从细胞色素b基因全序列差异分析岩羊和矮岩羊的系统进化关系

矮岩羊的分类地位从它被发现后就一直存在着争议。本文测定了分别来自四川和青海的岩羊(Pseudois nayaur)和矮岩羊(Pseudois schaeferi)共7个个体的Cyt b基因全序列(1140bp)，结合山羊(Capra hircus)、北山羊(Capra ibex)、绵羊(Ovis aries)和盘羊(Ovis ammon)同源DNA序列进行比较，分析了碱基组成和变异情况以及核苷酸序列差异。用简约法和距离距阵法构建了分子系统树，得到了相同的拓扑结构。结果显示：岩羊和矮岩羊互为单系群，有着较山羊、北山羊、绵羊和盘羊间更近的亲缘关系，它们之间的序列差异(Cyt b＝3．2％)低于牛科不同种间的序列差异水平(8．3％-12．1％)，明显高于种内个体的序列差异，而处于牛科亚种的序列差异范围内。因此，推测矮岩羊与岩羊之间的差异可能已经达到了亚种的水平。它们的分歧时间为l-3百万年[动物学报49(2)：198—204，2003]。     

基于Cyt b基因探讨羚羊亚科原羚属系统发生关系

原羚属物种在羚羊亚科中的分类地位尚存在很多争议。本文测定了原羚属的黄羊和藏原羚细胞色素b基因全序列(1140bp),并与牛科其它属31个种的同源序列进行比较,对其碱基组成变异情况及核苷酸序列差异进行了分析。基于细胞色素b基因全序列,用简约法(MP)、邻接法(NJ)和似然法(ML)构建了系统进化树。结果表明：黄羊和藏原羚的序列差异为3．78％,颠换数目近乎为0,其突变远未饱和;原羚属内黄羊和藏原羚为不同种,单系发生;原羚属与赛加羚羊属、犬羚属及跳羚属等并系发生,原羚属隶属于羚羊亚科,应为独立属;羚羊亚科组成属间多为并系起源。根据序列差异值2％／百万年的细胞色素6分子钟,推测黄羊和藏原羚分歧时间大约为1～2百万年;原羚属与羚羊亚科其它属分歧时间大约在5．7～8百万年。     

毛冠鹿与3种麂属动物的线粒体细胞色素b 的系统进化分析

采用PCR直接测序法,获得毛冠鹿、小鹿、赤麂和黑麂等4种麂亚科动物线粒体细胞色素b核酸序列366bp,麂属动物之间的序列差异为3.5%-4.6%,毛冠鹿属与麂属之间的序列差异为9.29%-10.11%,麂属3种动物分歧时间约为142-184万年,毛冠鹿与麂属动物的分歧时间约为370万年。结合鹿科其余3亚科动物的同源序列,用MEGA软件的Neighbor-Joining Method(NJ法）和最大简约法构建系统进化树。结果表明,小麂、赤麂与黑麂组成一个单系群,毛冠鹿细胞色素b核苷酸序列与麂属的分化程度似已达到属间水平。     

岩羊不同种群细胞色素b基因序列差异的初步分析

测定了来自四川和宁夏两个种群的岩羊Pseudois nayaur共10个个体的线粒体DNA细胞色素b基因全序列(1140 bp),分析了碱基组成和变异情况以及核苷酸序列差异,计算了岩羊种群的核苷酸多样性,采用简约法和距离矩阵法构建了不同的分子系统树,得到了相似的拓扑结构,从分子水平初步探讨了岩羊不同种群的遗传结构.结果显示:岩羊整个群体的遗传多态性较高,四川种群的遗传变异水平较宁夏种群的高;同时,四川种群岩羊个体之间的平均序列差异为2.15,宁夏种群岩羊个体之间的平均序列差异为0.71,四川种群和宁夏种群之间的序列差异为2.61,这反映了四川种群和宁夏种群种群内的差异以及四川种群和宁夏种群种群间的差异都属于个体间的变化;然而四川种群的个体11(Si11)与该种群内的其它个体的平均序列差异和平均Kimura两参数距离远高于它与宁夏种群个体间的相应数值,存在着较为明显的分歧.形成这一现象的原因可能要涉及到岩羊在中国的地理演化和扩散问题.     

基于线粒体Cyt b 和核基因ZFY 探讨羊族物种之间的系统发生关系

为了阐明羊族物种之间的系统发生关系并解决岩羊属中矮岩羊物种的有效性问题,本文测定了来自金沙江河谷地区栖息于林线以上岩羊和林线以下矮岩羊共226 份粪便DNA 样品的线粒体Cyt b 基因全序列(1 140 bp)和核基因ZFY 部分序列(612 bp),结合从GenBank 中检索到的羊族物种同源DNA 序列进行比较,利用最大简约法和最大似然法构建分子系统发育树,根据获得的拓扑结构初步探讨它们的系统进化关系。结果表明,绵羊属的绵羊与山羊属、塔尔羊属、岩羊属各物种亲缘关系最远,喜马拉雅塔尔羊和岩羊属、山羊属的亲缘关系最近。在进化树的岩羊属这一分支中,金沙江河谷地带岩羊和矮岩羊与内蒙古、青海、四川其它地理种群的岩羊聚为一支,同时分布在这一区域的部分岩羊和矮岩羊在Cyt b 基因和ZFY 基因单倍型上存在共享现象。历史上的气候事件可能造成金沙江河谷地带岩羊和矮岩羊种群之间相互迁移,偏雄性扩散促进了各地理种群之间的基因交流。因此不支持矮岩羊为独立的物种,建议将金沙江河谷地带的岩羊和矮岩羊都划分到岩羊四川亚种(Pseudois nayaur szechuanensis)。由于它们的形态和生态上存在一定的分化,建议将林线以下矮岩羊作为一个独立的管理单元进行保护与管理。     

板角山羊mtDNA Cyt b基因变异特点及系统进化研究

测定了板角山羊品种13个个体的细胞色素b基因全序列(1140 bp),比较分析了群体中细胞色素b基因的碱基组成和序列间碱基的变异情况,结果显示:在该品种(群体)中细胞色素b基因序列中6个变异位点上观察到11次T-C间和2次A-G间的碱基转换,除了有2次T-C间碱基转换发生在密码子第2位点为非同义突变以外,其余的11次碱基转换发生在密码子第3位点,均为同义突变;有1次T-G间碱基颠换发生在密码子第2位点,为非同义突变;观察到5种单倍型,单倍型多样度为0.8077.并以绵羊为外群,与山羊属其他种的同源区序列构建系统发生树.结果显示, 在系统地位上板角山羊与胃石山羊有较近的亲缘关系.     

基于细胞色素b基因的中国岩羊不同地理种群遗传差异分析

为了揭示中国岩羊不同地理种群的遗传差异,探讨岩羊亚种分化的分子机制,采用中国岩羊不同地理种群的细胞色素b(Cyt b)基因的全序列,分析了碱基变异情况、遗传距离以及核苷酸序列差异。用最大似然法和贝叶斯法构建分子系统树并对获得的拓扑结构进行分析。结果发现,西藏亚种与四川亚种Cyt b基因平均序列差异为4.2%(±0.007),处于偶蹄目亚种的序列差异范围内,支持了目前对岩羊西藏亚种的分类地位。四川亚种内部各地理种群之间的遗传距离(0.033±0.0 111)与它们分别到西藏种群的遗传距离(0.042±0.007)差异不显著(t=1.824,P=0.084),说明四川亚种内部各地理种群间已经发生较显著的遗传分化。其中,四川、甘肃和青海种群亲缘关系较近,并与四川亚种内部的其它种群已产生了显著的遗传分化。因此认为四川亚种内部各地理种群的种下分化需要深入研究。     

基于cytb基因分析帕米尔盘羊和新疆地方家绵羊的系统发育

[目的]研究帕米尔盘羊对新疆地方家绵羊是否有遗传贡献。[方法]测定了盘羊、家绵羊75个体的细胞色素b基因全序列,分析其遗传多样性,计算不同群体间遗传距离,进而构建系统发生树。[结果]新疆地方绵羊中检测到43个多态位点,定义为23个单倍型,单倍型多样度(Hd)为0.889±0.00102,核苷酸多样度(Pi)为0.521%。新疆地方家绵羊群体可分为4个支系(A、B、C和D),其中支系D首次在新疆多浪羊群体中被检测到。[结论]系统发育分析表明,新疆绵羊有多个母系起源或经过多次驯化,摩弗伦羊是绵羊母系祖先之一。     

多刺蚁属线粒体细胞色素b序列变异及系统发育关系分析

多刺蚁属18种昆虫线粒体细胞色素b基因都显示出高A+T含量,达到65.11%~73.66%,表现出很强的A/T碱基偏好性。针对748 bp的基因核苷酸多序列比对显示细胞色素b基因之间同源性高,碱基之间无插入或缺失突变,序列变异形式主要表现为替换。对细胞色素b蛋白的部分序列(133~143个氨基酸)进行比对,结果显示完全无变异的氨基酸有34个,占总氨基酸数目的 23.78%~25.56%,同时也鉴定出至少6个保守的功能结构域。基于细胞色素b蛋白部分序列采用邻接法构建了多刺蚁属分子系统树,其中4对蚁种亲缘关系较近,有3个蚁种在进化树中各自形成一个独立的分支,显示出不同的进化起源。     

基于COI基因分析盘羊、塔什库尔干羊的遗传多样性和系统进化

[目的]从线粒体细胞色素C氧化酶亚基Ⅰ(cytochrome c oxidase subumitⅠ,COI)基因水平探讨盘羊对家绵羊有无遗传贡献,了解盘羊和塔什库尔干羊遗传多样性和系统进化。[方法]采用粪便DNA提取法、PCR和测序方法对3只盘羊和68只塔什库尔干羊共71个样品的线粒体COI基因全序列进行分析。[结果]塔什库尔干羊单倍型多样度为0.890±0.001 1,核苷酸多样性为0.00421,表明塔什库尔干羊遗传多样性较为丰富;系统发育分析表明,塔什库尔干羊有4个母系起源,分别是A、B、C和E世系。[结论]欧洲摩弗伦羊对塔什库尔干羊世系B有遗传贡献,基于线粒体COI基因分析,尚未发现盘羊对塔什库尔干羊有遗传贡献的分子证据。     

从线粒体细胞色素b基因探讨矮岩羊物种地位的有效性

用采自四川省的岩羊和矮岩羊共18个头骨或皮张标本，分析了线粒体Cyt6基因1140bp的全序列(其中一个样品只测到802bp的基因片段)。用NJ、MP、ML等系统发育分析法分别重建的系统发育树的拓扑结构完全一致，均不支持矮岩羊是单系群。结果提示：所研究的全部样品都属于同一个物种，即岩羊P．nayaur，不支持矮岩羊的物种地位。根据基于17个样品Cyt6基因全序列的系统发育树和遗传变异以及地理分布，这些岩羊样品聚为5支，根据地理区划和本文分析结果，四川的岩羊可分为摩天岭、川西、川西北、川西南和川北5个种群。基于17个样品Cyt6基因1137bp的编码区，共定义了岩羊的16种单元型，在5个种群间未发现共享的单元型。     

A Cladistic Analysis of Mitochondrial Ribosomal DNA from the Bovidae

There is a huge data base of genetic information for the domestic artiodactyl speciesBos taurus(cow),Ovis aries(sheep), andCapra hircus(goat). However, the phylogenetic relationships of these economically critical taxa and their close relatives, family Bovidae, remain for the most part unresolved. In this report, we aligned new mitochondrial (mt) 12S and 16S ribosomal (r) DNA sequences from 26 bovid taxa with published sequences. Phylogenetic analyses of the more than 64 kilobases of mt rDNA from 57 taxa support a basal division in the Bovidae that separatesBosand its close relatives fromCapra, Ovis,and their kin. As suggested by previous molecular and morphological studies, “antelopes” are a paraphyletic assemblage. Caprinae (sheep, goats, goat antelopes, and musk oxen) groups consistently with hippotragine and alcelaphine antelopes, while Bovini (cattle and buffaloes) clusters with tragelaphine and boselaphine antelopes. The traditional tribal subdivisions of Bovidae are supported in most cases, but there are exceptions within Caprinae and Antilopinae (gazelles and close relatives). The rDNA data consistently place the enigmatic generaPelea, Pantholops,andSaiga,but the origin ofAepyceros,the impala, remains obscure. Combined phylogenetic analyses of the rDNA data with the skeletal characters of Gentry (1992) were used to assess the stability of the molecular results.     

High-resolution G-banded karyotype and idiogram of the goat: a sheep-goat G-banded comparison

An elongated G-banded karyotype and idiogram of the domestic goat (Capra hircus) is presented. Sheep (Ovis aries)-goat comparison suggests the terminal light band (Xq 2 9) present in the goat is absent in the sheep.     

Comparative structure and evolution of goat and sheep satellite I DNAs.

The satellite I DNAs of domestic goat (Capra hircus) and domestic sheep (Ovis aries) have been studied using molecular hybridisation and restriction enzyme analysis. Both satellite DNAs are composed of repeat units of 820 base pairs in length, but their restriction maps, although similar, differ in certain respects. Thus the majority of sheep satellite I repeat units have two EcoRI sites and one AluI site, whereas the majority of goat satellite I repeat units have one EcoRI site and two AluI sites. The sheep satellite I repeat units with the two EcoRI sites are much more homogeneous than the repeats forming the remainder of the satellite, as judged by the difference in the melting temperatures of native and reassociated molecules. DNAs from species of wild sheep and goats were screened for the presence of these repeat units, and they appear to have been amplified during the radiation of the Ovis genus. Goat satellite I is composed of a single sequence type which has changed through base substitution until the sequence now shows considerable heterogeneity. It is proposed that the major sequence types of these two satellite DNAs were amplified by different saltatory replication events at different times in the evolution of the group.     

New aspects of an old discussion - phylogenetic relationships of Ammotragus and Pseudois within the subfamily Caprinae based on comparison of the 12S rDNA sequences

A mitochondrial 12S rDNA fragment was amplified by PCR and directly sequenced from eight members of the Caprinae ( Ammotragus lervia, Capra aegagrus, Ovis ammon, O. musimon, O. nivicola, O. orientalis, O. vignei and Pseudois nayaur ). Multiple alignment of the sequences and genetic distance calculation with the'distance of Taijama and Nei and the algorithms of Saitou and Nei (neighbour-joining - NJ) showed that Pseudois is grouped together with Capra and Ammotragus . All members of the genus Oxis formed a second cluster. Phylogenetic analyses supported these results. NJ-analyses and maximum parsimony (MP) trees did not support the present phylogenetic classification. Bootstrap values of 95% (NJ) and 96% (MP) confirms the grouping of P. nayaur and C. aegagrus . Another clade, O. ammon and O. orientalis supported weakly by bootstrap values of 65% (MP) and 70% (NJ) and the clade O. musimonand O. vignei had bootstrap values of 50% (MP) and 60% (NJ). So the phylogenetic relationship within the genus Oxis is still unsafe. But the parsimony analyses lead to the conclusion that Ammotragus represents an old lineage that diverged from ancestral caprines together with true sheep a long time ago and that both true goats and blue sheep forms represent one evolutionary lineage.     

Detection of Dichelobacter nodosus in wild ungulates (Capra ibex ibex and Ovis aries musimon) and domestic sheep suffering from foot rot using a two-step polymerase chain reaction

Severe keratinous hoof afflictions have been recorded in ibex (Capra ibex ibex) since 1995 and more recently in mouflon (Ovis aries musimon) in Switzerland. Based on clinical observations and comparison with diseases known to affect domestic ungulates, it was hypothesized these wild ungulates were affected by foot rot associated with infection with Dichelobacter nodosus. Dichelobacter nodosus has been shown to be the essential pathogen for initiation and establishment of foot rot, a highly contagious foot disease of sheep and goats. Because these bacteria could not be cultivated from affected ibex, we developed a nested polymerase chain reaction that allowed detection of D. nodosus without culture. Using this assay, we were able to diagnose D. nodosus infections of ibex, mouflon, and domestic sheep in natural outbreaks. From these results we conclude that D. nodosus plays an etiological role in foot rot not only in domestic but also in wild Caprinae.     

Comparative aspects of biochemical polymorphism in the blood of Caprinae species and their hybrids

Biochemical variation at 14 blood loci was reviewed, and specific features compared experimentally in sheep Ovis aries, mouflon Ovis musimon, goat Capra hircus, aoudad Ammotragus lervia and in 2 stillborn aoudad × goat hybrids. Variation at 3 loci was also studied in dall sheep Ovis dalli, bighorn sheep Ovis canadensis and rocky mountain goat Oreamnos americanus. Haemoglobin C production in an anaemic Hb AB mouflon and in mouflon × sheep hybrids was examined. Mouflon differ from domestic sheep in that synthesis of both Hb β^AHb β^Bchains is switched off during Hb C production. The mouflon × sheep hybrids switched off one or both chains depending on whether they had inherited sheep or mouflon Hb β chain genes. In general aoudad showed a closer affinity to goats than to sheep.     

The sequence and phylogenesis of the α-globin genes of Barbary sheep (Ammotragus lervia), goat (Capra hircus), European mouflon (Ovis aries musimon) and Cyprus mouflon (Ovis aries ophion)

In order to investigate the polymorphism of α-globin chain of hemoglobin amongst caprines, the linked ^Iα and ^IIα globin genes of Barbary sheep (Ammotragus lervia), goat (Capra hircus), European mouflon (Ovis aries musimon), and Cyprus mouflon (Ovis aries ophion) were completely sequenced, including the 5′ and 3′ untranslated regions. European and Cyprus mouflons, which do not show polymorphic α globin chains, had almost identical α globin genes, whereas Barbary sheep exhibit two different chains encoded by two nonallelic genes. Four different α genes were observed and sequenced in goat, validating previous observations of the existence of allelic and nonallelic polymorphism. As in other vertebrates, interchromosomal gene conversion appears to be responsible for such polymorphism. Evaluation of nucleotide sequences at the level of molecular evolution of the ^Iα-globin gene family in the caprine taxa suggests a closer relationship between the genus Ammotragus and Capra. Molecular clock estimates suggest sheep-mouflon, goat-aoudad, and ancestor-caprine divergences of 2.8, 5.7, and 7.1 MYBP, respectively.     

Genetic distinctiveness of endangered dwarf blue sheep (Pseudois nayaur schaeferi): evidence from mitochondrial control region and Y-linked ZFY intron sequences

To elucidate the controversial systematic relationship of blue sheep (Pseudois nayaur) and endangered dwarf blue sheep, we sequenced part of the mtDNA control region and Y-linked ZFY intron, and carried out phylogenetic analyses. Mitochondrial results revealed that the dwarf blue sheep is a strongly supported monophyletic group, with an average of 12.21% sequence divergence from the blue sheep. This is the first genetic evidence for the distinctness of the dwarf blue sheep. ZFY intron results showed an average of 0.51% sequence divergence, and one shared haplotype between the dwarf blue sheep and blue sheep. By analyzing an expanded data set that incorporated ZFY intron sequences of two additional Ovis (sheep) species-O. nivicola and O. ammon--we demonstrated that ZFY intron provides good resolution at the species and genus levels. The ZFY intron sequence divergence between dwarf blue sheep and blue sheep was comparable to that within the two Ovis species. Moreover, we found intraspecific sequence variation in ZFY intron for all three species examined. We propose that dwarf blue sheep be designated as a subspecies of blue sheep, P. n. schaeferi.