TY - JOUR
T1 - Phylogeny and sex chromosome evolution of Palaeognathae
AU - Wang, Zongji
AU - Zhang, Jilin
AU - Xu, Xiaoman
AU - Witt, Christopher
AU - Deng, Yuan
AU - Chen, Guangji
AU - Meng, Guanliang
AU - Feng, Shaohong
AU - Xu, Luohao
AU - Szekely, Tamas
AU - Zhang, Guojie
AU - Zhou, Qi
PY - 2022/2
Y1 - 2022/2
N2 - Many paleognaths (ratites and tinamous) have a pair of homomorphic ZW sex chromosomes in contrast to the highly differentiated sex chromosomes of most other birds. To understand the evolutionary causes for the different tempos of sex chromosome evolution, we produced female genomes of 12 paleognathous species and reconstructed the phylogeny and the evolutionary history of paleognathous sex chromosomes. We uncovered that Palaeognathae sex chromosomes had undergone stepwise recombination suppression and formed a pattern of “evolutionary strata”. Nine of the 15 studied species' sex chromosomes have maintained homologous recombination in their long pseudoautosomal regions extending more than half of the entire chromosome length. We found that in the older strata, the W chromosome suffered more serious functional gene loss. Their homologous Z-linked regions, compared with other genomic regions, have produced an excess of species-specific autosomal duplicated genes that evolved female-specific expression, in contrast to their broadly expressed progenitors. We speculate such “defeminization” of Z chromosome with underrepresentation of female-biased genes and slow divergence of sex chromosomes of paleognaths might be related to their distinctive mode of sexual selection targeting females rather than males, which evolved in their common ancestors.
AB - Many paleognaths (ratites and tinamous) have a pair of homomorphic ZW sex chromosomes in contrast to the highly differentiated sex chromosomes of most other birds. To understand the evolutionary causes for the different tempos of sex chromosome evolution, we produced female genomes of 12 paleognathous species and reconstructed the phylogeny and the evolutionary history of paleognathous sex chromosomes. We uncovered that Palaeognathae sex chromosomes had undergone stepwise recombination suppression and formed a pattern of “evolutionary strata”. Nine of the 15 studied species' sex chromosomes have maintained homologous recombination in their long pseudoautosomal regions extending more than half of the entire chromosome length. We found that in the older strata, the W chromosome suffered more serious functional gene loss. Their homologous Z-linked regions, compared with other genomic regions, have produced an excess of species-specific autosomal duplicated genes that evolved female-specific expression, in contrast to their broadly expressed progenitors. We speculate such “defeminization” of Z chromosome with underrepresentation of female-biased genes and slow divergence of sex chromosomes of paleognaths might be related to their distinctive mode of sexual selection targeting females rather than males, which evolved in their common ancestors.
KW - Comparative genomics
KW - Paleognaths
KW - Sex chromosome evolution
KW - Sexual selection
UR - http://www.scopus.com/inward/record.url?scp=85120749537&partnerID=8YFLogxK
UR - https://www.scopus.com/record/pubmetrics.uri?eid=2-s2.0-85120749537&origin=recordpage
U2 - 10.1016/j.jgg.2021.06.013
DO - 10.1016/j.jgg.2021.06.013
M3 - RGC 21 - Publication in refereed journal
C2 - 34872841
SN - 1673-8527
VL - 49
SP - 109
EP - 119
JO - Journal of Genetics and Genomics
JF - Journal of Genetics and Genomics
IS - 2
ER -