cell Biology, Plant Biology, Plant Biology & Botany, Biochemistry and cell biology, Plant biology

Abstract

We report reference-quality genome assemblies and annotations for two accessions of soybean (Glycine max) and for one accession of Glycine soja, the closest wild relative of G. max. The G. max assemblies provided are for widely used US cultivars: the northern line Williams 82 (Wm82) and the southern line Lee. The Wm82 assembly improves the prior published assembly, and the Lee and G. soja assemblies are new for these accessions. Comparisons among the three accessions show generally high structural conservation, but nucleotide difference of 1.7 single-nucleotide polymorphisms (snps) per kb between Wm82 and Lee, and 4.7 snps per kb between these lines and G. soja. snp distributions and comparisons with genotypes of the Lee and Wm82 parents highlight patterns of introgression and haplotype structure. Comparisons against the US germplasm collection show placement of the sequenced accessions relative to global soybean diversity. Analysis of a pan-gene collection shows generally high conservation, with variation occurring primarily in genomically clustered gene families. We found approximately 40-42 inversions per chromosome between either Lee or Wm82v4 and G. soja, and approximately 32 inversions per chromosome between Wm82 and Lee. We also investigated five domestication loci. For each locus, we found two different alleles with functional differences between G. soja and the two domesticated accessions. The genome assemblies for multiple cultivated accessions and for the closest wild ancestor of soybean provides a valuable set of resources for identifying causal variants that underlie traits for the domestication and improvement of soybean, serving as a basis for future research and crop improvement efforts for this important crop species.

Published

2019

44. Comparative genomic analysis of six Glossina genomes, vectors of African trypanosomes

Author

Attardo, Geoffrey M, Abd-Alla, Adly MM, Acosta-Serrano, Alvaro, Allen, James E, Bateta, Rosemary, Benoit, Joshua B, Bourtzis, Kostas, Caers, Jelle, Caljon, Guy, Christensen, Mikkel B, Farrow, David W, Friedrich, Markus, Hua-Van, Aurélie, Jennings, Emily C, Larkin, Denis M, Lawson, Daniel, Lehane, Michael J, Lenis, Vasileios P, Lowy-Gallego, Ernesto, Macharia, Rosaline W, Malacrida, Anna R, Marco, Heather G, Masiga, Daniel, Maslen, Gareth L, Matetovici, Irina, Meisel, Richard P, Meki, Irene, Michalkova, Veronika, Miller, Wolfgang J, Minx, Patrick, Mireji, Paul O, Ometto, Lino, Parker, Andrew G, Rio, Rita, Rose, Clair, Rosendale, Andrew J, Rota-Stabelli, Omar, Savini, Grazia, Schoofs, Liliane, Scolari, Francesca, Swain, Martin T, Takáč, Peter, Tomlinson, Chad, Tsiamis, George, Van Den Abbeele, Jan, Vigneron, Aurelien, Wang, Jingwen, Warren, Wesley C, Waterhouse, Robert M, Weirauch, Matthew T, Weiss, Brian L, Wilson, Richard K, Zhao, Xin, and Aksoy, Serap

Subjects

Biological Sciences, Genetics, Vector-Borne Diseases, Biotechnology, Infectious Diseases, Infection, Good Health and Well Being, Animals, DNA Transposable Elements, Drosophila melanogaster, Female, Gene Expression Regulation, Genes, Insect, Genes, X-Linked, Genome, Insect, Genomics, Geography, Insect Proteins, Insect Vectors, Male, Mutagenesis, Insertional, Phylogeny, Repetitive Sequences, Nucleic Acid, Sequence Homology, Amino Acid, Synteny, Trypanosoma, Tsetse Flies, Wolbachia, Tsetse, Trypanosomiasis, Hematophagy, Lactation, Disease, Neglected, Symbiosis, Environmental Sciences, Information and Computing Sciences, Bioinformatics

Abstract

BackgroundTsetse flies (Glossina sp.) are the vectors of human and animal trypanosomiasis throughout sub-Saharan Africa. Tsetse flies are distinguished from other Diptera by unique adaptations, including lactation and the birthing of live young (obligate viviparity), a vertebrate blood-specific diet by both sexes, and obligate bacterial symbiosis. This work describes the comparative analysis of six Glossina genomes representing three sub-genera: Morsitans (G. morsitans morsitans, G. pallidipes, G. austeni), Palpalis (G. palpalis, G. fuscipes), and Fusca (G. brevipalpis) which represent different habitats, host preferences, and vectorial capacity.ResultsGenomic analyses validate established evolutionary relationships and sub-genera. Syntenic analysis of Glossina relative to Drosophila melanogaster shows reduced structural conservation across the sex-linked X chromosome. Sex-linked scaffolds show increased rates of female-specific gene expression and lower evolutionary rates relative to autosome associated genes. Tsetse-specific genes are enriched in protease, odorant-binding, and helicase activities. Lactation-associated genes are conserved across all Glossina species while male seminal proteins are rapidly evolving. Olfactory and gustatory genes are reduced across the genus relative to other insects. Vision-associated Rhodopsin genes show conservation of motion detection/tracking functions and variance in the Rhodopsin detecting colors in the blue wavelength ranges.ConclusionsExpanded genomic discoveries reveal the genetics underlying Glossina biology and provide a rich body of knowledge for basic science and disease control. They also provide insight into the evolutionary biology underlying novel adaptations and are relevant to applied aspects of vector control such as trap design and discovery of novel pest and disease control strategies.

Published

2019

45. PolyCRACKER, a robust method for the unsupervised partitioning of polyploid subgenomes by signatures of repetitive DNA evolution

Author

Gordon, Sean P, Levy, Joshua J, and Vogel, John P

Subjects

Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, DNA, Plant, Evolution, Molecular, Genome, Plant, Genomics, Phylogeny, Polyploidy, Repetitive Sequences, Nucleic Acid, Tobacco, Triticum, Unsupervised Machine Learning, Allopolyploid, K-mer, Transposon, Binning, Evolution, Repetitive DNA, Subgenome, Wheat, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics, Biological sciences, Biomedical and clinical sciences

Abstract

BackgroundOur understanding of polyploid genomes is limited by our inability to definitively assign sequences to a specific subgenome without extensive prior knowledge like high resolution genetic maps or genome sequences of diploid progenitors. In theory, existing methods for assigning sequences to individual species from metagenome samples could be used to separate subgenomes in polyploid organisms, however, these methods rely on differences in coarse genome properties like GC content or sequences from related species. Thus, these approaches do not work for subgenomes where gross features are indistinguishable and related genomes are lacking. Here we describe a method that uses rapidly evolving repetitive DNA to circumvent these limitations.ResultsBy using short, repetitive, DNA sequences as species-specific signals we separated closely related genomes from test datasets and subgenomes from two polyploid plants, tobacco and wheat, without any prior knowledge.ConclusionThis approach is ideal for separating the subgenomes of polyploid species with unsequenced or unknown progenitor genomes.

Published

2019

46. Karyological analysis of the halfmoon triggerfish (Sufflamen chrysopterum) by the conventional and molecular cytogenetic techniques

Author

Kamika Sribenja, Alongklod Tanomtong, and Nuntaporn Getlekha

Subjects

triggerfish, chromosome, repetitive sequences, fish cytogenetics, Science

Abstract

This research aims to analyze the karyotype and other chromosomal characteristics of the halfmoon triggerfish (Sufflamen chrysopterum) from the Gulf of Thailand (Pacific Ocean). Chromosomes were prepared directly from kidney tissue of fish, and employed the conventional and the molecular cytogenetic analyses by 18S and 5S rDNA, together with CA15, GA15, and CAA10 microsatellites as probes. The results showed 2n=46 (46t; NF=46) in both male and female fish, and that the sex chromosomes could not be distinguished from both sexes. The C-positive heterochromatin was found in the centromeric regions of most chromosomes, and NORs localized single pairs which coincide with the location of the 18S rDNA probe on the telocentric chromosome No. 6. Moreover, the luminous signal of 5S rDNA probe was detected at the subcentromeric region of the same telocentric pair. The sign of (CA)15, (GA)15, and (CAA)10 microsatellites is sparsely dispersed along all the chromosomes, especially the (CA)15 sequences which indicates preferential accumulation at the telomeric and subcentromeric site of almost chromosome. Our study also provides additional data on the accumulation of repetitive sequences in the S. chrysopterum. Besides, the chromosomal organization of microsatellite DNAs among triggerfish species is also reviewed.

Published

2022

47. Microbiology of Mycobacterium leprae

Author

Clapasson, Andrea, Canata, Silvia, Nunzi, Enrico, editor, Massone, Cesare, editor, and Portaels, Françoise, editor

Published

2022

48. Hidden Compositional Heterogeneity of Fish Chromosomes in the Era of Polished Genome Assemblies.

Author

Vohnoutová, Marta, Žifčáková, Lucia, and Symonová, Radka

Subjects

*GENOMES, *CHROMOSOME banding, *HETEROGENEITY, *GUANINE, *CYTOSINE, *NUCLEOTIDES, *KARYOTYPES

Abstract

Fish chromosomes are considered homogeneous in their AT/GC nucleotide composition, and banding patterns enabling identification of homologs are largely missing. While cytogenomic approaches try to compensate for this issue by virtual karyotyping, they rely on the quality of genome assemblies available. Recently, soft-masked genome assemblies combining costly and arduous long- and short-read sequencing and new generation assemblers became available for two teleost fish species, climbing perch (Anabas testudineus) and channel bull blenny (Cottoperca gobio). Soft-masking turns repetitive sequences in a genome assembly into lower case letters, leaving unique sequences in upper case. This enables investigators to assess the proportion of guanine and cytosine nucleotides (GC%) of transposable elements as an indicator of AT/GC homogenisation in fish. We have developed a new version of our Python tool Evan, which utilises chromosome-level genome assemblies and combines the profiles of GC% and the proportion of repeats (rep%) along chromosomes. Our profiles of both of those fishes showed clear and abrupt but small-scale fluctuations in GC% along otherwise compositionally homogenised sequences. Our study also highlights the key role of the sliding window size in determining the resolution of GC% profiling. While the quality of the genome assemblies appeared to be sufficient for GC%/rep% profiling, more effective repeat masking is necessary to better distinguish to what extent repeats compositionally homogenize fish genomes. [ABSTRACT FROM AUTHOR]

Published

2023

49. Chromosomal delineation of repetitive DNAs in the Orange-lined triggerfish, Balistapus undulatus (Tetraodontiformes: Balistidae).

Author

Sribenja, Kamika, Tanomtong, Alongklod, Saleetid, Kanchana, and Getlekha, Nuntaporn

Abstract

The karyotypes and other chromosomal characteristics of the Orange-lined triggerfish (Balistapus undulatus) from the Gulf of Thailand (Pacific Ocean) were studied, using conventional cytogenetic analyses and fluorescence in situ hybridization using 18 S, 5 S rDNA, together with (CA)15, (GA)15, and (CAA)10 microsatellites as probes. The results showed 2n = 42 (42t; NF = 42) in both male and female fish, and that the sex chromosomes could not be distinguished from one another. The centromeric regions in all the chromosomes showed distinct patterns in the distribution of C-positive heterochromatin. The NORs were localized as single pairs, which coincide with the 18 S rDNA probe's location. At the sub-centromeric region of the telocentric chromosome, the 5 S rDNA probe's bright signal was discovered. The (CA)15, (GA)15, and (CAA)10 microsatellites are sparsely distributed along all the chromosomes. Of these, the (GA)15 sequence, exhibits preferential accumulation at the telomere of chromosome pair 18. The study also suggests that species B. undulatus and Odonus niger are karyotypically similar, necessitating the need for detailed analyses of chromosomal rearrangements with sophisticated cytogenetic techniques to elucidate their further differentiation. [ABSTRACT FROM AUTHOR]

Published

2023

50. Adaptation is maintained by the parliament of genes.

Author

Scott, Thomas W and West, Stuart A

Subjects

Adaptation, Physiological, Repetitive Sequences, Nucleic Acid, Quantitative Trait, Heritable, Genes, Models, Genetic, Genome Size, Adaptation, Physiological, Models, Genetic, Quantitative Trait, Heritable, Repetitive Sequences, Nucleic Acid

Abstract

Fields such as behavioural and evolutionary ecology are built on the assumption that natural selection leads to organisms that behave as if they are trying to maximise their fitness. However, there is considerable evidence for selfish genetic elements that change the behaviour of individuals to increase their own transmission. How can we reconcile this contradiction? Here we show that: (1) when selfish genetic elements have a greater impact at the individual level, they are more likely to be suppressed, and suppression spreads more quickly; (2) selection on selfish genetic elements leads them towards a greater impact at the individual level, making them more likely to be suppressed; (3) the majority interest within the genome generally prevails over 'cabals' of a few genes, irrespective of genome size, mutation rate and the sophistication of trait distorters. Overall, our results suggest that even when there is the potential for considerable genetic conflict, this will often have negligible impact at the individual level.

Published

2019