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1.
Retroposition is increasingly recognized as an important mechanism for the acquisition of new genes. We show that a glycogen synthase kinase-3 gene, shaggy (sgg), retroposed at least 50 MYA in the Drosophila genus to generate a new gene, mojoless (mjl). We have extensively analyzed the function of mjl and examined its functional divergence from the parental gene sgg in Drosophila melanogaster. Unlike Sgg, which is expressed in many tissues of both sexes, Mjl is expressed specifically in the male germ line, where it is required for male germ line survival. Our analysis indicates that mjl has acquired a specific function in the maintenance of male germ line viability. However, it has not completely lost its ancestral biochemical function and can partially compensate for loss of the parental gene sgg when ectopically expressed in somatic cells. We postulate that mjl has undergone functional diversification and is now under stabilizing selection in the Drosophila genus. 相似文献
2.
Inferences about the evolutionary impact of gene duplications often rely on the analysis of their long-term outcome. The fate of the majority of them must, however, be decided shortly after duplication. Here we analysed the evolutionary pattern of 10 mouse genes very recently duplicated by retrotransposition, by sequencing the retroposed copy in five to 10 closely related mouse species. In all cases the retroposed copy experienced accelerated nonsynonymous evolution whereas the divergence pattern of the source copy appeared unaffected by the duplication, consistent with the neofunctionalization model. The analysis further revealed that most retrogenes, including pseudogenes, did not experience a period of relaxed neutral evolution, but have been submitted to purifying selection ever since their retroposition. We propose that these duplicates play a biochemical role but are not indispensable. Purifying selection prevents them from acquiring a negative role until they are lost or silenced. This period of unnecessary redundancy could in rare cases give the time for new functions to evolve. 相似文献
3.
Birth of 'human-specific' genes during primate evolution 总被引:5,自引:0,他引:5
Nahon JL 《Genetica》2003,118(2-3):193-208
Humans and other Anthropoids share very similar chromosome structure and genomic sequence as seen in the 98.5% homology at the DNA level between us and Great Apes. However, anatomical and behavioral traits distinguish Homo sapiens from his closest relatives. I review here several recent studies that address the issue by using different approaches: large-scale sequence comparison (first release) between human and chimpanzee, characterization of recent segmental duplications in the human genome and analysis of exemplary gene families. As a major breakthrough in the field, the heretical concept of human-specific genes has recently received some supporting data. In addition, specific chromosomal regions have been mapped that display all the features of gene nurseries and could have played a major role in gene innovation and speciation during primate evolution. A model is proposed that integrates all known molecular mechanisms that can create new genes in the human lineage. 相似文献
4.
Hisano M Yamada S Tanaka H Nishimune Y Nozaki M 《Molecular reproduction and development》2003,65(2):148-156
The Tact1 and Tact2 genes, each of which encodes an actin-like protein, are exclusively expressed and translated in haploid germ cells in testis. To characterize the haploid germ cell-specific gene structure, a mouse genomic library was screened with a Tact1 cDNA as a probe, and four independent phage clones containing the Tact1 gene were isolated. Southern hybridization and sequencing analyses revealed that Tact1 and Tact2 were single copy genes contained on a common fragment in a head-to-head orientation, and that the distance between these genes was less than 2 kb. Comparison of the nucleotide sequences of genomic DNA and cDNA demonstrated that Tact1 and Tact2 lack introns, although all known actin or actin-related genes in mammals contain introns. Human Tact orthologues also lack introns and are located within 6.4 kb in a head-to-head orientation. These findings indicate that Tact1 and Tact2 or one of these genes arose by retroposition of a spliced mRNA transcribed from an actin progenitor gene prior to the divergence of rodents and primates. The Tact1 and Tact2 genes are unusual retroposons in that they have retained an open reading frame and are expressed in testicular germ cells, because almost all retroposons become pseudogenes. It was revealed that a 2kb sequence between the two genes bidirectionally controls haploid germ-cell specific expression by analyzing transgenic mice. Comparison of the murine Tact genes with their human orthologues showed a high level of identity between the two species in the 5'-upstream and non-coding sequences as well as in the coding region, indicating that conserved elements in these regions may be involved in the regulation of haploid germ cell-specific expression. The promoter region contains no TATA-, CCAAT- or GC-boxes, although there are potential cAMP response element (CRE)-like motifs in the 5'-upstream region and the 5'-untranslated region in Tact1 and Tact2, respectively. Transient promoter analyses indicate that CREMtau may activate Tact1 and Tact2 expression in germ cells. 相似文献
5.
About half of the mammalian genome is composed of retroposons. Long interspersed elements (LINEs) and short interspersed elements (SINEs) are the most abundant repetitive elements and account for about 21% and 13% of the human genome, respectively. SINEs have been detected in all major mammalian lineages, except for the South American order Xenarthra, also termed Edentata (armadillos, anteaters, and sloths). Investigating this order, we discovered a novel high-copy-number family of tRNA derived SINEs in the nine-banded armadillo Dasypus novemcinctus, a species that successfully crossed the Central American land bridge to North America in the Pliocene. A specific computer algorithm was developed, and we detected and extracted 687 specific SINEs from databases. Termed DAS-SINEs, we further divided them into six distinct subfamilies. We extracted tRNA(Ala)-derived monomers, two types of dimers, and three subfamilies of chimeric fusion products of a tRNA(Ala) domain and an approximately 180-nt sequence of thus far unidentified origin. Comparisons of secondary structures of the DAS-SINEs' tRNA domains suggest selective pressure to maintain a tRNA-like D-arm structure in the respective founder RNAs, as shown by compensatory mutations. By analysis of subfamily-specific genetic variability, comparison of the proportion of direct repeats, and analysis of self-integrations as well as key events of dimerization and deletions or insertions, we were able to delineate the evolutionary history of the DAS-SINE subfamilies. 相似文献
6.
Evolution of novel genes 总被引:19,自引:0,他引:19
Manyuan Long 《Current opinion in genetics & development》2001,11(6):673-680
Much progress in understanding the evolution of new genes has been accomplished in the past few years. Molecular mechanisms such as illegitimate recombination and LINE element mediated 3' transduction underlying exon shuffling, a major process for generating new genes, are better understood. The identification of young genes in invertebrates and vertebrates has revealed a significant role of adaptive evolution acting on initially rudimentary gene structures created as if by evolutionary tinkers. New genes in humans and our primate relatives add a new component to the understanding of genetic divergence between humans and non-humans. 相似文献
7.
Chuanzhu Fan Maria D. Vibranovski Ying Chen Manyuan Long 《植物学报(英文版)》2007,49(6):15-926
To systematically estimate the gene duplication events In closely related species, we have to use comparative genomlc approaches, either through genomlc sequence comparison or comparative genomlc hybridization (CGH). Given the scarcity of complete genomlc sequences of plant species, in the present study we adopted an array based CGH to Investigate gene duplications In the genus Arabldopsls. Fragment genomlc DNA from four species, namely Arabidopsls thallana, A. lyrata subsp, lyrata, A. lyrata subsp, petraea, and A. halleri, was hybridized to Affymetrlx (Santa Clara, CA, USA) tiling arrays that are designed from the genomlc sequences of A. thallana. Pairwlse comparisons of signal intensity were made to infer the potential duplicated candidates along each phylogenetic branch. Ninety-four potential candidates of gene duplication along the genus were Identified. Among them, the majority (69 of 94) were A. thallana lineage specific. This result indicates that the array based CGH approach may be used to Identify candidates of duplication In other plant genera containing closely related species, such as Oryza, particularly for the AA genome species. We compared the degree of gene duplication through retrotransposon between O. satlva and A. thallana and found a strikingly higher number of chimera retroposed genes In rice. The higher rate of gene duplication through retroposltlon and other mechanisms may Indicate that the grass species Is able to adapt to more diverse environments. 相似文献
8.
9.
To systematically estimate the gene duplication events in closely related species, we have to use comparative genomic approaches, either through genomic sequence comparison or comparative genomic hybridization (CGH). Given the scarcity of complete genomic sequences of plant species, in the present study we adopted an array based CGH to investigate gene duplications in the genus Arabidopsis. Fragment genomic DNA from four species, namely Arabidopsis thaliana, A. lyrata subsp. lyrata, A. lyrata subsp. petraea, and A. halleri, was hybridized to Affymetrix (Santa Clara, CA, USA) tiling arrays that are designed from the genomic sequences of A. thaliana. Pairwise comparisons of signal intensity were made to infer the potential duplicated candidates along each phylo-genetic branch. Ninety-four potential candidates of gene duplication along the genus were identified. Among them, the majority (69 of 94) were A. thaliana lineage specific. This result indicates that the array based CGH approach may be used to identify candidates of duplication in other plant genera containing closely related species, such as Oryza, particularly for the AA genome species. We compared the degree of gene duplication through retrotransposon between O. sativa and A. thaliana and found a strikingly higher number of chimera retroposed genes in rice. The higher rate of gene duplication through retroposition and other mechanisms may indicate that the grass species is able to adapt to more diverse environments. 相似文献
10.
关于假基因的研究进展 总被引:3,自引:1,他引:2
随着人类基因组计划不断深入,对于占人类基因组 97% 的非表达序列的研究也逐渐成为热点⒚在基因克隆和基因表达研究的过程中,返座假基因是我们经常碰到的问题⒚本文不仅对返座假基因的结构特征进行了小结,并且对返座假基因编码潜能、返座机理以及在进化过程中的作用进行了综述,并报道了该领域的研究成果及发展方向⒚ 相似文献