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. 2016 Mar 21;144:267–278. doi: 10.1007/s10709-016-9895-0

Box 2.

W and Y chromosome age and degeneration status

Taxa Sex-determination system Degeneration of W/Y (depictively) W/Y chromosome agea References
Filamentous fungi Neurospora tetrasperma No sex chromosomes
Non-recombining mating-type chromosome. Pseudohomothallism
75 % of mating-type chromosomes do not recombine
Observed similar process of degeneration as in W/Y chromosome (including accumulation of transposable elements and gene pseudogenisation)
3.5–5.8 MYb,c,d Thomson and Lin (2009)
Plants
White campion
Silene latifolia
Heteromorphic homologic XY, GSD 20 % of genes are lost on the Y chromosome. Accumulation of transposable elements Oldest stratum 10 MYd Bergero and Charlesworth (2011) and Chibalina and Filatov (2011)
Lepidoptera
Bombyx mori
Heteromorphic WZ, GSD No protein-coding genes on W chromosome
>579 genes on previously homologous Z chromosome
90–100 MYb,c Fujii et al. (2010), Hara et al. (2012), Sahara et al. (2012)
Diptera
Phorid fly
Megaselia scalaris
Homomorphic XY, GSD Very early molecular signs of chromosome differentiation
Rapid Y chromosome turnover within the species
Variable Traut (2010)
Diptera
Housefly
Musca domestica
Homo- or heteromorphic XY, GSD Early molecular signs of chromosome differentiation
Y chromosome turnover within the species
Variable Blaser et al. (2013)
Diptera
Drosophila albomicans
Heteromorphic non-homologic XY, GSD Neo-Y chromosome with no obvious signs of degeneration. ~4800 genes are still functional 0.12 MYd Bachtrog (2006) and Zhou et al. (2012)
Diptera
Drosophila miranda
Heteromorphic non-homologic XY, GSD Neo-Y chromosome ~50 % of transposable elements, 209 putative genes left (~10 % of initial gene number)
Transposable elements on 1 % of the neo-X chromosome
1.2 MYd Bachtrog et al. (2008) and Steinemann and Steinemann (2005)
Diptera
Drosophila pseudoobscura
Heteromorphic non-homologic XY, GSD No protein-coding genes on Y chromosome (initially ~3000) 15 MYd Carvalho and Clark (2005)
Fish
Family Adrianichthyidae
Medaka fish
Oryzias latipes
Homomorphic homologic XY, GSD and TSD Y chromosome degenerated only in 258 kb long sequence. The rest of the chromosome is homologous to X
Mechanism of recombination of the male-specific region is preventing the spread of the non-recombining region over the Y chromosome
10 MYd Matsuda (2005), Kondo et al. (2006), Herpin and Schartl (2009)
Fish
Family
Gasterosteidae
Stickleback fish, Gasterosteus aculeatus
Heteromorphic homologic XY, GSD, environmental SD 64 % of homology among X and Y specific contigs
Multiple duplications and insertions, insertions of transposons and other repeated sequences on Y chromosome
10 MYd Carvalho et al. (2009)
Amphibia
Family Hylidae
Hyla arborea, H. intermedia, and H. molleri
Homomorphic homologic XY or WZ, TSD Degeneration of Y chromosome is prevented by rare recombination with X in phenotypic females
Y or W chromosome are evolutionary stable (‘fountain-of-youth’ hypothesis)
5.4–7.1 MYd Stöck et al. (2011)
Amphibia
Family Bufonidae
Bufo siculus, B. balearicus, B. turanensis and B. shaartusiensis
Homomorphic homologic XY, TSD Y chromosome degeneration probably prevented by rare male recombination of X and Y. Y chromosome is evolutionary stable (‘fountain-of-youth’ hypothesis) 3.3 MYd Stöck et al. (2013)
Reptiles
Family Viperidae
Pygmy rattlesnake
Sistrurus miliarius
Heteromorphic homologic WZ, GSD 61 W-linked genes and 712 Z-linked genes. Accumulation of repetitive elements on the W chromosome ≥50 MYc,d Vicoso et al. (2013)
Reptiles
Family Colubridae
Garter snake
Thamnophis elegans
Heteromorphic homologic WZ, GSD 29 W-linked genes and 723 Z-linked genes. Accumulation of repetitive elements on the W chromosome ≥50 MYc,d Vicoso et al. (2013)
Birds Heteromorphic homologic WZ, GSD or environmental SD Different lineages represent different stages of W degradation
Number of genes on the W chromosome is tens to 100, while on the Z chromosome ~1000
The W chromosome is a degenerate relict of Z and is the same among species. No W turnovers observed
120 MYc,d Wright et al. (2012), Graves (2014), Wright et al. (2014)
Mammals Heteromorphic, homologic XY, GSD Y chromosome is more degraded than avian W chromosome
On the Y chromosome, a few dozen genes are observed while on X ~1000 genes
The Y chromosome is a degenerate relict of X. Rare cases of Y turnover or absence are observed among taxa
>200 MYc,d Graves (2006), Veyrunes et al. (2008), Bachtrog (2013), Bellott et al. (2014)
Homo sapiens Heteromorphic, homologic XY, GSD On the Y chromosome, 86 genes have been observed, while on
X 1098 genes
No difference in TE percentage (44 vs. 54 %) on X- and Y-linked zinc finger genes
Five evolutionary strata on the Y chromosomed Skaletsky et al. (2003), Peichel et al. (2004), Ross et al. (2005), Goto et al. (2009)

Listed examples of W and Y chromosome estimated age, from different taxa are shown below. The sex determination system and available information on chromosome degeneration are given. The listing includes the relevant literature

SD sex determination, GSD genetic sex determination, TSD temperature sex determination, MY million years

aDifferent ways to obtain W/Y chromosome age since recombination stopped

bDegree of heteromorphism

cAge of the group of species

dX–Y or neo-Y—autosome divergence study [after Charlesworth (2012)]