Comparative genomics reveals insights into avian genome evolution and adaptation

Zhang, Guojie; Cai, Li; Li, Qiye; Li, Bo; Larkin, Denis M.; Lee, Chul; Storz, Jay F.; Antunes, Agostinho; Greenwold, Matthew J.; Meredith, Robert W.; Ödeen, Anders; Cui, Jie; Zhou, Qi; Xu, Luohao; Pan, Hailin; Wang, Zongji; Jin, Lijun; Zhang, Pei; Hu, Haofu; Yang, Wei; Hu, Jiang; Xiao, Jin; Yang, Zhikai; Liu, Yang; Xie, Qiaolin; Yu, Hao; Lian, Jinmin; Wen, Ping; Zhang, Fang; Li, Hui; Zeng, Yongli; Xiong, Zijun; Liu, Shiping; Zhang, Long; Huang, Zhiyong; An, Na; Wang, Jie; Zheng, Qiumei; Xiong, Yingqi; Wang, Guangbiao; Wang, Bo; Wang, Jingjing; Fan, Yu; Fonseca, Rute R. da; Alfaro‐Núñez, Alonzo; Schubert, Mikkel; Orlando, Ludovic; Mourier, Tobias; Howard, Jason T.; Ganapathy, Ganeshkumar; Pfenning, Andreas R.; Whitney, Osceola; Rivas, Miriam V.; Hara, Erina; Smith, Julia Gage; Farré, Marta; Narayan, Jitendra; Slavov, Gancho; Romanov, Michael N; Borges, Rui; Machado, João Paulo; Khan, Imran; Springer, Mark S.; Gatesy, John; Hoffmann, Federico G.; Opazo, Juan C.; Håstad, Olle; Sawyer, Roger H.; Kim, Heebal; Kim, Kyu‐Won; Kim, Yang Soo; Cho, Seoae; Li, Ning; Huang, Yinhua; Bruford, Michael William; Zhan, Xiangjiang; Dixon, Andrew; Bertelsen, Mads F.; Derryberry, Elizabeth P.; Warren, Wesley C.; Wilson, Richard K.; Li, Shengbin; Ray, David A.; Green, Edward; O’Brien, Stephen J.; Griffin, Darren K.; Johnson, Warren E.; Haussler, David; Ryder, Oliver A.; Willerslev, Eske; Graves, Gary R.; Alström, Per; Fjeldså, Jon; Mindell, David P.; Edwards, Scott V.; Braun, Edward L.; Rahbek, Carsten; Burt, David W.; Houde, Peter; Zhang, Yong; Yang, Huanming; Jarvis, Erich D.; Gilbert, M. Thomas P.; Wang, Jun

doi:10.1126/science.1251385

Cited by 933 publications

(1,136 citation statements)

References 182 publications

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“…The net frequency of nucleotide substitutions (d A ) was calculated according to the method of Nei 48 , and the time since divergence (t) of alleles was calculated as t = d A /2λ, where λ is the genomic substitution rate. As a substitution rate in ruff is not yet available, we used the substitution rates estimated for each of 48 other bird genomes 18 to calculate a confidence interval for t, and the data are presented as a box plot.…”

Section: Methodsmentioning

confidence: 99%

Structural genomic changes underlie alternative reproductive strategies in the ruff (Philomachus pugnax)

et al. 2015

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Section: Methodsmentioning

confidence: 99%

Structural genomic changes underlie alternative reproductive strategies in the ruff (Philomachus pugnax)

et al. 2015

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“…The four single cones generate a tetrachromatic visual system capable of excellent colour discrimination across the visible spectrum [33], and this is further refined by the presence of pigmented oil droplets that filter incoming light [34,35]. The only exceptions to this general format appear in some species of penguin, which have lost their MWS cone visual pigment through pseudogenization of the RH2 opsin gene [36] and appear to possess only three spectral types of single cone [37]. Molecular analysis of the emu retina confirmed the expression of a single rod and four cone opsin genes, which accounts for the observed spectral characteristics of the different cone and rod photoreceptors.…”

Section: Discussionmentioning

confidence: 99%

Visual pigments in a palaeognath bird, the emuDromaius novaehollandiae: implications for spectral sensitivity and the origin of ultraviolet vision

et al. 2016

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A comprehensive description of the spectral characteristics of retinal photoreceptors in palaeognaths is lacking. Moreover, controversy exists with respect to the spectral sensitivity of the short-wavelength-sensitive-1 (SWS1) opsin-based visual pigment expressed in one type of single cone: previous microspectrophotometric (MSP) measurements in the ostrich (Struthio camelus) suggested a violet-sensitive (VS) SWS1 pigment, but all palaeognath SWS1 opsin sequences obtained to date (including the ostrich) imply that the visual pigment is ultraviolet-sensitive (UVS). In this study, MSP was used to measure the spectral properties of visual pigments and oil droplets in the retinal photoreceptors of the emu (Dromaius novaehollandiae). Results show that the emu resembles most other bird species in possessing four spectrally distinct single cones, as well as double cones and rods. Four cone and a single rod opsin are expressed, each an orthologue of a previously identified pigment. The SWS1 pigment is clearly UVS (wavelength of maximum absorbance [l max ] ¼ 376 nm), with key tuning sites (Phe86 and Cys90) consistent with other vertebrate UVS SWS1 pigments. Palaeognaths would appear, therefore, to have UVS SWS1 pigments. As they are considered to be basal in avian evolution, this suggests that UVS is the most likely ancestral state for birds. The functional significance of a dedicated UVS cone type in the emu is discussed.

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“…Many avian species share highly conserved synteny, but with various degrees of intrachromosomal rearrangement (Kawakami et al, 2014;Zhang et al, 2014). For example, no genomic rearrangements were found in the sex chromosomes between closely related Ficedula flycatcher species (Backström et al, 2010b), whereas there are karyotypic polymorphisms on the Z chromosome in ZF (Itoh et al, 2011) and an inversion is associated with alternative reproductive morphs in the ruff (Küpper et al, 2016;Lamichhaney et al, 2016).…”

Section: Genomic Rearrangements Between Speciesmentioning

confidence: 99%

Linkage mapping of a polymorphic plumage locus associated with intermorph incompatibility in the Gouldian finch (Erythrura gouldiae)

2016

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Colour polymorphism is known to facilitate speciation but the genetic basis of animal pigmentation and how colour polymorphisms contribute to speciation is poorly understood. Restricted recombination may promote linkage disequilibrium between the colour locus and incompatibility genes. Genomic rearrangement and the position of relevant loci within a chromosome are important factors that influence the frequency of recombination. Therefore, it is important to know the position of the colour locus, gene order and recombination landscape of the chromosome to understand the mechanism that generates incompatibilities between morphs. Recent studies showed remarkable pre-and postzygotic incompatibilities between sympatric colour morphs of the Gouldian finch (Erythrura gouldiae), in which head feather colour is genetically determined by a single sex-linked locus, Red. We constructed a genetic map for the Z chromosome of the Gouldian finch (male-specific map distance = 131 cM), using 618 captive-bred birds and 34 microsatellite markers, to investigate the extent of inter-and intraspecific genomic rearrangements and variation in recombination rate within the Z chromosome. We refined the location of the Red locus to a~7.2-cM interval in a region with a moderate recombination rate but outside the least-recombining, putative centromeric region. There was no evidence of chromosome-wide genomic rearrangements between the chromosomes carrying the red or black alleles with the current marker resolution. This work will contribute to identifying the causal gene, which will in turn enable alternative explanations for the association between incompatibility and colouration, such as fine-scale linkage disequilibrium, genomic rearrangements and pleiotropy, to be tested.

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Comparative genomics reveals insights into avian genome evolution and adaptation

Cited by 933 publications

References 182 publications

Structural genomic changes underlie alternative reproductive strategies in the ruff (Philomachus pugnax)

Structural genomic changes underlie alternative reproductive strategies in the ruff (Philomachus pugnax)

Visual pigments in a palaeognath bird, the emuDromaius novaehollandiae: implications for spectral sensitivity and the origin of ultraviolet vision

Linkage mapping of a polymorphic plumage locus associated with intermorph incompatibility in the Gouldian finch (Erythrura gouldiae)

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