Platypus chain reaction: directional and ordered meiotic pairing of the multiple sex chromosome chain in Ornithorhynchus anatinus

Monotremes are phylogenetically and phenotypically unique animals with an unusually complex sex chromosome system that is composed of ten chromosomes in platypus and nine in echidna. These chromosomes are alternately linked (X1Y1, X2Y2, …) at meiosis via pseudoautosomal regions and segregate to form spermatozoa containing either X or Y chromosomes. The physical and epigenetic mechanisms involved in pairing and assembly of the complex sex chromosome chain in early meiotic prophase I are completely unknown. We have analysed the pairing dynamics of specific sex chromosome pseudoautosomal regions in platypus spermatocytes during prophase of meiosis I. Our data show a highly coordinated pairing process that begins at the terminal Y5 chromosome and completes with the union of sex chromosomes X1Y1. The consistency of this ordered assembly of the chain is remarkable and raises questions about the mechanisms and factors that regulate the differential pairing of sex chromosomes and how this relates to potential meiotic silencing mechanisms and alternate segregation.

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Analysis of SINE and LINE repeat content of Y chromosomes in the platypus, Ornithorhynchus anatinus

Reproduction Fertility and Development ◽

10.1071/rd09084 ◽

2009 ◽

Vol 21 (8) ◽

pp. 964 ◽

Cited By ~ 10

Author(s):

R. Daniel Kortschak ◽

Enkhjargal Tsend-Ayush ◽

Frank Grützner

Keyword(s):

Sex Chromosomes ◽

Sex Chromosome ◽

Activity Patterns ◽

Specific Sequence ◽

X Chromosomes ◽

Repeat Content ◽

Y Chromosomes ◽

Ornithorhynchus Anatinus ◽

History Of ◽

Sex Chromosome System

Monotremes feature an extraordinary sex-chromosome system that consists of five X and five Y chromosomes in males. These sex chromosomes share homology with bird sex chromosomes but no homology with the therian X. The genome of a female platypus was recently completed, providing unique insights into sequence and gene content of autosomes and X chromosomes, but no Y-specific sequence has so far been analysed. Here we report the isolation, sequencing and analysis of ~700 kb of sequence of the non-recombining regions of Y2, Y3 and Y5, which revealed differences in base composition and repeat content between autosomes and sex chromosomes, and within the sex chromosomes themselves. This provides the first insights into repeat content of Y chromosomes in platypus, which overall show similar patterns of repeat composition to Y chromosomes in other species. Interestingly, we also observed differences between the various Y chromosomes, and in combination with timing and activity patterns we provide an approach that can be used to examine the evolutionary history of the platypus sex-chromosome chain.

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Seed sexing revealed female bias in two Rumex species

Acta Societatis Botanicorum Poloniae ◽

10.5586/asbp.2011.028 ◽

2011 ◽

Vol 80 (2) ◽

pp. 93-97 ◽

Cited By ~ 2

Author(s):

Dagmara Kwolek ◽

Andrzej J. Joachimiak

Keyword(s):

Sex Ratio ◽

Sex Chromosomes ◽

Dna Markers ◽

Sex Chromosome ◽

Sex Ratios ◽

Ratio Bias ◽

Sex Ratio Bias ◽

Y Chromosomes ◽

Sex Chromosome System ◽

Female Bias

Sex-ratio bias in seeds of dioecious Rumex species with sex chromosomes is an interesting and still unsettled issue. To resolve gender among seeds of R. acetosa and R. thyrsiflorus (two species with an XX/XY1Y2 sex chromosome system), this work applied a PCR-based method involving DNA markers located on Y chromosomes. Both species showed female-biased primary sex ratios, with female bias greater in R. acetosa than in R. thyrsiflorus. The observed predominance of female seeds is consistent with the view that the female biased sex ratios in Rumex are conditioned not only postzygotically but also prezygotically.

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A cytological study of species in Cnephia s. str. (Diptera: Simuliidae)

Canadian Journal of Zoology ◽

10.1139/z82-365 ◽

1982 ◽

Vol 60 (11) ◽

pp. 2866-2878 ◽

Cited By ~ 16

Author(s):

William S. Procunier

Keyword(s):

Sex Chromosomes ◽

Sex Chromosome ◽

Cytological Study ◽

Chromosome Complement ◽

Nucleolar Organizer ◽

Sympatric Speciation ◽

Basic Chromosome ◽

Y Chromosomes ◽

Norwegian Population ◽

Sex Chromosome System

Cytological descriptions and phylogenetic relationships are presented for the genus Cnephia s. str. All members are male achiasmate. Cnephia lapponica is unique in that its basic chromosome complement is reduced from n = 3 to n = 2 metacentrics as a result of a fusion of chromosomes II and III. Sex chromosome differentiation varies from nonobservable in C. ornithophilia and C. eremites through C. pecuarum in which the standard and IS-5 sequences are distributed differentially over X and Y chromosomes, to the polytypic system of C. lapponica in which the X chromosome is fixed for expression of the nucleolar organizer (NO) and the Y chromosome for nonexpression. Further, in a Norwegian population of C. lapponica, males are additionally interchange heterozygotes. Thus, a multiple sex chromosome system exists in which all the chromosomes are sex chromosomes. Closest members occur sympatrically and differ by sex chromosomes and at least one fixed inversion; more distant taxa differ by a number of fixed inversions as well as sex chromosomes. The identical bands 17B and 24C, which appear in a thin or enhanced form, are polymorphic, sex-linked, fixed, or lost in different members of the group. This study supports a model for sympatric speciation.

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Evolution of a Multiple Sex-Chromosome System by Three-Sequential Translocations among Potential Sex-Chromosomes in the Taiwanese Frog Odorrana swinhoana

Cells ◽

10.3390/cells10030661 ◽

2021 ◽

Vol 10 (3) ◽

pp. 661

Author(s):

Ikuo Miura ◽

Foyez Shams ◽

Si-Min Lin ◽

Marcelo de Bello Cioffi ◽

Thomas Liehr ◽

...

Keyword(s):

Sex Chromosomes ◽

Rare Case ◽

Sex Chromosome ◽

Sex Chromosome System ◽

Brown Frog ◽

Male Specific

Translocation between sex-chromosomes and autosomes generates multiple sex-chromosome systems. It happens unexpectedly, and therefore, the evolutionary meaning is not clear. The current study shows a multiple sex chromosome system comprising three different chromosome pairs in a Taiwanese brown frog (Odorrana swinhoana). The male-specific three translocations created a system of six sex-chromosomes, ♂X1Y1X2Y2X3Y3 -♀X1X1X2X2X3X3. It is unique in that the translocations occurred among three out of the six members of potential sex-determining chromosomes, which are known to be involved in sex-chromosome turnover in frogs, and the two out of three include orthologs of the sex-determining genes in mammals, birds and fishes. This rare case suggests sex-specific, nonrandom translocations and thus provides a new viewpoint for the evolutionary meaning of the multiple sex chromosome system.

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Telomere-to-telomere assembly of a fish Y chromosome reveals the origin of a young sex chromosome pair

Genome Biology ◽

10.1186/s13059-021-02430-y ◽

2021 ◽

Vol 22 (1) ◽

Author(s):

Lingzhan Xue ◽

Yu Gao ◽

Meiying Wu ◽

Tian Tian ◽

Haiping Fan ◽

...

Keyword(s):

Y Chromosome ◽

Sex Chromosomes ◽

Chromosome Pair ◽

Sex Chromosome ◽

Structural Variations ◽

Recombination Suppression ◽

Chromosome Differentiation ◽

Y Chromosomes ◽

Recent Origin ◽

Mastacembelus Armatus

Abstract Background The origin of sex chromosomes requires the establishment of recombination suppression between the proto-sex chromosomes. In many fish species, the sex chromosome pair is homomorphic with a recent origin, providing species for studying how and why recombination suppression evolved in the initial stages of sex chromosome differentiation, but this requires accurate sequence assembly of the X and Y (or Z and W) chromosomes, which may be difficult if they are recently diverged. Results Here we produce a haplotype-resolved genome assembly of zig-zag eel (Mastacembelus armatus), an aquaculture fish, at the chromosomal scale. The diploid assembly is nearly gap-free, and in most chromosomes, we resolve the centromeric and subtelomeric heterochromatic sequences. In particular, the Y chromosome, including its highly repetitive short arm, has zero gaps. Using resequencing data, we identify a ~7 Mb fully sex-linked region (SLR), spanning the sex chromosome centromere and almost entirely embedded in the pericentromeric heterochromatin. The SLRs on the X and Y chromosomes are almost identical in sequence and gene content, but both are repetitive and heterochromatic, consistent with zero or low recombination. We further identify an HMG-domain containing gene HMGN6 in the SLR as a candidate sex-determining gene that is expressed at the onset of testis development. Conclusions Our study supports the idea that preexisting regions of low recombination, such as pericentromeric regions, can give rise to SLR in the absence of structural variations between the proto-sex chromosomes.

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Differences in recombination frequencies during female and male meioses of the sex chromosomes of the medaka, Oryzias latipes

Genetics Research ◽

10.1017/s0016672301005109 ◽

2001 ◽

Vol 78 (1) ◽

pp. 23-30 ◽

Cited By ~ 65

Author(s):

MARIKO KONDO ◽

ERIKO NAGAO ◽

HIROSHI MITANI ◽

AKIHIRO SHIMA

Keyword(s):

Genetic Map ◽

Sex Chromosomes ◽

Sex Chromosome ◽

Oryzias Latipes ◽

Male Recombination ◽

Male And Female ◽

Y Chromosomes ◽

Genetic Length ◽

Expressed Sequence ◽

Group 1

In the medaka, Oryzias latipes, sex is determined chromosomally. The sex chromosomes differ from those of mammals in that the X and Y chromosomes are highly homologous. Using backcross panels for linkage analysis, we mapped 21 sequence tagged site (STS) markers on the sex chromosomes (linkage group 1). The genetic map of the sex chromosome was established using male and female meioses. The genetic length of the sex chromosome was shorter in male than in female meioses. The region where male recombination is suppressed is the region close to the sex-determining gene y, while female recombination was suppressed in both the telomeric regions. The restriction in recombination does not occur uniformly on the sex chromosome, as the genetic map distances of the markers are not proportional in male and female recombination. Thus, this observation seems to support the hypothesis that the heterogeneous sex chromosomes were derived from suppression of recombination between autosomal chromosomes. In two of the markers, Yc-2 and Casp6, which were expressed sequence-tagged (EST) sites, polymorphisms of both X and Y chromosomes were detected. The alleles of the X and Y chromosomes were also detected in O. curvinotus, a species related to the medaka. These markers could be used for genotyping the sex chromosomes in the medaka and other species, and could be used in other studies on sex chromosomes.

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A new sympatric region for distinct karyotypic forms of Hoplias malabaricus (Pisces, Erythrinidae)

Brazilian Journal of Biology ◽

10.1590/s1519-69842006000200004 ◽

2006 ◽

Vol 66 (1b) ◽

pp. 205-210 ◽

Cited By ~ 13

Author(s):

G. G. Born ◽

L. A. C. Bertollo

Keyword(s):

Sex Difference ◽

Sex Chromosomes ◽

Diploid Number ◽

Sex Chromosome ◽

Minas Gerais ◽

Female Specimen ◽

Male Specimen ◽

Hoplias Malabaricus ◽

Sex Chromosome System ◽

Sympatric Cytotypes

Specimens of Hoplias malabaricus from Lagoa Carioca, an isolated lake of the Rio Doce State Park (state of Minas Gerais, Brazil), were cytogenetically studied. The diploid number was found to be constant, i.e., 2n = 42 chromosomes, although two karyotypic forms were found: karyotype A, characterized by 22M + 20SM chromosomes, observed only in a male specimen, and karyotype B, characterized by 24M + 16SM + 2ST and 24M + 17SM + 1ST chromosomes in female and male specimens, respectively. This sex difference found in karyotype B is related to an XX/XY sex chromosome system. Another female specimen of H. malabaricus, also carrying karyotype A, had previously been found in the same lake. The available data indicate that two sympatric cytotypes of H. malabaricus exist in the Lagoa Carioca, with cytotype A occurring at a lower frequency and differing from cytotype B by undifferentiated sex chromosomes.

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A new Roncus species (Pseudoscorpiones: Neobisiidae) from Montseny Natural Park (Catalonia, Spain), with remarks on karyology

Zootaxa ◽

10.11646/zootaxa.1693.1.2 ◽

2008 ◽

Vol 1693 (1) ◽

pp. 27 ◽

Cited By ~ 6

Author(s):

JUAN A. ZARAGOZA ◽

FRANTI“EK ŠÿÁHLAVSKÝ

Keyword(s):

New Species ◽

Diploid Number ◽

Sex Chromosome ◽

Natural Park ◽

Y Chromosomes ◽

Sex Chromosome System ◽

Acrocentric Chromosomes

Roncus montsenyensis sp. nov. is described from Montseny Natural Park (Catalonia, Spain). The new species is geographically and morphologically close to Roncus cadinensis Zaragoza, 2007, but can be separated from it by palpal morphometrics, the chelal microsetae pattern and karyology. The diploid number was found to be 2n=16 in R. montsenyensis, with only biarmed chromosomes. The diploid number was found to be 2n=38 in R. cadinensis, with a predominance of acrocentric chromosomes. Both species possess the XY sex chromosome system and the X and Y chromosomes are only weakly differentiated.

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The probability of fusions joining sex chromosomes and autosomes

Biology Letters ◽

10.1098/rsbl.2020.0648 ◽

2020 ◽

Vol 16 (11) ◽

pp. 20200648

Author(s):

Nathan W. Anderson ◽

Carl E. Hjelmen ◽

Heath Blackmon

Keyword(s):

Sex Chromosomes ◽

Sex Chromosome ◽

Null Model ◽

Closed Form Expression ◽

Sexual Antagonism ◽

Form Expression ◽

Chromosome Fusion ◽

Sex Chromosome System ◽

Males And Females ◽

Heterogametic Sex

Chromosome fusion and fission are primary mechanisms of karyotype evolution. In particular, the fusion of a sex chromosome and an autosome has been proposed as a mechanism to resolve intralocus sexual antagonism. If sexual antagonism is common throughout the genome, we should expect to see an excess of fusions that join sex chromosomes and autosomes. Here, we present a null model that provides the probability of a sex chromosome autosome fusion, assuming all chromosomes have an equal probability of being involved in a fusion. This closed-form expression is applicable to both male and female heterogametic sex chromosome systems and can accommodate unequal proportions of fusions originating in males and females. We find that over 25% of all chromosomal fusions are expected to join a sex chromosome and an autosome whenever the diploid autosome count is fewer than 16, regardless of the sex chromosome system. We also demonstrate the utility of our model by analysing two contrasting empirical datasets: one from Drosophila and one from the jumping spider genus Habronattus . We find that in the case of Habronattus , there is a significant excess of sex chromosome autosome fusions but that in Drosophila there are far fewer sex chromosome autosome fusions than would be expected under our null model.

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Heteromorphic Sex Chromosomes and Their DNA Content in Fish: An Insight through Satellite DNA Accumulation in Megaleporinus elongatus

Cytogenetic and Genome Research ◽

10.1159/000506265 ◽

2020 ◽

Vol 160 (1) ◽

pp. 38-46 ◽

Cited By ~ 1

Author(s):

Carolina Crepaldi ◽

Patricia P. Parise-Maltempi

Keyword(s):

Sex Chromosomes ◽

Dna Content ◽

Satellite Dna ◽

Sex Chromosome ◽

Neotropical Fish ◽

High Throughput Analysis ◽

Multiple Sex Chromosomes ◽

Heteromorphic Sex Chromosomes ◽

Sex Chromosome System ◽

Graph Based Clustering

The repetitive DNA content of fish sex chromosomes provides valuable insights into specificities and patterns of their genetic sex determination systems. In this study, we revealed the genomic satellite DNA (satDNA) content of Megaleporinuselongatus, a Neotropical fish species with Z1Z1Z2Z2/Z1W1Z2W2 multiple sex chromosomes, through high-throughput analysis and graph-based clustering, isolating 68 satDNA families. By physically mapping these sequences in female metaphases, we discovered 15 of the most abundant satDNAs clustered in its chromosomes, 9 of which were found exclusively in the highly heterochromatic W1. This heteromorphic sex chromosome showed the highest amount of satDNA accumulations in this species. The second most abundant family, MelSat02-26, shared FISH signals with the NOR-bearing pair in similar patterns and is linked to the multiple sex chromosome system. Our results demonstrate the diverse satDNA content in M. elongatus, especially in its heteromorphic sex chromosome. Additionally, we highlighted the different accumulation patterns and distribution of these sequences across species by physically mapping these satDNAs in other Anostomidae, Megaleporinusmacrocephalus and Leporinusfriderici (a species without differentiated sex chromosomes).

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