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主要组织相容性复合体(MHC)是脊椎动物基因组中高度多态的基因家族,其编码产物在脊椎动物免疫系统中起着重要作用。受湿地生境污染和破坏等因素的影响,全球现存鹤科(Gruidae)动物大都已处于受胁状态。为了解鹤科动物MHC-I基因序列信息,本研究设计通用引物对灰鹤(Grus grus)和肉垂鹤(Bugeranus carunculatus)MHC-I基因进行分离。结果从1只灰鹤和1只肉垂鹤血液基因组中分别分离到2条和3条长约1 500 bp的序列片段,这暗示鹤科动物至少存在两个MHC-I基因座位。分离到的核苷酸序列均可翻译成正常的氨基酸,表明它们具有一定的生物学功能。MHC-I抗原结合区的核苷酸和氨基酸变异率,灰鹤分别为5.0%和9.6%,肉垂鹤为9.1%和14.6%。两种鹤抗原肽结合位点的非同义替代率与同义替代率的比值分别为7.348 8和2.145 2,表明其受到强烈的正选择作用。贝叶斯系统发生树显示,鹤科动物MHC-I基因并未按物种聚类,暗示MHC-I基因跨物种多态性的存在。本研究获得的MHC-I基因通用引物及序列信息,可为今后濒危鹤科动物的保护遗传学研究奠定基础。  相似文献   
2.
We compared historic and contemporary genetic variation in two threatened New Zealand birds (saddlebacks and robins) with disparate bottleneck histories. Saddlebacks showed massive loss of genetic variation when extirpated from the mainland, but no significant loss of variation following a severe bottleneck in the 1960s when the last population was reduced from approximately 1000 to 36 birds. Low genetic variation was probably characteristic of this isolated island population: considerably more genetic variation would exist in saddlebacks today if a mainland population had survived. In contrast to saddlebacks, contemporary robin populations showed only a small decrease in genetic variation compared with historical populations. Genetic variation in robins was probably maintained because of their superior ability to disperse and coexist with introduced predators. These results demonstrate that contemporary genetic variation may depend more greatly on the nature of the source population and its genetic past than it does on recent bottlenecks.  相似文献   
3.
Abstract

The pests and weeds that can affect conservation values in New Zealand are mostly introduced species, including 31 species of mammals, a small number of birds, a few fish and amphibians, an unknown number of invertebrate species (but particularly two wasps), and at least 75 introduced plants capable of permanently altering native ecosystems.  相似文献   
4.
Repeated population bottlenecks can lead to loss of genetic variation and normally should be avoided in threatened species to preserve evolutionary potential. We examined the effect of repeated bottlenecks, in the form of sequential translocations, on loss of genetic variation in a threatened passerine, the saddleback (Philesturnus carunculatus carunculatus), a species that has recovered from a remnant population with historically low levels of genetic variation. Although a slight but nonsignificant loss of alleles may have occurred between the first-order translocation and the extirpated source population, first-, second-, and third-order translocated populations had very similar levels of genetic variation to each other. The most obvious difference among the seven island populations appeared to lie in allele frequencies with little or no loss of alleles among extant populations. Although sequential translocations are known to cause loss of variation in genetically diverse species, our study indicates that genetically depauperate species may be less sensitive to loss of genetic variation through founder events presumably because the few remaining alleles are well represented in founding individuals. These results show that ancient bottlenecks may have a long-term effect on genetic variation, to the extent that contemporary population bottlenecks may leave no appreciable genetic signature. Our results suggest that subjecting genetically depauperate endangered species to sequential translocations could be used to rapidly establish new populations without further eroding genetic variation.  相似文献   
5.
The genetic effects of population bottlenecks have been well studied theoretically, in laboratory studies, and to some extent, in natural situations. The effects of serial population bottlenecks (SPBs), however, are less well understood. This is significant because recurrent population bottlenecks are likely to be a common feature of the life history of many species. The lack of understanding of SPBs in natural populations has certainly been hampered by a lack of good examples where it can be studied. We report the results of a study into island populations of North Island Saddleback (Philesturnus carunculatus rufusater) that have undergone 13 translocations since 1964, all but one of these has been deliberate and for which detailed records are available. We have examined nine island populations of this passerine bird, from the source population, three first-order bottlenecked and five second-order bottlenecked populations. We examine variation in these nine populations using multilocus minisatellite DNA markers, together with Mendelian loci comprising six microsatellite DNA loci and a variable isozyme locus. Despite the generally low level of genetic variation in the Saddleback source population, we were able to detect a pattern of significant changes in both the mean number of minisatellite DNA bands per individual and the frequency of alleles at the Mendelian loci, with increasing population bottlenecks. This study generally shows that in a natural population, SPBs result in more pronounced genetic changes than do single population bottlenecks by themselves, thereby highlighting their importance for the conservation of rare and endangered species.  相似文献   
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