Your search keyword '"SEX CHROMOSOMES"' showing total 27,542 results

1. Whole-genome DNA methylomes of tree shrew brains reveal conserved and divergent roles of DNA methylation on sex chromosome regulation.

Author

Son, Dongmin, Kong, Yifan, Tan, Yulian, Hu, Ting, Shi, Lei, and Yi, Soojin

Subjects

Xist, CpG contents, DNA methylation, Gene expression, Tree shrew (Tupaia belangeri), X chromosome inactivation, Animals, DNA Methylation, Female, Male, Brain, Tupaiidae, X Chromosome Inactivation, X Chromosome, Epigenome, Genome, Sex Chromosomes, Tupaia

Abstract

BACKGROUND: The tree shrew (Tupaia belangeri) is a promising emerging model organism in biomedical studies, notably due to their evolutionary proximity to primates. To enhance our understanding of how DNA methylation is implicated in regulation of gene expression and the X chromosome inactivation (XCI) in tree shrew brains, here we present their first genome-wide, single-base-resolution methylomes integrated with transcriptomes from prefrontal cortices. RESULTS: Genome-wide relationships between DNA methylation and gene expression are consistent with those in other mammals. Interestingly, we observed a clear and significant global reduction (hypomethylation) of DNA methylation across the entire female X chromosome compared to male X. Female hypomethylation does not directly contribute to the gene silencing of the inactivated X chromosome nor does it significantly drive sex-specific gene expression in tree shrews. However, we identified a putative regulatory region in the 5 end of the X-inactive-specific transcript (Xist) gene, whose pattern of differential DNA methylation strongly relate to its sex-differential expression in tree shrews. Furthermore, differential methylation of this region is conserved across different species. We also provide evidence suggesting that the observed difference between human and tree shrew X-linked promoter methylation is associated with the difference in genomic CpG contents. CONCLUSIONS: Our study offers novel information on genomic DNA methylation of tree shrews as well as insights into the evolution of sex chromosome regulation in mammals. Specifically, we show conserved role of DNA methylation in regulation of Xist expression and propose genomic CpG contents as a factor in driving sex-differential DNA methylation of X-linked promoters.

Published

2024

2. An emerging link between lncRNAs and cancer sex dimorphism

Author

Naciri, Ikrame, Andrade-Ludena, Maria D, Yang, Ying, Kong, Mei, and Sun, Sha

Subjects

Reproductive Medicine, Biomedical and Clinical Sciences, Genetics, Cancer, Women's Health, Estrogen, 2.1 Biological and endogenous factors, Reproductive health and childbirth, Humans, RNA, Long Noncoding, Sex Characteristics, Neoplasms, Female, Male, Epigenesis, Genetic, Animals, Gene Expression Regulation, Neoplastic, Sex Chromosomes, Complementary and Alternative Medicine, Paediatrics and Reproductive Medicine, Genetics & Heredity, Reproductive medicine

Abstract

The prevalence and progression of cancer differ in males and females, and thus, sexual dimorphism in tumor development directly impacts clinical research and medicine. Long non-coding RNAs (lncRNAs) are increasingly recognized as important players in gene expression and various cellular processes, including cancer development and progression. In recent years, lncRNAs have been implicated in the differences observed in cancer incidence, progression, and treatment responses between men and women. Here, we present a brief overview of the current knowledge regarding the role of lncRNAs in cancer sex dimorphism, focusing on how they affect epigenetic processes in male and female mammalian cells. We discuss the potential mechanisms by which lncRNAs may contribute to sex differences in cancer, including transcriptional control of sex chromosomes, hormonal signaling pathways, and immune responses. We also propose strategies for studying lncRNA functions in cancer sex dimorphism. Furthermore, we emphasize the importance of considering sex as a biological variable in cancer research and the need to investigate the role lncRNAs play in mediating these sex differences. In summary, we highlight the emerging link between lncRNAs and cancer sex dimorphism and their potential as therapeutic targets.

Published

2024

3. RNA helicases DDX3X and DDX3Y form nanometer-scale RNA-protein clusters that support catalytic activity.

Author

Yanas, Amber, Shweta, Him, Owens, Michael C., Liu, Kathy Fange, and Goldman, Yale E.

Abstract

DEAD-box helicases, crucial for many aspects of RNA metabolism, often contain intrinsically disordered regions (IDRs) whose functions remain unclear. Using multiparameter confocal microscopy, we reveal that sex chromosome-encoded homologous RNA helicases, DDX3X and DDX3Y, form nanometer-scale RNA-protein clusters (RPCs) that foster their catalytic activities in vitro and in cells. The IDRs are critical for the formation of these RPCs. A thorough analysis of the catalytic cycle of DDX3X and DDX3Y by ensemble biochemistry and single-molecule photon bursts in the confocal microscope showed that RNA release is a major step that differentiates the unwinding activities of DDX3X and DDX3Y. The N-terminal IDRs of DDX3X and DDX3Y are both the drivers of RPC formation and the major differentiators of their enzymatic activities. Our findings provide new insights that the nanoscale helicase RPCs may be the normal state of these helicases under non-stressed conditions that promote their RNA unwinding and might act as nucleation points for stress granule formation. This mechanism may apply broadly among other members of the DEAD-box helicase family. [Display omitted] • DDX3X and DDX3Y form nanometer-scale protein-RNA clusters in vitro and in cells • Sequence differences in IDRs drive differences in cluster formation and catalysis • Single-strand RNA release rates underlie catalytic differences between DDX3X/DDX3Y • DDX3X mutants show a relationship between cluster size and RNA unwinding activity Yanas et al. report that RNA helicases DDX3X and DDX3X form nanometer-scale RNA-protein clusters (RPCs) both in vitro and in cells. Differences in RPC size and catalytic activity between DDX3X and DDX3Y are determined by sequence differences in the two homologs' IDRs. Using DDX3X mutants, the authors find that RPC size correlates with helicase activity. [ABSTRACT FROM AUTHOR]

Published

2024

4. Sex‐biased gene content is associated with sex chromosome turnover in Danaini butterflies.

Author

Mora, Pablo, Hospodářská, Monika, Voleníková, Anna Chung, Koutecký, Petr, Štundlová, Jana, Dalíková, Martina, Walters, James R., and Nguyen, Petr

Abstract

Sex chromosomes play an outsized role in adaptation and speciation, and thus deserve particular attention in evolutionary genomics. In particular, fusions between sex chromosomes and autosomes can produce neo‐sex chromosomes, which offer important insights into the evolutionary dynamics of sex chromosomes. Here, we investigate the evolutionary origin of the previously reported Danaus neo‐sex chromosome within the tribe Danaini. We assembled and annotated genomes of Tirumala septentrionis (subtribe Danaina), Ideopsis similis (Amaurina), Idea leuconoe (Euploeina) and Lycorea halia (Itunina) and identified their Z‐linked scaffolds. We found that the Danaus neo‐sex chromosome resulting from the fusion between a Z chromosome and an autosome corresponding to the Melitaea cinxia chromosome (McChr) 21 arose in a common ancestor of Danaina, Amaurina and Euploina. We also identified two additional fusions as the W chromosome further fused with the synteny block McChr31 in I. similis and independent fusion occurred between ancestral Z chromosome and McChr12 in L. halia. We further tested a possible role of sexually antagonistic selection in sex chromosome turnover by analysing the genomic distribution of sex‐biased genes in I. leuconoe and L. halia. The autosomes corresponding to McChr21 and McChr31 involved in the fusions are significantly enriched in female‐ and male‐biased genes, respectively, which could have hypothetically facilitated fixation of the neo‐sex chromosomes. This suggests a role of sexual antagonism in sex chromosome turnover in Lepidoptera. The neo‐Z chromosomes of both I. leuconoe and L. halia appear fully compensated in somatic tissues, but the extent of dosage compensation for the ancestral Z varies across tissues and species. [ABSTRACT FROM AUTHOR]

Published

2024

5. The Northern Harrier (Circus hudsonius (Linnaeus 1766), Accipitridae, Aves), a Species New to Avifauna in Russia.

Author

Zinevich, L. S. and Tomkovich, P. S.

Subjects

*CIRCUS cyaneus, *BIRDS of prey, *CYTOCHROME b, *SEX chromosomes, *COASTAL plains

Abstract

Feathers of an unknown bird of prey were collected on the coastal plain tundra near Meinypil'gyno (62°32′ N, 177°03′ E), southeastern Chukotka on June 5, 2021. An analysis of the mitochondrial cytochrome b gene and sex chromosome CHD1 gene fragments from DNA isolated from the feathers showed with full confidence that the feathers belonged to a male of the Nearctic northern harrier (Circus hudsonius (Linnaeus 1766)), formerly considered as a subspecies of the Holarctic hen harrier (C. cyaneus (Linnaeus 1766)). No specimens of the American harrier from the northern part of the Russian Far East are contained in the collections of the Zoological Museum of Lomonosov Moscow State University or the Zoological Institute of the Russian Academy of Sciences. The few other visual observations of harriers in Chukotka known are not properly documented for their correct species identification. The revealed vagrant American harrier documents the first record of this species in Russia in general and in Chukotka in particular. [ABSTRACT FROM AUTHOR]

Published

2024

6. A Genetic Polymorphism Underlying Alternative Reproductive Tactics in Eurycea Salamanders.

Author

Kalki, Yatin and Pierson, Todd W.

Abstract

ABSTRACT Alternative reproductive tactics are discrete, intrasexual differences in reproductive behaviour within a population. In some cases, these complex phenotypes are determined by autosomal supergenes or sex chromosomes—both of which exhibit reduced recombination and thus enable the linked inheritance of co‐adapted alleles from multiple loci. Most alternative reproductive tactics in amphibians are plastic (and reversible), environmentally determined and lacking morphological differentiation, but a striking exception is found in the two‐lined salamander (Eurycea bislineata) species complex. In some populations, two distinct male phenotypes coexist: ‘searching’ males have mental glands, protruding premaxillary teeth and elongate cirri used in terrestrial courtship, while ‘guarding’ males lack these traits and instead have hypertrophied jaw musculature used in mate guarding at aquatic nesting sites. These tactics differ in many morphological and behavioural phenotypes, but their proximate cause has not yet been described. Here, we generated genome‐wide SNP data from > 130 Eurycea cf. wilderae collected from Highlands Biological Station. We provide evidence for an XY sex determination and for a Y‐linked polymorphism underlying alternative reproductive tactics in this population. We then develop and validate a PCR‐based genotyping assay and apply it to characterise the sex ratio and relative frequency of male tactics from a sample of larvae. Our results add to the growing body of literature exploring the importance of supergenes and sex chromosomes in complex intraspecific polymorphisms, and we highlight opportunities for future work to continue exploring the genomic architecture of these traits. [ABSTRACT FROM AUTHOR]

Published

2024

7. X-inactive-specific transcript: a long noncoding RNA with a complex role in sex differences in human disease.

Author

Predescu, Dan N., Mokhlesi, Babak, and Predescu, Sanda A.

Subjects

*X chromosome, *SEX chromosomes, *Y chromosome, *SEX (Biology), *SEX factors in disease, *LIFE sciences

Abstract

In humans, the X and Y chromosomes determine the biological sex, XX specifying for females and XY for males. The long noncoding RNA X-inactive specific transcript (lncRNA XIST) plays a crucial role in the process of X chromosome inactivation (XCI) in cells of the female, a process that ensures the balanced expression of X-linked genes between sexes. Initially, it was believed that XIST can be expressed only from the inactive X chromosome (Xi) and is considered a typically female-specific transcript. However, accumulating evidence suggests that XIST can be detected in male cells as well, and it participates in the development of cancers and other human diseases by regulating gene expression at epigenetic, chromatin remodeling, transcriptional, and translational levels. XIST is abnormally expressed in many sexually dimorphic diseases, including autoimmune and neurological diseases, pulmonary arterial hypertension (PAH), and some types of cancers. However, the underlying mechanisms are not fully understood. Escape from XCI and skewed XCI also contributes to sex-biased diseases and their severity. Interestingly, in humans, similar to experimental animal models of human disease, the males with the XIST gene activated display the sex-biased disease condition at a rate close to females, and significantly greater than males who had not been genetically modified. For instance, the men with supernumerary X chromosomes, such as men with Klinefelter syndrome (47, XXY), are predisposed toward autoimmunity similar to females (46, XX), and have increased risk for strongly female biased diseases, compared to 46, XY males. Interestingly, chromosome X content has been linked to a longer life span, and the presence of two chromosome X contributes to increased longevity regardless of the hormonal status. In this review, we summarize recent knowledge about XIST structure/function correlation and involvement in human disease with focus on XIST abnormal expression in males. Plain language summary: Many human diseases show differences between males and females in penetrance, presentation, progression, and survival. In humans, the X and Y sex chromosomes determine the biological sex, XX specifying for females and XY for males. This numeric imbalance, two X chromosomes in females and only one in males, known as sex chromosome dosage inequality, is corrected in the first days of embryonic development by inactivating one of the X chromosomes in females. While this "dosage compensation" should in theory solve the difference in the number of genes between sexes, the expressed doses of X genes are incompletely compensated by X chromosome inactivation in females. In this review we try to highlight how abnormal expression and function of XIST, a gene on the X chromosome responsible for this inactivation process, may explain the sex differences in human health and disease. A better understanding of the molecular mechanisms of XIST participation in the male-female differences in disease is highly relevant since it would allow for improving the personalization of diagnosis and sex-specific treatment of patients. Highlights: For years, it was believed that XIST can be expressed only from the Xi and considered a typically female-specific transcript. Accumulating evidence indicates that XIST can also be detected in male cells. The aberrant expression of XIST is involved in the development of human diseases by regulation of gene expression at epigenetic, chromatin remodeling, transcriptional, and translational levels. Experimental animal models of human disease demonstrate that the males with the Xist gene activated display the sex-biased disease condition at a rate close to females, and significantly greater than males who had not been genetically modified. Likewise, in human, the men with supernumerary X chromosomes are predisposed toward autoimmunity like females and have increased risk for strongly female-biased diseases or compared to normal males. Chromosome X content has been linked to a longer life span, and the presence of two chromosome X contributes to increased longevity regardless of the hormonal status. [ABSTRACT FROM AUTHOR]

Published

2024

8. Sex determination in bryophytes: current state of the art.

Author

Božović, Djordje, Li, Mingai, Sabovljević, Aneta D, Sabovljević, Marko S, and Varotto, Claudio

Abstract

With the advent of genomic and other omics technologies, the last decades have witnessed a series of steady and important breakthroughs in the understanding of genetic determinants of different reproductive systems in vascular plants and especially on how sexual reproduction shaped their evolution. In contrast, the molecular mechanisms of these fundamental aspects of the biology of bryophytes, a group of non-vascular embryophyte plants sister to all tracheophytes, are still largely obscure. The recent characterization of the sex chromosomes and genetic switches determining sex in bryophytes and emerging approaches for molecular sexing of gametophytes hold great promise for elucidation of the evolutionary history as well as the conservation of this species-rich but understudied group of land plants. [ABSTRACT FROM AUTHOR]

Published

2024

9. Roadmap and Considerations for Genome Editing in a Non-Model Organism: Genetic Variations and Off-Target Profiling.

Author

Wattad, Hanin, Molcho, Jonathan, Manor, Rivka, Weil, Simy, Aflalo, Eliahu D., Chalifa-Caspi, Vered, and Sagi, Amir

Abstract

The CRISPR/Cas genome editing approach in non-model organisms poses challenges that remain to be resolved. Here, we demonstrated a generalized roadmap for a de novo genome annotation approach applied to the non-model organism Macrobrachium rosenbergii. We also addressed the typical genome editing challenges arising from genetic variations, such as a high frequency of single nucleotide polymorphisms, differences in sex chromosomes, and repetitive sequences that can lead to off-target events. For the genome editing of M. rosenbergii, our laboratory recently adapted the CRISPR/Cas genome editing approach to embryos and the embryonic primary cell culture. In this continuation study, an annotation pipeline was trained to predict the gene models by leveraging the available genomic, transcriptomic, and proteomic data, and enabling accurate gene prediction and guide design for knock-outs. A next-generation sequencing analysis demonstrated a high frequency of genetic variations in genes on both autosomal and sex chromosomes, which have been shown to affect the accuracy of editing analyses. To enable future applications based on the CRISPR/Cas tool in non-model organisms, we also verified the reliability of editing efficiency and tracked off-target frequencies. Despite the lack of comprehensive information on non-model organisms, this study provides an example of the feasibility of selecting and editing specific genes with a high degree of certainty. [ABSTRACT FROM AUTHOR]

Published

2024

10. Current Diagnostic Approaches in the Genetic Diagnosis of Disorders of Sex Development.

Author

Kızılay, Deniz Özalp and Özen, Samim

Subjects

*SEX differentiation disorders, *SEX preselection, *SEX chromosomes, *COST effectiveness, *POLYMERASE chain reaction, *PATIENT-family relations, *GENE mapping, *KARYOTYPES, *GENES, *FLUORESCENCE in situ hybridization, *MICROARRAY technology, *NUCLEIC acid hybridization, *GENETIC techniques, *GENETIC testing, *HEALTH care teams, *MOLECULAR diagnosis, *SEQUENCE analysis, *SINGLE nucleotide polymorphisms, *PSYCHOLOGY of the sick

Abstract

Disorders of sex development (DSD) are a clinically and genetically highly heterogeneous group of congenital disorders. The most accurate and rapid diagnosis may be possible with a complementary multidisciplinary diagnostic approach, including comprehensive clinical, hormonal, and genetic investigations. Rapid and accurate diagnosis of DSD requires urgency in terms of gender selection and management of the case. Despite the genetic tests performed in current daily practice, the genetic cause is still not elucidated in a significant proportion of cases. Karyotype analysis can be used as a standard for sex chromosome identification. In addition, quantitative fluorescent-polymerase chain reaction or fluorescence in situ hybridization analysis can be used for faster and more cost-effective detection of the sex chromosome and SRY gene. Multiplex ligation-dependent probe amplification, single-gene sequence analysis, next-generation sequence analysis (NGSA), targeted NGSA, whole-exome sequencing, and whole-genome sequencing analyses can be performed according to preliminary diagnoses. Microarray analysis, including array comparative genomic hybridization and single nucleotide polymorphism array, should be performed in cases with syndromic findings and if no pathology is detected with other tests. In DSD cases, the use of optical genome mapping and techniques, which will probably be in daily practice in the near future, may be considered. In conclusion, the clinical and genetic diagnosis of DSD is difficult, and molecular genetic diagnosis is often not available. This has psychosocial and health implications for patients and their families. New genetic techniques, especially those targeting the whole genome, may provide a better understanding of DSD through the identification of little-known genetic causes. This review focuses on conventional genetic and next-generation genetic techniques used in the genetic diagnosis of DSD, as well as possible genetic diagnostic techniques and approaches that may be used in routine practice in the near future. [ABSTRACT FROM AUTHOR]

Published

2024

11. Prenatal cell-free DNA screening for chromosomal aneuploidies after euploid embryo transfer shows high concordance with preimplantation genetic testing for aneuploidy results and low positive predictive values.

Author

Madjunkov, Mitko, Sharma, Prati, Baratz, Ari, Glass, Karen, Abramov, Rina, Logan, Nicole, Madjunkova, Svetlana, and Librach, Clifford

Subjects

*SEX chromosomes, *GENETIC testing, *CELL-free DNA, *EMBRYO transfer, *MEDICAL screening, *MULTIPLE pregnancy

Abstract

To evaluate the positive predictive value (PPV) of prenatal cell-free DNA (cfDNA) screening for chromosomal aneuploidies in pregnancies achieved either after single euploid transfer in in vitro fertilization or Preimplantation Genetic Testing for Aneuploidy (PGT-A) cycles or transfer of single untested embryo, and to assess the concordance of prenatal-cfDNA-screening and PGT-A results. Single center retrospective cohort study. Fertility clinic. A total of 2,973 prenatal-cfDNA-screening results for the most common trisomies (T13, T18, T21, X, and Y) and microdeletions (1p36, 4p16.3, 5p15.2, 15q11.2, and 22q11.2) from singleton pregnancies allocated into two groups: PGT-A group (n = 1,204) pregnant after single euploid transfer and non-PGT-A group (n = 1769) pregnant after transfer of single untested embryo, between 2016 and 2023. Not applicable. The primary outcome measure was the accuracy of prenatal-cfDNA screening. Positive and negative prenatal-cfDNA-screening results and subsequent prenatal or postnatal diagnostic testing were used to classify each positive prenatal-cfDNA-screening result as a true or a false positive. Secondary endpoints were to evaluate the concordance of PGT-A and prenatal-cfDNA-screening results and to assess the differences in the fetal fraction of cfDNA used for prenatal-cfDNA-screening reports between the study groups. Prenatal-cfDNA screening was performed at a mean 11.3 ± 1.8 weeks gestational age, and yielded results in 99.9% of the patients (0.1% cancellation rate). There was no difference in the fetal fraction between PGT-A tested and not tested pregnancies (9.5% ± 4% vs. 10.3% ± 4%). 13 positive prenatal-cfDNA-screening results (two T21, two X0, four XXX, one XYY, one indeterminate sex, two 22q11 del/dup, and one 15q11.2del) were received for PGT-A group. Only one (22q11 dup) was confirmed with amniocentesis and fetal autopsy, giving a PPV for an abnormal prenatal-cfDNA screening of 7.7%, the rest had results concordant with PGT-A. Sex chromosomes were 100% concordant between prenatal-cfDNA-screening and PGT-A results, giving a 100% PPV for PGT-A for sex chromosomes and 100% negative predictive value for aneuploidies. Positive prenatal-cfDNA-screening results were received for 27 pregnancies from untested embryos (1.5%), follow-up testing was electively performed for 21, and 8 had confirmed the prenatal-cfDNA-screening result, giving a PPV for the non-PGT-A group of 38%. This study demonstrates that patients undergoing in vitro fertilization/PGT-A and single euploid embryo transfer can reliably do prenatal-cfDNA screening during their first trimester. Fetal fraction in singleton pregnancies after PGT-A tested embryos is not different from pregnancies with untested embryos. Positive predictive value for an abnormal prenatal-cfDNA-screening result after euploid embryo transfer was reassuringly low (7.7%). PGT-A reliably selects against aneuploidy with 100% concordance with fetal sex. [ABSTRACT FROM AUTHOR]

Published

2024

12. Sexual dimorphism of metabolic dysfunction-associated steatotic liver disease.

Author

Cherubini, Alessandro, Della Torre, Sara, Pelusi, Serena, and Valenti, Luca

Subjects

*FATTY liver, *ANTIANDROGENS, *SEX chromosomes, *LIVER diseases, *SEXUAL dimorphism

Abstract

Metabolic dysfunction–associated steatotic liver disease (MASLD) is the most common cause of chronic liver disease, affecting approximately one-fourth of adults worldwide, and is the leading cause of liver-related morbidity and mortality. MASLD is a sex-dimorphic disease, with a general higher prevalence in men. Women in fertile age exhibit a lower risk of MASLD than men. However, after menopause, their prevalence of MASLD becomes comparable to that of men. A complex interaction of gender-specific factors contributes to MASLD varying prevalence and severity. Sex is rarely considered as a biological variable in preclinical and clinical studies of MASLD. Metabolic dysfunction–associated steatotic liver disease (MASLD) is the most common chronic liver condition. MASLD is a sexually dimorphic condition, with its development and progression influenced by sex chromosomes and hormones. Estrogens typically protect against, whereas androgens promote, MASLD. Therapeutic approaches for a sex-specific personalized medicine include estrogen replacement, androgen blockers, and novel drugs targeting hormonal pathways. However, the interactions between hormonal factors and inherited genetic variation impacts MASLD risk, necessitating more tailored therapies. Understanding sex disparities and the role of estrogens could improve MASLD interventions and management, whereas clinical trials addressing sex differences are crucial for advancing personalized treatment. This review explores the underappreciated impact of sexual dimorphism in MASLD and discusses the potential therapeutic application of sex-related hormones. [ABSTRACT FROM AUTHOR]

Published

2024

13. Orthopteran Neo‐Sex Chromosomes Reveal Dynamics of Recombination Suppression and Evolution of Supergenes.

Author

Jayaprasad, Suvratha, Peona, Valentina, Ellerstrand, Simon J., Rossini, Roberto, Bunikis, Ignas, Pettersson, Olga V., Olsen, Remi‐André, Rubin, Carl‐Johan, Einarsdottir, Elisabet, Bonath, Franziska, Bradford, Tessa M., Cooper, Steven J. B., Hansson, Bengt, Suh, Alexander, Kawakami, Takeshi, Schielzeth, Holger, and Palacios‐Gimenez, Octavio M.

Subjects

*SEX chromosomes, *SEX determination, *CHROMOSOMAL rearrangement, *KARYOTYPES, *CHROMOSOMES, *Y chromosome

Abstract

The early evolution of sex chromosomes has remained obscure for more than a century. The Vandiemenella viatica species group of morabine grasshoppers is highly suited for studying the early stages of sex chromosome divergence and degeneration of the Y chromosome. This stems from the fact that neo‐XY sex chromosomes have independently evolved multiple times by X‐autosome fusions with different autosomes. Here, we generated new chromosome‐level assemblies for two chromosomal races representing karyotypes with and without neo‐sex chromosomes (P24XY and P24X0), and sequence data of a third chromosomal race with a different neo‐XY chromosome system (P25XY). Interestingly, these two neo‐XY chromosomal races are formed by different X‐autosome fusions (involving chr1 and chrB, respectively), and we found that both neo‐Y chromosomes have partly ceased to recombine with their neo‐X counterpart. We show that the neo‐XY chromosomes have diverged through accumulation of SNPs and structural mutations, and that many neo‐Y‐linked genes have degenerated since recombination ceased. However, the non‐recombining regions of neo‐Y chromosomes host non‐degenerated genes crucial for sex determination, such as sex‐lethal and transformer, alongside genes associated with spermatogenesis, fertility, and reproduction, illustrating their integrative role as a masculinizing supergene. Contrary to expectations, the neo‐Y chromosomes showed (slightly) lower density of transposable elements (TEs) compared to other genomic regions. The study reveals the unique dynamics of young sex chromosomes, with evolution of recombination suppression and pronounced decay of (some) neo‐sex chromosome genes, and provides a compelling case illustrating how chromosomal fusions and post‐fusion mutational processes contribute to the evolution of supergenes. [ABSTRACT FROM AUTHOR]

Published

2024

14. Yes, polygenic sex determination is a thing!

Author

Kocher, Thomas D., Meisel, Richard P., Gamble, Tony, Behrens, Kristen A., and Gammerdinger, William J.

Subjects

*SEX determination, *SEX chromosomes, *ANIMAL development, *GENETIC variation, *STATISTICAL power analysis, *GENETIC sex determination

Abstract

In many species, the process of sex determination responds to a combination of environmental and genetic factors. 'Master sex determiners' is an outdated and inaccurate description of the structure of developmental regulation. Additive effects of several genes do not produce unfit intersex individuals, because continuous genetic variation is channeled into discrete phenotypes via thresholds or switches in developmental processes. Polygenic sex determination (PSD) has been identified in numerous species and can persist for long evolutionary periods. The true extent of PSD has likely been underestimated due to bias in the experimental methods that have been used to identify genes affecting sexual development. Population genetic theory shows that systems of PSD can be evolutionarily stable. The process of sexual development in animals is modulated by a variety of mechanisms. Some species respond to environmental cues, while, in others, sex determination is thought to be controlled by a single 'master regulator' gene. However, many animals respond to a combination of environmental cues (e.g., temperature) and genetic factors (e.g., sex chromosomes). Even among species in which genetic factors predominate, there is a continuum between monofactorial and polygenic systems. The perception that polygenic systems are rare may result from experiments that lack the statistical power to detect multiple loci. Intellectual biases against the existence of polygenic sex determination (PSD) may further arise from misconceptions about the regulation of developmental processes and a misreading of theoretical results on the stability of polygenic systems of sex determination. [ABSTRACT FROM AUTHOR]

Published

2024

15. N31T Sex Differences in Epilepsies: A Narrative Review.

Author

Asadi-Pooya, Ali A., Alkhaldi, Modhi, Damabi, Nafiseh Mirzaei, and Dehkordi, Khatereh Fazelian

Subjects

*TREATMENT of epilepsy, *SEX hormones, *SEX chromosomes, *SEX distribution, *STATUS epilepticus, *DISEASE prevalence, *NEUROBIOLOGY, *GENES, *EPILEPSY, *SEIZURES (Medicine), *DRUGS, *NEUROTRANSMITTERS, *SYMPTOMS

Abstract

Epilepsy affects people of all ages and sexes. The aim of the current narrative review was to summarize the sex differences in patients with epilepsy. In January 2024, we systematically searched PubMed for relevant articles. The following keywords were used: "Epilepsy" or "Seizure" and "Sex". The prevalence and symptomatology of many neurological conditions, including epilepsy syndromes, may differ between male and female patients. The reasons behind these sex differences are not yet clear. It is likely that sex hormones, neurosteroid, and sex chromosome gene differences play roles in the development of this phenomenon. The existence of sex differences in epilepsy is well recognized, but there is little discussion of their mechanisms and therapeutic implications. Future research should investigate the exact roles of sex hormones, neurosteroid, and genes in the development of sex differences in epilepsy. Similarly, future studies should investigate whether sex differences exist in seizure characteristics (e.g., seizure frequency, semiology, response to treatment, outcome) in different syndromes. These issues may have important clinical implications for designing appropriate sex-specific treatment strategies for various syndromes and conditions. Furthermore, sex should be considered as a biological variable in basic and clinical research. [ABSTRACT FROM AUTHOR]

Published

2024

16. The role of conflict in the formation and maintenance of variant sex chromosome systems in mammals.

Author

Hughes, Jonathan J, Lagunas-Robles, German, and Campbell, Polly

Subjects

*MEIOTIC drive, *KARYOTYPES, *TESTIS, *MAMMALS, *SEX chromosomes, *Y chromosome, *GENOMES

Abstract

The XX/XY sex chromosome system is deeply conserved in therian mammals, as is the role of Sry in testis determination, giving the impression of stasis relative to other taxa. However, the long tradition of cytogenetic studies in mammals documents sex chromosome karyotypes that break this norm in myriad ways, ranging from fusions between sex chromosomes and autosomes to Y chromosome loss. Evolutionary conflict, in the form of sexual antagonism or meiotic drive, is the primary predicted driver of sex chromosome transformation and turnover. Yet conflict-based hypotheses are less considered in mammals, perhaps because of the perceived stability of the sex chromosome system. To address this gap, we catalog and characterize all described sex chromosome variants in mammals, test for family-specific rates of accumulation, and consider the role of conflict between the sexes or within the genome in the evolution of these systems. We identify 152 species with sex chromosomes that differ from the ancestral state and find evidence for different rates of ancestral to derived transitions among families. Sex chromosome-autosome fusions account for 79% of all variants whereas documented sex chromosome fissions are limited to three species. We propose that meiotic drive and drive suppression provide viable explanations for the evolution of many of these variant systems, particularly those involving autosomal fusions. We highlight taxa particularly worthy of further study and provide experimental predictions for testing the role of conflict and its alternatives in generating observed sex chromosome diversity. [ABSTRACT FROM AUTHOR]

Published

2024

17. Supernumerary Chromosomes Enhance Karyotypic Diversification of Narrow‐Headed Voles of the Subgenus Stenocranius (Rodentia, Mammalia).

Author

Pavlova, Svetlana V., Romanenko, Svetlana A., Matveevsky, Sergey N., Kuksin, Aleksander N., Dvoyashov, Ivan A., Kovalskaya, Yulia M., Proskuryakova, Anastasiya A., Serdyukova, Natalia A., and Petrova, Tatyana V.

Subjects

SEX chromosomes, CHROMOSOMES, KARYOTYPES, POLYMORPHISM (Zoology), VOLES

Abstract

The subgenus Stenocranius contains two cryptic species: Lasiopodomys gregalis (subdivided into three allopatrically distributed and genetically well‐isolated lineages A, B, and C) and Lasiopodomys raddei. To identify karyotype characteristics of this poorly studied cryptic species complex, we used comparative cytogenetic analysis of 138 individuals from 41 localities in South Siberia and Mongolia. A detailed description of the L. raddei karyotype and of the L. gregalis lineage С karyotype is presented for the first time. The A chromosome complement of all examined narrow‐headed voles consisted of 2n = 36 and a fundamental number of autosomal arms (FNa) of 50. Between species, patterns of differential staining were similar, though additional C‐heterochromatic blocks were found in L. gregalis lineages; Ag‐positive nucleolar organizers and ribosomal DNA (rDNA) clusters are located on eight and nine acrocentric pairs, respectively. No B chromosomes (Bs) were found in the Early Pleistocene relic L. raddei, while one to five small heterochromatic acrocentric Bs were detected in all L. gregalis lineages; the number and frequency of Bs varied considerably within lineages, but no intraindividual variation was observed. In both species, telomeric repeats were visualized at termini of all chromosomes, including Bs. The number and localization of rDNA clusters on Bs varied among B‐carriers. Immunodetection of several meiotic proteins indicated that meio‐Bs are transcriptionally inactive and have a pattern of meiotic behavior similar to that of sex chromosomes (some homology of Bs to sex chromosomes is supposed). The nature, mechanisms of inheritance and stability of Bs in L. gregalis require further investigation. [ABSTRACT FROM AUTHOR]

Published

2024

18. A case of double aneuploidy of Down and Klinefelter syndrome in an Indian infant: a detailed case report.

Author

Patel, Sunny Kumar Jignesh Kumar, Sheikh, Shagufa, and Banerjee, Birendranath

Subjects

*SEX chromosomes, *CHROMOSOME abnormalities, *KLINEFELTER'S syndrome, *DOWN syndrome, *ANEUPLOIDY, *LIPS

Abstract

Background: A variation in the number of chromosomes can lead to chromosomal disorders. These chromosomal aberrations might be related to autosomes or sex chromosomes. The most common chromosomal aberrations that are sex-linked and autosomal are Klinefelter syndrome and Down syndrome, respectively. However, the worldwide occurrence of double chromosomal aneuploidy in a single individual is relatively exceptional event and random meiotic nondisjunction events result in double aneuploidy, which causes trisomy of two distinct chromosomes. The clinical manifestations vary depending on whether aneuploidy is dominant or an amalgam of both. Moreover, double aneuploidy including autosome and sex chromosome is not often documented. In this paper, we document a case of Down–Klinefelter double aneuploidy syndrome in an Indian infant hospitalized to the neonatal care unit. Case presentation: A full-term 9-month-old male infant born to a 36-year-old female with classical clinical signs of Down syndrome like epicanthus, a depressed nasal bridge, a flat face, small ears, an open mouth, thick lower lip vermilion, a protruding tongue, and a short neck was referred for cytogenetic examination, revealing a rare karyotype of 48, XXY, + 21. Conclusion: Down–Klinefelter syndrome is a rare chromosomal anomaly with unique characteristics, often displaying only Down syndrome-like traits at birth. Early diagnosis can be challenging due to the lack of noticeable symptoms until puberty. Early cytogenetic investigation can detect double aneuploidy, improving the affected person's quality of life and educating family members about potential medical and psychosocial difficulties. [ABSTRACT FROM AUTHOR]

Published

2024

19. Whole-genome DNA methylomes of tree shrew brains reveal conserved and divergent roles of DNA methylation on sex chromosome regulation.

Author

Son, Dongmin R., Kong, Yifan, Tan, Yulian, Hu, Ting, Shi, Lei, and Yi, Soojin V.

Subjects

*GENETIC regulation, *DNA methylation, *SEX chromosomes, *GENE expression, *X chromosome, *GENE silencing, *EPIGENOMICS

Abstract

Background: The tree shrew (Tupaia belangeri) is a promising emerging model organism in biomedical studies, notably due to their evolutionary proximity to primates. To enhance our understanding of how DNA methylation is implicated in regulation of gene expression and the X chromosome inactivation (XCI) in tree shrew brains, here we present their first genome-wide, single-base-resolution methylomes integrated with transcriptomes from prefrontal cortices. Results: Genome-wide relationships between DNA methylation and gene expression are consistent with those in other mammals. Interestingly, we observed a clear and significant global reduction (hypomethylation) of DNA methylation across the entire female X chromosome compared to male X. Female hypomethylation does not directly contribute to the gene silencing of the inactivated X chromosome nor does it significantly drive sex-specific gene expression in tree shrews. However, we identified a putative regulatory region in the 5′ end of the X-inactive-specific transcript (Xist) gene, whose pattern of differential DNA methylation strongly relate to its sex-differential expression in tree shrews. Furthermore, differential methylation of this region is conserved across different species. We also provide evidence suggesting that the observed difference between human and tree shrew X-linked promoter methylation is associated with the difference in genomic CpG contents. Conclusions: Our study offers novel information on genomic DNA methylation of tree shrews as well as insights into the evolution of sex chromosome regulation in mammals. Specifically, we show conserved role of DNA methylation in regulation of Xist expression and propose genomic CpG contents as a factor in driving sex-differential DNA methylation of X-linked promoters. [ABSTRACT FROM AUTHOR]

Published

2024

20. ARID1A governs the silencing of sex-linked transcription during male meiosis in the mouse.

Author

Menon, Debashish U., Chakraborty, Prabuddha, Murcia, Noel, and Magnuson, Terry

Subjects

*Y chromosome, *SEX chromosomes, *RNA polymerase II, *GENETIC regulation, *CHROMATIDS

Abstract

We present evidence implicating the BAF (BRG1/BRM Associated Factor) chromatin remodeler in meiotic sex chromosome inactivation (MSCI). By immunofluorescence (IF), the putative BAF DNA binding subunit, ARID1A (AT-rich Interaction Domain 1 a), appeared enriched on the male sex chromosomes during diplonema of meiosis I. Germ cells showing a Cre-induced loss of ARID1A arrested in pachynema and failed to repress sex-linked genes, indicating a defective MSCI. Mutant sex chromosomes displayed an abnormal presence of elongating RNA polymerase II coupled with an overall increase in chromatin accessibility detectable by ATAC-seq. We identified a role for ARID1A in promoting the preferential enrichment of the histone variant, H3.3, on the sex chromosomes, a known hallmark of MSCI. Without ARID1A, the sex chromosomes appeared depleted of H3.3 at levels resembling autosomes. Higher resolution analyses by CUT & RUN revealed shifts in sex-linked H3.3 associations from discrete intergenic sites and broader gene-body domains to promoters in response to the loss of ARID1A. Several sex-linked sites displayed ectopic H3.3 occupancy that did not co-localize with DMC1 (DNA meiotic recombinase 1). This observation suggests a requirement for ARID1A in DMC1 localization to the asynapsed sex chromatids. We conclude that ARID1A-directed H3.3 localization influences meiotic sex chromosome gene regulation and DNA repair. [ABSTRACT FROM AUTHOR]

Published

2024

21. Sex and neo-sex chromosome evolution in beetles.

Author

Bracewell, Ryan, Tran, Anita, Chatla, Kamalakar, and Bachtrog, Doris

Subjects

*Y chromosome, *SEX determination, *GENDER identity, *SEX chromosomes, *CHROMOSOMES, *KARYOTYPES, *X chromosome

Abstract

Beetles are the most species-rich group of animals and harbor diverse karyotypes. Most species have XY sex chromosomes, but X0 sex determination mechanisms are also common in some groups. We generated a whole-chromosome assembly of Tribolium confusum, which has a neo-sex chromosome, and utilize eleven additional beetle genomes to reconstruct karyotype evolution across Coleoptera. We identify ancestral linkage groups, termed Stevens elements, that share a conserved set of genes across beetles. While the ancestral X chromosome is maintained across beetles, we find independent additions of autosomes to the ancestral sex chromosomes. These neo-sex chromosomes evolve the stereotypical properties of sex chromosomes, including the evolution of dosage compensation and a non-random distribution of genes with sex-biased expression. Beetles thus provide a novel model to gain a better understanding of the diverse forces driving sex chromosome evolution. Author summary: The evolution of differentiated sex chromosomes (e.g., X and Y chromosomes in male heterogametic species) from ordinary autosomes has occurred many times in animals and plants. Investigation of sex chromosomes in key model species (such as mammals, birds, flies and worms) has revealed that sex chromosome evolution is driven by both general and lineage-specific forces, but a detailed investigation and understanding of sex chromosomes from many clades is lacking. Importantly, cytogenetic studies in beetles–the most species-rich group of animals—have shown that chromosomal sex determination is conserved across Coleoptera. However, the identity and conservation of sex chromosomes in beetles at the molecular level and the evolutionary processes shaping them have not been studied in a systematic way. We use genomic approaches to understand karyotype and sex chromosome evolution across Coleoptera to establish general principles underlying the evolution of sex chromosomes in the most speciose group of animals on earth. [ABSTRACT FROM AUTHOR]

Published

2024

22. Characterization of the sex determining region and development of a molecular sex identification method in a Salangid fish.

Author

Yang, Hao, Li, Yu-Long, Xing, Teng-Fei, and Liu, Jin-Xian

Subjects

*SEX determination, *SEX (Biology), *DIAGNOSTIC sex determination, *SEX chromosomes, *CYTOCHROME P-450, *GENETIC sex determination

Abstract

Background: The short-snout icefish, Neosalanx brevirostris, a member of the Salangidae family, is an economically important fishery species in China. Understanding the mechanisms underlying sex determination in this species has crucial implications for conservation, ecology and evolution. Meanwhile, there is a shortage of rapid and cost-effective genetic methods for sex identification, which poses challenges in identifying the sex of immature individuals in sex determination mechanism studies and aquaculture breeding applications. Results: Based on whole genome resequencing data, sex-specific loci and regions were found to be concentrated in a region on chromosome 2. All sex-specific loci exhibited excess heterozygosity in females and complete homozygosity in males. This sex determining region contains seven genes, including cytochrome P450 aromatase CYP19B, which is involved in steroidogenesis and is associated with 24 sex-specific loci and two W-deletions. A haploid female-specific sequence was identified as paralogous to a diploid sequence with a significant length difference, making it suitable for rapid and cost-effective genetic sex identification by traditional PCR and agarose gel electrophoresis, which were further validated in 24 females and 24 males with known phenotypic sexes. Conclusions: Our results confirm that N.brevirostris exhibits a female heterogametic sex determination system (ZZ/ZW), with chromosome 2 identified as the putative sex chromosome containing a relatively small sex determining region (~ 48 Kb). The gene CYP19B is proposed as a candidate sex determining gene. Moreover, the development of PCR based method enables genetic sex identification at any developmental stage, thereby facilitating further studies on sex determination mechanisms and advancing aquaculture breeding applications for this species. [ABSTRACT FROM AUTHOR]

Published

2024

23. Investigation of sex determination in starry flounder (Platichthys stellatus) reveals sex chromosome evolution in Pleuronectiformes and identifies a sex-specific marker.

Author

Wei-Jing Li, Yu-Man Zhang, Shuo Li, Yu-Yan Liu, Chen Li, Sheng-Lei Han, Kai-Qiang Liu, Doretto, Lucas Benites, Bing-Hua Liu, Hai-Jun Huang, Zhi-Long Sun, Qian Wang, Hong-Yan Wang, and Chang-Wei Shao

Subjects

SEX determination, CHROMOSOMAL rearrangement, DIAGNOSTIC sex determination, SEXUAL dimorphism, KARYOTYPES, CHROMOSOME inversions, SEX chromosomes

Abstract

The identification of sex chromosomes is fundamental for exploring the mechanism and evolution of sex determination. Platichthys stellatus, a species exhibiting clear sexual dimorphism and homomorphic chromosome pairs, has received limited research concerning its sex determination mechanisms. Clarifying the sex chromosome of P. stellatus will enhance our understanding of sex chromosome evolution in Pleuronectiformes. This study employed whole-genome resequencing to investigate the sex chromosome and sex determination system in P. stellatus. Notably, Chr23 was identified as the sex chromosome in P. stellatus, with the sex-determining region (SDR) occupying 48.1% of the chromosome and featuring an XX/XY system. Sex chromosome turnover was observed within Pleuronectiformes, with P. stellatus, Verasper variegatus, and Hippoglossus hippoglossus sharing a common ancestral karyotype. No inversions were detected within the SDR of P. stellatus, although chromosomal rearrangements between sex chromosomes and autosomes were identified. Additionally, a sex-specific marker for P. stellatus was ascertained, enabling genetic sex identification, with significant implications for improving breeding programs and aquaculture practices. [ABSTRACT FROM AUTHOR]

Published

2024

24. Reproductive hormones and sex chromosomes drive sex differences in the sleep–wake cycle.

Author

Ralston, Micah, Ehlen, J. Christopher, and Paul, Ketema

Subjects

SLEEP duration, SEX chromosomes, SLEEP, SEX hormones, SUPRACHIASMATIC nucleus

Abstract

There are well-documented gender differences in the risk and severity of sleep disorders and associated comorbidities. While fundamental sex differences in sleep regulatory mechanisms may contribute to gender disparities, biological responses to sleep loss and stress may underlie many of the risks for sleep disorders in women and men. Some of these sex differences appear to be dependent on sex chromosome complement (XX or XY) and the organizational effects of reproductive hormones. Reproductive development plays a critical role in the ability of sex chromosomes and reproductive hormones to produce sex differences in sleep and wakefulness. Rodent models reveal that reproductive hormones drive many but not all sex differences in sleep–wake architecture. The ability of reproductive hormones to alter sleep are often dependent on responses to sleep loss and stress. However, in the absence of reproductive hormones (in gonadectomized rodents) sex differences in sleep amount and the ability to recover from sleep loss persist. The suprachiasmatic nucleus (SCN) and the ventrolateral preoptic nucleus (VLPO) of the hypothalamus play crucial regulatory roles in mediating the effects of reproductive hormones on the sleep–wake cycle. Taken together, the work reviewed here reveals that the reproductive hormone environment and sex chromosome complement may underlie gender disparities in sleep patterns and the risk for sleep disorders. [ABSTRACT FROM AUTHOR]

Published

2024

25. Where is the boundary of the human pseudoautosomal region?

Author

Bellott, Daniel W., Hughes, Jennifer F., Skaletsky, Helen, Owen, Erik C., and Page, David C.

Subjects

*X chromosome, *SEX chromosomes, *COMPARATIVE genomics, *HUMAN genome, *POLYMORPHISM (Zoology), *Y chromosome

Abstract

A recent publication describing the assembly of the Y chromosomes of 43 males was remarkable not only for its ambitious technical scope but also for the startling suggestion that the boundary of the pseudoautosomal region 1 (PAR1), where the human X and Y chromosomes engage in crossing-over during male meiosis, lies 500 kb distal to its previously reported location. Where is the boundary of the human PAR1? We first review the evidence that mapped the PAR boundary, or PAB, before the human genome draft sequence was produced, then examine post-genomic datasets for evidence of crossing-over between the X and Y, and lastly re-examine contiguous sequence assemblies of the PAR-NPY boundary to see whether they support a more distal PAB. We find ample evidence of X-Y crossovers throughout the 500 kb in question, some as close as 246 bp to the previously reported PAB. Our new analyses, combined with previous studies over the past 40 years, provide overwhelming evidence to support the original position and narrow the probable location of the PAB to a 201-bp window. [Display omitted] Controversy has arisen regarding a landmark on the human sex chromosomes—the pseudoautosomal boundary—with recent analyses suggesting a location 500 kb distal to that reported in 1989. Our multifaceted analyses of the available data consistently validate the original position, narrowing the location of the boundary to a 201-bp window. [ABSTRACT FROM AUTHOR]

Published

2024

26. 3D chromatin maps of a brown alga reveal U/V sex chromosome spatial organization.

Author

Liu, Pengfei, Vigneau, Jeromine, Craig, Rory J., Barrera-Redondo, Josué, Avdievich, Elena, Martinho, Claudia, Borg, Michael, Haas, Fabian B., Liu, Chang, and Coelho, Susana M.

Subjects

SEX chromosomes, SEX determination, GENETIC regulation, POST-translational modification, CHROMATIN, CENTROMERE, HISTONES

Abstract

Nuclear three dimensional (3D) folding of chromatin structure has been linked to gene expression regulation and correct developmental programs, but little is known about the 3D architecture of sex chromosomes within the nucleus, and how that impacts their role in sex determination. Here, we determine the sex-specific 3D organization of the model brown alga Ectocarpus chromosomes at 2 kb resolution, by mapping long-range chromosomal interactions using Hi-C coupled with Oxford Nanopore long reads. We report that Ectocarpus interphase chromatin exhibits a non-Rabl conformation, with strong contacts among telomeres and among centromeres, which feature centromere-specific LTR retrotransposons. The Ectocarpus chromosomes do not contain large local interactive domains that resemble TADs described in animals, but their 3D genome organization is largely shaped by post-translational modifications of histone proteins. We show that the sex determining region (SDR) within the U and V chromosomes are insulated and span the centromeres and we link sex-specific chromatin dynamics and gene expression levels to the 3D chromatin structure of the U and V chromosomes. Finally, we uncover the unique conformation of a large genomic region on chromosome 6 harboring an endogenous viral element, providing insights regarding the impact of a latent giant dsDNA virus on the host genome's 3D chromosomal folding. The 3D chromatin organisation of sex chromosomes within the nucleus remains elusive. This study determines the chromatin architecture of the brown alga Ectocarpus, linking sex-specific chromatin dynamics, histone modification and gene expression to the 3D structure of the U and V sex chromosomes. [ABSTRACT FROM AUTHOR]

Published

2024

27. Rapid chromosome evolution and acquisition of thermosensitive stochastic sex determination in nematode androdioecious hermaphrodites.

Author

Yoshida, Kohta, Witte, Hanh, Hatashima, Ryo, Sun, Simo, Kikuchi, Taisei, Röseler, Waltraud, and Sommer, Ralf J.

Subjects

SEX determination, TRANSCRIPTION factors, CAENORHABDITIS elegans, GENOMICS, CHROMOSOMES, GENETIC sex determination, SEX chromosomes, KARYOTYPES

Abstract

The factors contributing to evolution of androdioecy, the coexistence of hermaphrodites and males such as in Caenorhabditis elegans, remains poorly known. However, nematodes exhibit androdioecy in at last 13 genera with the predatory genus Pristionchus having seven independent transitions towards androdioecy. Nonetheless, associated genomic architecture and sex determination mechanisms are largely known from Caenorhabditis. Here, studying 47 Pristionchus species, we observed repeated chromosome evolution which abolished the ancestral XX/XO sex chromosome system. Two phylogenetically unrelated androdioecious Pristionchus species have no genomic differences between sexes and mating hermaphrodites with males resulted in hermaphroditic offspring only. We demonstrate that stochastic sex determination is influenced by temperature in P. mayeri and P. entomophagus, and CRISPR engineering indicated a conserved role of the transcription factor TRA-1 in P. mayeri. Chromosome-level genome assemblies and subsequent genomic analysis of related Pristionchus species revealed stochastic sex determination to be derived from XY sex chromosome systems through sex chromosome-autosome fusions. Thus, rapid karyotype evolution, sex chromosome evolution and evolvable sex determination mechanisms are general features of this genus, and represent a dynamic background against which androdioecy has evolved recurrently. Future studies might indicate that stochastic sex determination is more common than currently appreciated. Sexual systems evolve frequently in nematodes. Through large-scale genomic analyses, Yoshida et al. find rapid chromosome evolution, sex chromosome turnover and acquisition of stochastic sex determination, are involved in sexual system evolution of Pristionchus nematodes. [ABSTRACT FROM AUTHOR]

Published

2024

28. Increased Evolutionary Rate in the Z chromosome of Sympatric and Allopatric Species of Morpho Butterflies.

Author

Villavicencio, Manuela López, Ledamoisel, Joséphine, Poloni, Riccardo, Lopez-Roques, Céline, Debat, Vincent, and Llaurens, Violaine

Subjects

*SEX chromosomes, *CHROMOSOMAL rearrangement, *CLOCK genes, *GENOMICS, *SYMPATRIC speciation, *GENE flow

Abstract

Divergent evolution of genomes among closely related species is shaped by both neutral processes and ecological forces, such as local adaptation and reinforcement. These factors can drive accelerated evolution of sex chromosomes relative to autosomes. Comparative genomic analyses between allopatric and sympatric species with overlapping or divergent ecological niches offer insights into reinforcement and ecological specialization on genome evolution. In the butterfly genus Morpho , several species coexist in sympatry, with specialization across forest strata and temporal niches. We analyzed the genomes of eight Morpho species, along with previously published genomes of three others, to compare chromosomal rearrangements and signs of positive selection in the Z chromosome v s. autosomes. We found extensive chromosomal rearrangements in Z chromosome, particularly in sympatric species with similar ecological niches, suggesting a role for inversions in restricting gene flow at a postzygotic level. Z-linked genes also exhibited significantly higher dN/dS ratios than autosomal genes across the genus, with pronounced differences in closely related species living in sympatry. Additionally, we examined the evolution of eight circadian clock genes, detecting positive selection in Period, located on the Z chromosome. Our findings suggest that the Z chromosome evolves more rapidly than autosomes, particularly among closely related species, raising questions about its role in prezygotic and postzygotic isolation mechanisms. [ABSTRACT FROM AUTHOR]

Published

2024

29. Sexually selected differences in warbler plumage are related to a putative inversion on the Z chromosome.

Author

Dunn, Peter O., Sly, Nicholas D., Freeman‐Gallant, Corey R., Henschen, Amberleigh E., Bossu, Christen M., Ruegg, Kristen C., Minias, Piotr, and Whittingham, Linda A.

Subjects

*SEX chromosomes, *SEXUAL selection, *GENE flow, *CHROMOSOMES, *CHROMOSOME inversions, REPRODUCTIVE isolation

Abstract

Large structural variants in the genome, such as inversions, may play an important role in producing population structure and local adaptation to the environment through suppression of recombination. However, relatively few studies have linked inversions to phenotypic traits that are sexually selected and may play a role in reproductive isolation. Here, we found that geographic differences in the sexually selected plumage of a warbler, the common yellowthroat (Geothlypis trichas), are largely due to differences in the Z (sex) chromosome (males are ZZ), which contains at least one putative inversion spanning 40% (31/77 Mb) of its length. The inversions on the Z chromosome vary dramatically east and west of the Appalachian Mountains, which provides evidence of cryptic population structure within the range of the most widespread eastern subspecies (G. t. trichas). In an eastern (New York) and western (Wisconsin) population of this subspecies, female prefer different male ornaments; larger black facial masks are preferred in Wisconsin and larger yellow breasts are preferred in New York. The putative inversion also contains genes related to vision, which could influence mating preferences. Thus, structural variants on the Z chromosome are associated with geographic differences in male ornaments and female choice, which may provide a mechanism for maintaining different patterns of sexual selection in spite of gene flow between populations of the same subspecies. [ABSTRACT FROM AUTHOR]

Published

2024

30. Pan‐genome analysis of 13 Spinacia accessions reveals structural variations associated with sex chromosome evolution and domestication traits in spinach.

Author

She, Hongbing, Liu, Zhiyuan, Xu, Zhaosheng, Zhang, Helong, Wu, Jian, Cheng, Feng, Wang, Xiaowu, and Qian, Wei

Subjects

*Y chromosome, *SEX chromosomes, *GENETIC variation, *PLANT breeding, *GENE expression

Abstract

Summary: Structural variations (SVs) are major genetic variants that can be involved in the origin, adaptation and domestication of species. However, the identification and characterization of SVs in Spinacia species are rare due to the lack of a pan‐genome. Here, we report eight chromosome‐scale assemblies of cultivated spinach and its two wild species. After integration with five existing assemblies, we constructed a comprehensive Spinacia pan‐genome and identified 193 661 pan‐SVs, which were genotyped in 452 Spinacia accessions. Our pan‐SVs enabled genome‐wide association study identified signals associated with sex and clarified the evolutionary direction of spinach. Most sex‐linked SVs (86%) were biased to occur on the Y chromosome during the evolution of the sex‐linked region, resulting in reduced Y‐linked gene expression. The frequency of pan‐SVs among Spinacia accessions further illustrated the contribution of these SVs to domestication, such as bolting time and seed dormancy. Furthermore, compared with SNPs, pan‐SVs act as efficient variants in genomic selection (GS) because of their ability to capture missing heritability information and higher prediction accuracy. Overall, this study provides a valuable resource for spinach genomics and highlights the potential utility of pan‐SV in crop improvement and breeding programmes. [ABSTRACT FROM AUTHOR]

Published

2024

31. The male and female genomes of golden pompano (Trachinotus ovatus) provide insights into the sex chromosome evolution and rapid growth.

Author

Luo, Honglin, Zhang, Yongde, Liu, Fuyan, Zhao, Yongzhen, Peng, Jinxia, Xu, Yuhui, Chen, Xiuli, Huang, Yin, Ji, Changmian, Liu, Qingyun, He, Pingping, Feng, Pengfei, Yang, Chunling, Wei, Pinyuan, Ma, Zhenhua, Qin, Jianguang, Zhou, Shengjie, Dai, Shiming, Zhang, Yaoyao, and Zhao, Zhongquan

Subjects

*SEX determination, *GROWTH disorders, *CHROMOSOMES, *GENOMES, *LOCUS (Genetics), *GENETIC sex determination, *SEX chromosomes

Abstract

[Display omitted] • Chromosome level female and male genomes of golden pompano were assembled. • Both genomes are conserved and no highly differentiated sex chromosomes occur. • A 3.5 Mb sex-determining region on LG15 was identified based on QTL mapping. • Hsd17b1 , Micall2 and Lmx1a were identified as candidates for sex determination. • Three SNP loci and one gene gpsstr1 were significantly linked to growth traits. • Loss of sstr1a (homologue of gpsstr1) in zebrafish caused growth retardation. Golden pompano (Trachinotus ovatus) is economically significant important for offshore cage aquaculture in China and Southeast Asian countries. Lack of high-quality genomic data and accurate gene annotations greatly restricts its genetic breeding progress. To decode the mechanisms of sex determination and rapid growth in golden pompano and facilitate the sex- and growth-aimed genetic breeding. Genome assemblies of male and female golden pompano were generated using Illumina, PacBio, BioNano, genetic maps and Hi-C sequencing data. Genomic comparisons, whole genome re-sequencing of 202 F1 individuals, QTL mapping and gonadal transcriptomes were used to analyze the sex determining region, sex chromosome evolution, SNP loci, and growth candidate genes. Zebrafish model was used to investigate the functions of growth candidate gene. Female (644.45 Mb) and male (652.12 Mb) genomes of golden pompano were assembled and annotated at the chromosome level. Both genomes are highly conserved and no new or highly differentiated sex chromosomes occur. A 3.5 Mb sex determining region on LG15 was identified, where Hsd17b1 , Micall2 and Lmx1a were putative candidates for sex determination. Three SNP loci significantly linked to growth were pinpointed, and a growth-linked gene gpsstr1 was identified by locus BSNP1369 (G → C, 17489695, Chr23). Loss of sstr1a (homologue of gpsstr1) in zebrafish caused growth retardation. This study provides insights into sex chromosome evolution, sex determination and rapid growth of golden pompano. [ABSTRACT FROM AUTHOR]

Published

2024

32. Massive parallel sequencing-based non-invasive prenatal test (NIPT) identifies aberrations on chromosome 13.

Author

Sobol, Maria, Aravidis, Christos, Hessel, Hugo, Lindqvist, Anna, and Baranowska Körberg, Izabella

Subjects

*CHROMOSOME abnormalities, *SEX chromosomes, *CHROMOSOMAL rearrangement, *TRISOMY 13 syndrome, *PRENATAL diagnosis

Abstract

• Massive parallel sequencing-based NIPT has the capacity to identify aberrations beyond identification of common trisomies. • Complex structural rearrangements are not detected with NIPT as the algorithm is specific to copy gains or losses. • Low grade mosaicism of chromosome 13 has the possibility to be detected with NIPT by massive parallel sequencing. We report data of non-invasive prenatal testing (NIPT) at Uppsala University Hospital between 2017–2022. Furthermore, we illustrate the potential capacity of massive parallel sequencing-based NIPT beyond identification of common trisomies. Maternal blood samples were analyzed using the Verifi NIPT or VeriSeq NIPT assays. Diagnostic testing, performed on amniotic fluid samples, included QF-PCR, microarray (SNP-array) and metaphase FISH. Among 4532 NIPT tests performed between 2017–2022, 125 samples (2.76%) showed increased risk for trisomies 13, 18, 21 and sex chromosome aneuploidy. For three patients with normal NIPT result further microarray indicated other types of chromosomal rearrangement which were not analyzed by NIPT. For another patient (case 1) the Verifi NIPT indicated trisomy 13. Fetal fraction (FF) was estimated to be 10%. Confirmatory microarray detected a segmental duplication on chromosome 13, as well as a terminal duplication and a terminal deletion on chromosome 10. A complex karyotype was observed in the fetus with metaphase FISH. In the second case the VeriSeq NIPT indicated trisomy 13. FF was estimated to be 11%. Confirmatory microarray detected a mosaicism of trisomy 13 in 30 % of cells. This study illustrates detection of peculiar abnormalities of chromosome 13 and supports potential to screen copy number variations with genome-wide NIPT. [ABSTRACT FROM AUTHOR]

Published

2024

33. Out with the old, in with the new: Meiotic driving of sex chromosome evolution.

Author

Swanepoel, Callie M. and Mueller, Jacob L.

Subjects

*SEX chromosomes, *MEIOTIC drive, *GENE families

Abstract

Chromosomal regions with meiotic drivers exhibit biased transmission (> 50 %) over their competing homologous chromosomal region. These regions often have two prominent genetic features: suppressed meiotic crossing over and rapidly evolving multicopy gene families. Heteromorphic sex chromosomes (e.g., XY) often share these two genetic features with chromosomal regions exhibiting meiotic drive. Here, we discuss parallels between meiotic drive and sex chromosome evolution, how the divergence of heteromorphic sex chromosomes can be influenced by meiotic drive, experimental approaches to study meiotic drive on sex chromosomes, and meiotic drive in traditional and non-traditional model organisms with high-quality genome assemblies. The newly available diversity of high-quality sex chromosome sequences allows us to revisit conventional models of sex chromosome evolution through the lens of meiotic drive. [ABSTRACT FROM AUTHOR]

Published

2024

34. Aneuploidy and Pregnancy Loss in Humans.

Author

Raman, Rajiva

Subjects

SEX chromosomes, HUMAN reproduction, MISCARRIAGE, CHROMATIDS, MATERNAL age

Abstract

Pregnancy loss is a common and major problem in human reproduction. Its cause largely is chromosomal anomaly, especially aneuploidy. There is a significant gender difference in gamete production in humans. On average, one in four eggs produced by women is chromosomally abnormal, and the frequency of abnormal gametes increases sharply with age, especially in those aged 35 years or older. While a vast majority of embryos with aneuploidy aborts in utero, a small percentage (∼10%) is born live. These are the sex chromosomes (X and Y) and those with trisomy of the gene-poor chromosomes, viz., chromosomes 21, 18, and 13, though these too suffer from disabilities. The major causes of aneuploidy are non-disjunction, lack of recombination, premature separation of chromatids/kinetochores, and RS. These anomalies arise due to poor surveillance of the meiotic process as well as the loss of cohesion between chromosomes in female gametogenesis. [ABSTRACT FROM AUTHOR]

Published

2024

35. Development and evolution of Drosophila chromatin landscape in a 3D genome context.

Author

Ali, Mujahid, Younas, Lubna, Liu, Jing, He, Huangyi, Zhang, Xinpei, and Zhou, Qi

Subjects

SEX chromosomes, CHROMOSOMES, CHROMATIN, LANDSCAPE changes, DROSOPHILA, X chromosome

Abstract

Little is known about how the epigenomic states change during development and evolution in a 3D genome context. Here we use Drosophila pseudoobscura with complex turnover of sex chromosomes as a model to address this, by collecting massive epigenomic and Hi-C data from five developmental stages and three adult tissues. We reveal that over 60% of the genes and transposable elements (TE) exhibit at least one developmental transition of chromatin state. Transitions on specific but not housekeeping enhancers are associated with specific chromatin loops and topologically associated domain borders (TABs). While evolutionarily young TEs are generally silenced, old TEs more often have been domesticated as interacting TABs or specific enhancers. But on the recently evolved X chromosome, young TEs are instead often active and recruited as TABs, due to acquisition of dosage compensation. Overall we characterize how Drosophila epigenomic landscapes change during development and in response to chromosome evolution, and highlight the important roles of TEs in genome organization and regulation. Drosophila pseduoobscura is a fruitfly model in studying sex chromosome evolution and speciation. The authors use it to investigate how epigenetic status of genes, transposable elements and chromosomes change during development and evolution. [ABSTRACT FROM AUTHOR]

Published

2024

36. Wide Variability In Sex Chromosomes Of Some Ophidians From UT Of Jammu And Kashmir.

Author

Sharma, Jyoti, Kour, Gurpreet, and Kaith, Rahul

Subjects

Y chromosome, COBRAS, NATRIX natrix, CHROMOSOMES, SEX chromosomes, VIPERIDAE, COLUBRIDAE, SNAKES

Abstract

Cytogenetic studies were carried out on 11 species of Indian Snakes collected from Jammu region using Air Drying Technique of Gorman et al 1979. Among all E. johni and E. conicus belonging to primitive family Boidae exhibits diploid number, 2n=34 with undifferentiated sex chromosomes in both male and female. In family Colubridae (an intermediate family) there exist huge variation as far as sex chromosomes are concerned i.e Ptyas mucosus has 2n=34, Oligodon arnensis has 2n=44 with undifferentiated sex chromosomes, Lycodon arnensis and Boiga trigonata both have 2n=36 with differentiated sex chromosomes(as per literature) while Natrix stolata has 2n=36 with distinct 'ZW' female. In Family Elapidae Naja naja naja has 2n=38 with undifferentiated sex chromosomes but Bungarus caerulus has 2n=44 with 'ZW' female having submetacentric 'Z' and largest telocentric 'W' but members of family Viperidae viz. Vipera russelli and Echinis carinatus both have 2n=36 with well differentiated 'ZW' where 'W' is smaller and 'Z' larger representing final step in the evolution of sex chromosome. [ABSTRACT FROM AUTHOR]

Published

2024

37. Insights into avian molecular cytogenetics—with reptilian comparisons.

Author

Griffin, Darren K., Kretschmer, Rafael, Srikulnath, Kornsorn, Singchat, Worapong, O'Connor, Rebecca E., and Romanov, Michael N.

Subjects

*SEX determination, *GENE families, *SEX chromosomes, *CONDORS, *BIOCHEMISTRY

Abstract

In last 100 years or so, much information has been accumulated on avian karyology, genetics, physiology, biochemistry and evolution. The chicken genome project generated genomic resources used in comparative studies, elucidating fundamental evolutionary processes, much of it funded by the economic importance of domestic fowl (which are also excellent model species in many areas). Studying karyotypes and whole genome sequences revealed population processes, evolutionary biology, and genome function, uncovering the role of repetitive sequences, transposable elements and gene family expansion. Knowledge of the function of many genes and non-expressed or identified regulatory components is however still lacking. Birds (Aves) are diverse, have striking adaptations for flight, migration and survival and inhabit all continents most islands. They also have a unique karyotype with ~ 10 macrochromosomes and ~ 30 microchromosomes that are smaller than other reptiles. Classified into Palaeognathae and Neognathae they are evolutionarily close, and a subset of reptiles. Here we overview avian molecular cytogenetics with reptilian comparisons, shedding light on their karyotypes and genome structure features. We consider avian evolution, then avian (followed by reptilian) karyotypes and genomic features. We consider synteny disruptions, centromere repositioning, and repetitive elements before turning to comparative avian and reptilian genomics. In this context, we review comparative cytogenetics and genome mapping in birds as well as Z- and W-chromosomes and sex determination. Finally, we give examples of pivotal research areas in avian and reptilian cytogenomics, particularly physical mapping and map integration of sex chromosomal genes, comparative genomics of chicken, turkey and zebra finch, California condor cytogenomics as well as some peculiar cytogenetic and evolutionary examples. We conclude that comparative molecular studies and improving resources continually contribute to new approaches in population biology, developmental biology, physiology, disease ecology, systematics, evolution and phylogenetic systematics orientation. This also produces genetic mapping information for chromosomes active in rearrangements during the course of evolution. Further insights into mutation, selection and adaptation of vertebrate genomes will benefit from these studies including physical and online resources for the further elaboration of comparative genomics approaches for many fundamental biological questions. [ABSTRACT FROM AUTHOR]

Published

2024

38. Reconciling theories of dominance with the relative rates of adaptive substitution on sex chromosomes and autosomes.

Author

McDonough, Yasmine, Ruzicka, Filip, and Connallon, Tim

Subjects

*SEX chromosomes, *POPULATION genetics, *PREDICTION theory, *GEOMETRIC modeling, *PHENOTYPES

Abstract

The dominance of beneficial mutations is a key evolutionary parameter affecting the rate and genetic basis of adaptation, yet it is notoriously difficult to estimate. A leading method to infer it is to compare the relative rates of adaptive substitution for X-linked and autosomal genes, which--according to a classic model by Charlesworth et al. (1987)--is a simple function of the dominance of new beneficial mutations. Recent evidence that rates of adaptive substitution are faster for X-linked genes implies, accordingly, that beneficial mutations are usually recessive. However, this conclusion is incompatible with leading theories of dominance, which predict that beneficial mutations tend to be dominant or overdominant with respect to fitness. To address this incompatibility, we use Fisher's geometric model to predict the distribution of fitness effects of new mutations and the relative rates of positively selected substitution on the X and autosomes. Previous predictions of faster-X theory emerge as a special case of our model in which the phenotypic effects of mutations are small relative to the distance to the phenotypic optimum. But as mutational effects become large relative to the optimum, we observe an elevated tempo of positively selected substitutions on the X relative to the autosomes across a broader range of dominance conditions, including those predicted by theories of dominance. Our results imply that, contrary to previous models, dominant and overdominant beneficial mutations can plausibly generate patterns of faster-X adaptation. We discuss resulting implications for genomic studies of adaptation and inferences of dominance. [ABSTRACT FROM AUTHOR]

Published

2024

39. The first 2-year prospective audit of prenatal cell-free deoxyribonucleic screening using single nucleotide polymorphisms approach in a single academic laboratory.

Author

Panchalee, Tachjaree, Poungvarin, Naravat, Amornrit, Warisa, Yaiyiam, Chutima, and Wataganara, Tuangsit

Subjects

*SINGLE nucleotide polymorphisms, *CELL-free DNA, *SEX chromosomes, *COLLEGE laboratories, *HUMAN error

Abstract

We reported a performance during an implementation of prenatal cell-free (cf) DNA screening using single nucleotide polymorphism (SNP) approach in our accredited laboratory.Prospective audit with prompt intervention was set for the processing of 2,502 samples from singleton pregnancy from August 2017 to July 2019. Risks of trisomy 21 (T21), T18, T13, monosomy X (XO), and other sex chromosome aneuploidies (SCAs) were clarified by a proprietary bioinformatics algorithm.Laboratory failure occurred in 192 samples (7.7 %) as a result of inadequate sequencing (n=144), fundamental limitation of the testing (n=19), and obvious human error (n=29). Faulty setting of the calibration curve was the most common human error (n=22/29). After a redraw (n=110), 79 (71.8 %) were settled. Overall, 2,389/2,502 samples (95.5 %) were reportable. Thirty-five samples were high-risk for T21 (n=19), T18 (n=5), T13 (n=1), XO (n=3), and other SCAs (n=7), respectively. Positive predictive values calculated from either prenatal confirmatory tests or postnatal findings were 93.8 % (n=16), 100 % (n=4), 50 % (n=2), and 83.3 % (n=6) for T21, T18, XO, and other SCAs, respectively, with high sensitivity and specificity (>99.9 %). Vanishing twin was detected from 1 out of 4 samples with detected additional haplotypes.An overall performance of SNP-based prenatal cf-DNA screening during our initial implementation can be optimized with proactive approach. The technical know-how was a significant limiting factor for adopting the technology. The lessons learnt may be of interest to the academic laboratory considering adopting their own test instead of sending blood to a testing service of a supplier. [ABSTRACT FROM AUTHOR]

Published

2024

40. Evolution and expression patterns of the neo-sex chromosomes of the crested ibis.

Author

Xu, Lulu, Ren, Yandong, Wu, Jiahong, Cui, Tingting, Dong, Rong, Huang, Chen, Feng, Zhe, Zhang, Tianmin, Yang, Peng, Yuan, Jiaqing, Xu, Xiao, Liu, Jiao, Wang, Jinhong, Chen, Wu, Mi, Da, Irwin, David M., Yan, Yaping, Xu, Luohao, Yu, Xiaoping, and Li, Gang

Subjects

CHROMOSOME analysis, GENE expression, SEX determination, CHROMOSOMES, BIRD behavior, SEX chromosomes

Abstract

Bird sex chromosomes play a unique role in sex-determination, and affect the sexual morphology and behavior of bird species. Core waterbirds, a major clade of birds, share the common characteristics of being sexually monomorphic and having lower levels of inter-sexual conflict, yet their sex chromosome evolution remains poorly understood. Here, by we analyse of a chromosome-level assembly of a female crested ibis (Nipponia nippon), a typical core waterbird. We identify neo-sex chromosomes resulting from fusion of microchromosomes with ancient sex chromosomes. These fusion events likely occurred following the divergence of Threskiornithidae and Ardeidae. The neo-W chromosome of the crested ibis exhibits the characteristics of slow degradation, which is reflected in its retention of abundant gametologous genes. Neo-W chromosome genes display an apparent ovary-biased gene expression, which is largely driven by genes that are retained on the crested ibis W chromosome but lost in other bird species. These results provide new insights into the evolutionary history and expression patterns for the sex chromosomes of bird species. The evolutionary trajectory of avian sex chromosomes may be more intricate than previously understood. In this study, sequencing and analysis of the neo-sex chromosomes and genome of the Crested Ibis suggests a multidirectional evolution of sex chromosomes in core waterbirds. [ABSTRACT FROM AUTHOR]

Published

2024

41. Cell‐Free Fetal DNA for Prenatal Screening of Aneuploidies and Autosomal Trisomies: A Systematic Review.

Author

Belabbes, Kenza Benchekroun, Tufanisco, Elena Bendala, Sheth, Chirag C., and Mussa, Alessandro

Subjects

*CELL-free DNA, *SEX chromosomes, *PRENATAL diagnosis, *MOSAICISM, *PREGNANCY tests

Abstract

Aim: This study was aimed at comparing the positive predictive value of a high‐risk cell‐free fetal DNA test result for sex chromosome aneuploidies (45,X0, 47,XXX, 47,XXY, and 47,XYY) and autosomal trisomies (T21, T18, and T13) with confirmatory tests in singleton pregnancies. Additionally, we identify the main reason for discordant and inconclusive results. Methods: PubMed, Web of Science, and Scopus were searched from 2017 for primary research articles on cell‐free fetal DNA testing of autosomal trisomies and sex chromosome aneuploidies in singleton pregnancies. The methodological characteristics and the statistical results of the studies were collected, and the risk of bias was assessed. Results: Fourteen studies were included. Among the autosomal trisomies, T21 had the highest, whereas T13 showed the lowest positive predictive values. As for the sex chromosome aneuploidies, the lowest values were found with 45,X0. Although discordant and inconclusive results were reported inconsistently, false positives were mainly caused by mosaicism, and inconclusive results were mostly secondary to a low fetal DNA fraction. Conclusion: Cell‐free fetal DNA is a reliable screening tool for autosomal trisomies. It is also useful for sex chromosome aneuploidies, although the positive predictive values are lower. A positive screening result should be followed with a confirmatory test. [ABSTRACT FROM AUTHOR]

Published

2024

42. A chromosome-scale genome assembly of the peanut beetle, Ulomoides dermestoides (Coleptera: Tenebrionidae).

Author

Xiao, Huamei, Ma, Chunhui, Li, Shuangyuan, Gao, Huangjie, Tao, Shaomin, and Yin, Chuanlin

Subjects

SEX chromosomes, TENEBRIONIDAE, CHROMOSOMES, CURCULIONIDAE, GERMPLASM

Abstract

Ulomoides dermestoides, a member of the Tenebrionidae family, is known by various common names such as Chinese beetle, Chinese weevil, peanut beetle, cancer beetle, or asthma beetle. Despite its origin in Asia, it has achieved global distribution owing to its perceived medicinal properties. In this study, we employed a combination of Illumina short-read, PacBio long-read, and high-throughput chromosome conformation capture (Hi-C) sequencing technologies to produce a high-quality, chromosome-scale genome assembly of U. dermestoides. The assembled genome spans 253.38 Mb across 11 chromosomes, including the two sex chromosomes, X and Y. Key metrics include contig and scaffold N50 values of 9.83 Mb and 28.62 Mb, respectively, with an estimated genome completeness of 99.62%. Annotation efforts identified 15,553 protein-coding genes and revealed that 48.11% of the genome comprises repetitive sequences. This meticulously assembled genome serves as a pivotal resource for elucidating the genetic determinants underlying the species' ecological habits and potential medicinal properties. [ABSTRACT FROM AUTHOR]

Published

2024

43. Interactions between U and V sex chromosomes during the life cycle of Ectocarpus.

Author

Vigneau, Jeromine, Martinho, Claudia, Godfroy, Olivier, Min Zheng, Haas, Fabian B., Borg, Michael, and Coelho, Susana M.

Subjects

*SEX chromosomes, *LIFE cycles (Biology), *PLANT life cycles, *TRANSCRIPTION factors, *SEX determination, *GENETIC sex determination

Abstract

In many animals and flowering plants, sex determination occurs in the diploid phase of the life cycle with XX/XY or ZW/ZZ sex chromosomes. However, in early diverging plants and most macroalgae, sex is determined by female (U) or male (V) sex chromosomes in a haploid phase called the gametophyte. Once the U and V chromosomes unite at fertilization to produce a diploid sporophyte, sex determination no longer occurs, raising key questions about the fate of the U and V sex chromosomes in the sporophyte phase. Here, we investigate genetic and molecular interactions of the UV sex chromosomes in both the haploid and diploid phases of the brown alga Ectocarpus. We reveal extensive developmental regulation of sex chromosome genes across its life cycle and implicate the TALE-HD transcription factor OUROBOROS in suppressing sex determination in the diploid phase. Small RNAs may also play a role in the repression of a female sex-linked gene, and transition to the diploid sporophyte coincides with major reconfiguration of histone H3K79me2, suggesting a more intricate role for this histone mark in Ectocarpus development than previously appreciated. [ABSTRACT FROM AUTHOR]

Published

2024

44. Genome-Wide Association Studies (GWAS) and Transcriptome Analysis Reveal Male Heterogametic Sex-Determining Regions and Candidate Genes in Northern Snakeheads (Channa argus).

Author

Liu, Haiyang, Zhang, Jin, Cui, Tongxin, Xia, Weiwei, Luo, Qing, Fei, Shuzhan, Zhu, Xinping, Chen, Kunci, Zhao, Jian, and Ou, Mi

Subjects

*SEX determination, *GENOME-wide association studies, *SEXUAL dimorphism, *SINGLE nucleotide polymorphisms, *POLYMERASE chain reaction, *GENETIC sex determination, *FISH breeding, *SEX chromosomes

Abstract

The Northern snakehead (Channa argus) is a significant economic aquaculture species in China. Exhibiting sexual dimorphism in the growth rate between females and males, mono-sex breeding holds substantial value for aquaculture. This study employed GWAS and transcriptome analysis were applied to identify sex determination genomic regions and develop sex-specific markers. A total of 270 single-nucleotide polymorphisms (SNPs) and 31 insertion-deletions (InDels) were identified as being sexually dimorphic through GWAS and fixation index (Fst) scanning. Based on GWAS results, two sex-specific InDel markers were developed, effectively distinguishing genetic sex for XX females, XY males, and YY super-males via (polymerase chain reaction) PCR amplification. A major genomic segment of approximately 115 kb on chromosome 3 (Chr 03) was identified as the sex-determination region. A comparative transcriptome analysis of gonads for three sexes identified 158 overlapping differentially expressed genes (DEGs). Additionally, three sex-related candidate genes were identified near the sex determination region, including id2, sox11, and rnf144a. Further studies are required to elucidate the functions of these genes. Overall, two sex-specific InDel markers support a male heterogametic XX/XY sex-determination system in Northern snakeheads and three candidate genes offer new insights into sex determination and the evolution of sex chromosomes in teleost fish. [ABSTRACT FROM AUTHOR]

Published

2024

45. A sex chromosome polymorphism maintains divergent plumage phenotypes between extensively hybridizing yellowhammers (Emberiza citrinella) and pine buntings (E. leucocephalos).

Author

Nikelski, Ellen, Rubtsov, Alexander S., and Irwin, Darren

Subjects

*CHROMOSOME polymorphism, *POPULATION differentiation, *VICARIANCE, *SEX chromosomes, *SYMPATRIC speciation, *CHROMOSOME inversions, REPRODUCTIVE isolation

Abstract

Under allopatric speciation, populations of a species become isolated by a geographic barrier and develop reproductive isolation through genetic differentiation. When populations meet in secondary contact, the strength of evolved reproductive barriers determines the extent of hybridization and whether the populations will continue to diverge or merge together. The yellowhammer (Emberiza citrinella) and pine bunting (E. leucocephalos) are avian sister species that diverged in allopatry on either side of Eurasia during the Pleistocene glaciations. Though they differ greatly in plumage and form distinct genetic clusters in allopatry, these taxa show negligible mitochondrial DNA differentiation and hybridize extensively where they overlap in central Siberia, lending uncertainty to the state of reproductive isolation in the system. To assess the strength of reproductive barriers between taxa, we examined genomic differentiation across the system. We found that extensive admixture has occurred in sympatry, indicating that reproductive barriers between taxa are weak. We also identified a putative Z chromosome inversion region that underlies plumage variation in the system, with the 'pine bunting' haplotype showing dominance over the 'yellowhammer' haplotype. Our results suggest that yellowhammers and pine buntings are currently at a crossroads and that evolutionary forces may push this system towards either continued differentiation or population merging. However, even if these taxa merge, recombination suppression between putative chromosome Z inversion haplotypes may maintain divergent plumage phenotypes within the system. In this way, our findings highlight the important role hybridization plays in increasing the genetic and phenotypic variation as well as the evolvability of a system. [ABSTRACT FROM AUTHOR]

Published

2024

46. INO80 regulates chromatin accessibility to facilitate suppression of sex-linked gene expression during mouse spermatogenesis.

Author

Chakraborty, Prabuddha and Magnuson, Terry

Subjects

*Y chromosome, *SEX chromosomes, *RNA polymerase II, *GENE expression, *GENE silencing, *DNA repair

Abstract

The INO80 protein is the main catalytic subunit of the INO80-chromatin remodeling complex, which is critical for DNA repair and transcription regulation in murine spermatocytes. In this study, we explored the role of INO80 in silencing genes on meiotic sex chromosomes in male mice. INO80 immunolocalization at the XY body in pachytene spermatocytes suggested a role for INO80 in the meiotic sex body. Subsequent deletion of Ino80 resulted in high expression of sex-linked genes. Furthermore, the active form of RNA polymerase II at the sex chromosomes of Ino80-null pachytene spermatocytes indicates incomplete inactivation of sex-linked genes. A reduction in the recruitment of initiators of meiotic sex chromosome inhibition (MSCI) argues for INO80-facilitated recruitment of DNA repair factors required for silencing sex-linked genes. This role of INO80 is independent of a common INO80 target, H2A.Z. Instead, in the absence of INO80, a reduction in chromatin accessibility at DNA repair sites occurs on the sex chromosomes. These data suggest a role for INO80 in DNA repair factor localization, thereby facilitating the silencing of sex-linked genes during the onset of pachynema. Author summary: Chromatin accessibility is required for many DNA-protein interactions. Chromatin remodelers are the group of protein complexes that ensure the localized and timely unpacking of DNA to ensure access of a protein to its target DNA regions. The chromatin remodeler, INO80, has been implicated in many cellular processes, including transcription and DNA repair. We report that INO80 regulates the suppression of gene expression at the sex chromosomes in meiotic germ cells during mammalian spermatogenesis. INO80 localizes at the sex chromosomes during the pachynema stage, and its absence leads to a lack of suppression of gene expression at the sex chromosomes, which is known to be detrimental to meiotic progression. These genes were actively transcribed during pachynema in Ino80-mutant spermatocytes. DNA damage repair factors such as ATR and MDC1, which are instrumental in suppressing gene expression at the sex chromosomes during pachynema, were not localized properly in Ino80-mutant spermatocytes. Chromatin accessibility was also reduced at the DNA damage sites in sex chromosomes of the Ino80 mutants, which suggests a role for INO80 in the appropriate localization of DNA damage factors at accessible target sites to aid in the silencing of sex-linked genes during pachynema. [ABSTRACT FROM AUTHOR]

Published

2024

47. A genome-first study of sex chromosome aneuploidies provides evidence of Y chromosome dosage effects on autism risk.

Author

Berry, Alexander S. F., Finucane, Brenda M., Myers, Scott M., Walsh, Lauren K., Seibert, John M., Martin, Christa Lese, Ledbetter, David H., and Oetjens, Matthew T.

Subjects

SEX chromosomes, AUTISM spectrum disorders, CHROMOSOMES, ANEUPLOIDY, AUTISM, Y chromosome, X chromosome

Abstract

A female protective effect has long been postulated as the primary explanation for the four-fold increase of autism spectrum disorder (ASD) diagnoses in males versus females. However, genetic and epidemiological investigations of this hypothesis have so far failed to explain the large difference in ASD prevalence between the sexes. To address this knowledge gap, we examined sex chromosome aneuploidy in a large ASD case-control cohort to evaluate the relationship between X and Y chromosome dosage and ASD risk. From these data, we modeled three relationships between sex chromosome dosage and ASD risk: the extra Y effect, the extra X effect, and sex chromosome haploinsufficiency. We found that the extra Y effect increased ASD risk significantly more than the extra X effect. Among females, we observed a large association between 45, X and ASD, confirming sex chromosome haploinsufficiency as a strong ASD risk factor. These results provide a framework for understanding the relationship between X and Y chromosome dosage on ASD, which may inform future research investigating genomic contributors to the observed sex difference. Genetic and epidemiological investigations have yet to reveal what drives the large difference in ASD prevalence between the sexes. Here authors examine chromosome aneuploidy in a large ASD case-control cohort and report sex chromosome haploinsufficiency is a strong ASD risk factor, while the extra Y effect increases ASD risk significantly more than the extra X effect. [ABSTRACT FROM AUTHOR]

Published

2024

48. Integrative morphological, cytogenetic and molecular characterization of the Andean climbing catfish Astroblepus mindoensis (Regan, 1916) (Siluriformes:Astroblepidae)

Author

Nirchio, Mauro, Oliveira, Claudio, Bello Cioffi, Marcelo, Sassi, Francisco M. C., Rizzi, Francisco Provenzano, Benavides, Santiago Wladimir Núñez, Berrones, Alison Jazmín Calderón, Romero, Juan Francisco Rivadeneira, Deon, Geize Aparecida, Kuranaka, Mariana, Valdiviezo‐Rivera, Jonathan Santiago, Carrión Olmedo, Julio C., and Rossi, Anna Rita

Subjects

*CYTOCHROME oxidase, *SEX chromosomes, *GENETIC barcoding, *GENETIC distance, *ENDEMIC species, *KARYOTYPES

Abstract

Astroblepus species, commonly known as Andean climbing catfish, exhibit a unique challenge in species delimitation, leading to ongoing taxonomic debates. Here we report data on Astroblepus mindoensis, a vulnerable species endemic to Ecuador, obtained by an integrative approach that includes cytogenetic analysis, molecular identification of the specimens, and recording of morphological and morphometric characters useful for species diagnosis. Thus, this study aimed to associate the karyotype data of the specimens analyzed with morphological and molecular characters, improving and expanding the existing taxonomic information, thus contributing to the systematics of the species. Our morphology results, unlike Regan's original description, which is brief and ambiguous, provide a more detailed morphometric and meristic description. Molecular phylogenetic reconstruction and genetic distance based on a fragment of the cytochrome c oxidase subunit I (COI) showed that our samples constitute a well‐supported and monophyletic clade within the A. grixalvii species complex. The cytogenetic analysis identified distinct chromosomal markers, including a single cluster of major ribosomal genes (on chromosome pair 3) and of minor ribosomal genes (on chromosome pair 12) with their localization differing from those reported in other Astroblepus species analyzed. Additionally, the presence of a heteromorphic chromosome pair in males suggests the presence of an XX/XY sex‐determination system that has not been identified in other congeneric species. Further investigation is necessary to determine if these chromosomes are associated with the accumulation of repeated sequences, as typically occurs with sex chromosomes, and to assess their presence in other species of the genus. [ABSTRACT FROM AUTHOR]

Published

2024

49. Four Core Genotypes mice harbour a 3.2MB X-Y translocation that perturbs Tlr7 dosage.

Author

Panten, Jasper, Del Prete, Stefania, Cleland, James P., Saunders, Lauren M., van Riet, Job, Schneider, Anja, Ginno, Paul, Schneider, Nina, Koch, Marie-Luise, Chen, Xuqi, Gerstung, Moritz, Stegle, Oliver, Arnold, Arthur P., Turner, James M. A., Heard, Edith, and Odom, Duncan T.

Subjects

SEX chromosomes, GENE expression, CHROMOSOMES, LABORATORY mice, TOLL-like receptors, X chromosome

Abstract

The Four Core Genotypes (FCG) is a mouse model system used to disentangle the function of sex chromosomes and hormones. We report that a copy of a 3.2 MB region of the X chromosome has translocated to the YSry- chromosome and thus increased the expression of X-linked genes including the single-stranded RNA sensor and autoimmune disease mediator Tlr7. This previously-unreported X-Y translocation complicates the interpretation of studies reliant on C57BL/6J FCG mice. Here the authors find a genetic alteration in the popular "Four Core Genotypes" mouse model that is used to distinguish sex-biased phenotypes caused by sex chromosomes and gonads. This alteration increases the expression of some X-linked genes, which might confound the interpretation of the model. [ABSTRACT FROM AUTHOR]

Published

2024

50. Chromosome-level genome assembly of the cashmere goat.

Author

Wang, Zhiying, Lv, Qi, Li, Wenze, Huang, Wanlong, Gong, Gao, Yan, Xiaochun, Liu, Baichuan, Chen, Oljibilig, Wang, Na, Zhang, Yanjun, Wang, Ruijun, Li, Jinquan, Tian, Shilin, and Su, Rui

Subjects

GENOMICS, X chromosome, SEX chromosomes, GOATS, GENOME size

Abstract

The goat, an early domesticated ruminant, is a reliable source of cashmere, meat and milk in global agricultural production. Despite this, the genome of cashmere-rich goats has yet to be characterized. Here, we assembled the nearly complete genome of a cashmere goat from a highly economically valuable Inner Mongolian Cashmere buck, utilizing a combination of PacBio HiFi, ONT ultra-long reads, and Hi-C technologies. The size of this genome is 2.76 Gb, with a contig N50 of 95.22 Mb. All assembled sequences were anchored onto 29 autosomes and both sex chromosomes, with only two gaps present on the X chromosome. We identified 1,333.29 Mb (48.26%) of repetitive sequences and predicted 22,480 protein-coding genes. Assembly quality assessment of the genome demonstrated that our assembled cashmere goat genome surpasses the continuity, completeness, and accuracy of other published goat genomes. Taken together, we provided the first cashmere goat assembly, bridging the gap in the genome of important economic breeds of domestic goats, and providing a valuable reference resource for goat genetics and genome research. [ABSTRACT FROM AUTHOR]

Published

2024