2022
DOI: 10.1111/jeb.14123
|View full text |Cite
|
Sign up to set email alerts
|

XX/XY sex chromosomes in a blind lizard (Dibamidae): Towards understanding the evolution of sex determination in squamates

Abstract: The reconstruction of the evolutionary history of sex determination in squamate reptiles (lizards and snakes) is complicated by missing data in many lineages, erroneous reports, and often questionable inferences on state homology. Therefore, despite the large effort, the reconstruction of the ancestral sex determination in squamate reptiles is still controversial. With the hope to shed light on this problem, we aspired to identify the sex chromosome gene content in Dibamus deharvengi, the representative of the… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
2
1
1

Citation Types

0
4
0

Year Published

2022
2022
2024
2024

Publication Types

Select...
3
1
1

Relationship

1
4

Authors

Journals

citations
Cited by 6 publications
(4 citation statements)
references
References 44 publications
0
4
0
Order By: Relevance
“…For instance, in this special issue: Using a combination of short‐read and long‐read sequencing, Evans et al (2022) and Duhamel et al (2022) perform a chromosome‐scale genome assembly in the Marsabit clawed frog and anther‐smut fungi, respectively. These approaches allow the study of intra‐specific variation of sex chromosome divergence in the frog and reveal independent chromosomal rearrangement in the mating‐type chromosomes of the fungi. With short‐read WGS and the help of existing reference genomes, Sigeman et al (2022) investigate the translocation nature of a novel neo‐sex chromosome in Sylvivoidea songbirds, whilst Rovatsos et al (2022) reveal a XX/XY sex determination system in a blind lizard and further identified a novel combination of homologous genes using the chicken X chromosome as reference. With short‐read whole‐genome pooled sequencing, Ansai et al (2022) and Jeffries et al (2022) investigate the sex‐determining regions and sex chromosome turnover across closely related fish taxa. With RAD‐seq, Keating et al (2022) and Meuser et al (2022) perform analysis in multiple individuals per sex to investigate possible sex‐determining regions and infer sex chromosome turnovers. …”
Section: Theme 1: Genomics and Methodological Advancesmentioning
confidence: 99%
See 1 more Smart Citation
“…For instance, in this special issue: Using a combination of short‐read and long‐read sequencing, Evans et al (2022) and Duhamel et al (2022) perform a chromosome‐scale genome assembly in the Marsabit clawed frog and anther‐smut fungi, respectively. These approaches allow the study of intra‐specific variation of sex chromosome divergence in the frog and reveal independent chromosomal rearrangement in the mating‐type chromosomes of the fungi. With short‐read WGS and the help of existing reference genomes, Sigeman et al (2022) investigate the translocation nature of a novel neo‐sex chromosome in Sylvivoidea songbirds, whilst Rovatsos et al (2022) reveal a XX/XY sex determination system in a blind lizard and further identified a novel combination of homologous genes using the chicken X chromosome as reference. With short‐read whole‐genome pooled sequencing, Ansai et al (2022) and Jeffries et al (2022) investigate the sex‐determining regions and sex chromosome turnover across closely related fish taxa. With RAD‐seq, Keating et al (2022) and Meuser et al (2022) perform analysis in multiple individuals per sex to investigate possible sex‐determining regions and infer sex chromosome turnovers. …”
Section: Theme 1: Genomics and Methodological Advancesmentioning
confidence: 99%
“…Their results suggest frequent turnovers in this lineage as well. Rovatsos et al (2022) set out to provide insights into the phylogeny and the ancestral state of sex determination in squamate reptiles, which is still unresolved (reviewed by Kratochvíl, Gamble, et al, 2021). They identify a XX/XY sex chromosome system in a blind lizard, a member of a potential sister lineage to all other squamates, by comparative gene coverage analysis of a male and a female genome.…”
Section: Theme 4: De Tec Ti On Of S E X-de Termining G Ene S and S E ...mentioning
confidence: 99%
“…some linkage groups are more likely to be recruited as a sex chromosome than others (Kratochvíl et al 2021). However, the pattern was weak and the discovery of additional linkage groups acting as sex chromosomes in geckos and dibamids requires a reevaluation (Pensabene et al 2023; Pinto et al 2022; Rovatsos et al 2022). Additionally, inferences that all taxa within a clade share an ancestral sex chromosome, i.e.…”
Section: (3a) Genomics and Sex Chromosomes In Squamatesmentioning
confidence: 99%
“…Fortunately, recent advances in DNA sequencing technologies have allowed us to sample more broadly and ask finer-scale questions about how sex chromosomes originate, degenerate, and turnover (e.g. Acosta et al 2019; Gamble et al 2015; 2017; 2018; Keating et al 2020; Kostmann et al 2021; Nielsen et al 2018; 2019; 2020; Pinto et al 2022; Rovatsos et al 2019b; 2022); so the intertwined nature of developing squamate genomics and sex chromosome evolution presents great promise for future work in identifying and characterizing sex chromosome linkage groups across squamates.…”
Section: (3a) Genomics and Sex Chromosomes In Squamatesmentioning
confidence: 99%