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Kuroki Y Toyoda A Noguchi H Taylor TD Itoh T Kim DS Kim DW Choi SH Kim IC Choi HH Kim YS Satta Y Saitou N Yamada T Morishita S Hattori M Sakaki Y Park HS Fujiyama A 《Nature genetics》2006,38(2):158-167
The mammalian Y chromosome has unique characteristics compared with the autosomes or X chromosomes. Here we report the finished sequence of the chimpanzee Y chromosome (PTRY), including 271 kb of the Y-specific pseudoautosomal region 1 and 12.7 Mb of the male-specific region of the Y chromosome. Greater sequence divergence between the human Y chromosome (HSAY) and PTRY (1.78%) than between their respective whole genomes (1.23%) confirmed the accelerated evolutionary rate of the Y chromosome. Each of the 19 PTRY protein-coding genes analyzed had at least one nonsynonymous substitution, and 11 genes had higher nonsynonymous substitution rates than synonymous ones, suggesting relaxation of selective constraint, positive selection or both. We also identified lineage-specific changes, including deletion of a 200-kb fragment from the pericentromeric region of HSAY, expansion of young Alu families in HSAY and accumulation of young L1 elements and long terminal repeat retrotransposons in PTRY. Reconstruction of the common ancestral Y chromosome reflects the dynamic changes in our genomes in the 5-6 million years since speciation. 相似文献
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A molecular programme for the specification of germ cell fate in mice 总被引:32,自引:0,他引:32
Germ cell fate in mice is induced in proximal epiblast cells by the extra-embryonic ectoderm, and is not acquired through the inheritance of any preformed germ plasm. To determine precisely how germ cells are specified, we performed a genetic screen between single nascent germ cells and their somatic neighbours that share common ancestry. Here we show that fragilis, an interferon-inducible transmembrane protein, marks the onset of germ cell competence, and we propose that through homotypic association, it demarcates germ cells from somatic neighbours. Using single-cell gene expression profiles, we also show that only those cells with the highest expression of fragilis subsequently express stella, a gene that we detected exclusively in lineage-restricted germ cells. The stella positive nascent germ cells exhibit repression of homeobox genes, which may explain their escape from a somatic cell fate and the retention of pluripotency. 相似文献
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Ohinata Y Payer B O'Carroll D Ancelin K Ono Y Sano M Barton SC Obukhanych T Nussenzweig M Tarakhovsky A Saitou M Surani MA 《Nature》2005,436(7048):207-213
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Yamaji M Seki Y Kurimoto K Yabuta Y Yuasa M Shigeta M Yamanaka K Ohinata Y Saitou M 《Nature genetics》2008,40(8):1016-1022
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Yoshiura K Kinoshita A Ishida T Ninokata A Ishikawa T Kaname T Bannai M Tokunaga K Sonoda S Komaki R Ihara M Saenko VA Alipov GK Sekine I Komatsu K Takahashi H Nakashima M Sosonkina N Mapendano CK Ghadami M Nomura M Liang DS Miwa N Kim DK Garidkhuu A Natsume N Ohta T Tomita H Kaneko A Kikuchi M Russomando G Hirayama K Ishibashi M Takahashi A Saitou N Murray JC Saito S Nakamura Y Niikawa N 《Nature genetics》2006,38(3):324-330
Human earwax consists of wet and dry types. Dry earwax is frequent in East Asians, whereas wet earwax is common in other populations. Here we show that a SNP, 538G --> A (rs17822931), in the ABCC11 gene is responsible for determination of earwax type. The AA genotype corresponds to dry earwax, and GA and GG to wet type. A 27-bp deletion in ABCC11 exon 29 was also found in a few individuals of Asian ancestry. A functional assay demonstrated that cells with allele A show a lower excretory activity for cGMP than those with allele G. The allele A frequency shows a north-south and east-west downward geographical gradient; worldwide, it is highest in Chinese and Koreans, and a common dry-type haplotype is retained among various ethnic populations. These suggest that the allele A arose in northeast Asia and thereafter spread through the world. The 538G --> A SNP is the first example of DNA polymorphism determining a visible genetic trait. 相似文献
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Watanabe H Fujiyama A Hattori M Taylor TD Toyoda A Kuroki Y Noguchi H BenKahla A Lehrach H Sudbrak R Kube M Taenzer S Galgoczy P Platzer M Scharfe M Nordsiek G Blöcker H Hellmann I Khaitovich P Pääbo S Reinhardt R Zheng HJ Zhang XL Zhu GF Wang BF Fu G Ren SX Zhao GP Chen Z Lee YS Cheong JE Choi SH Wu KM Liu TT Hsiao KJ Tsai SF Kim CG OOta S Kitano T Kohara Y Saitou N Park HS Wang SY Yaspo ML Sakaki Y 《Nature》2004,429(6990):382-388
Human-chimpanzee comparative genome research is essential for narrowing down genetic changes involved in the acquisition of unique human features, such as highly developed cognitive functions, bipedalism or the use of complex language. Here, we report the high-quality DNA sequence of 33.3 megabases of chimpanzee chromosome 22. By comparing the whole sequence with the human counterpart, chromosome 21, we found that 1.44% of the chromosome consists of single-base substitutions in addition to nearly 68,000 insertions or deletions. These differences are sufficient to generate changes in most of the proteins. Indeed, 83% of the 231 coding sequences, including functionally important genes, show differences at the amino acid sequence level. Furthermore, we demonstrate different expansion of particular subfamilies of retrotransposons between the lineages, suggesting different impacts of retrotranspositions on human and chimpanzee evolution. The genomic changes after speciation and their biological consequences seem more complex than originally hypothesized. 相似文献
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