Genetic diversity of cattle in South China as revealed by blood protein electrophoresis

Genetic variation of 31 blood protein loci in 236 cattle from eight South China populations (including mithan, Bos frontalis) and a Holstein population was investigated by means of horizontal starch gel electrophoresis. Thirteen loci (ALB, CAR, Hb-b, Np, PGM, Amy-I, PEP-B, AKP, 6PGD, Cp, Pa, EsD, and TF) were found to be polymorphic. The comparison of average heterozygosities (H) shows that all the native cattle embrace a rich genetic diversity Our results on protein polymorphism suggest that cattle in China originated mainly from Bos indicus and Bos taurus; Xuwen, Hainan, Wenshan, and Dehong cattle and the Dehong zebu are close to zebu-type cattle, and Diqing and Zhaotong cattle are close to the taurine. The mithan was very different from other native cattle, and we suggest that its origin was complicated and may be influenced by other cattle species.

Mitochondrial DNA variation in cattle of South China: origin and introgression

Ten restriction endonucleases were used to investigate the mitochondrial DNA restriction fragment length polymorphism (mtDNA RFLP) of 11 native cattle breeds and one cultivated cattle breed in South China. Twenty-three restriction morphs were detected, which can be sorted into five haplotypes, A phylogenetic tree of the haplotypes was constructed by using the 'upgma' method. Our study showed that haplotype I and II are identical to the zebu (Bos indicus) and taurine (Bos taurus) haplotypes, respectively. Zebu and taurine were the two major origins of cattle populations in South China, and the zebu probably had more influence on the native cattle population than taurine did. Haplotype III is identical to haplotype I of yak (Bos grunniens), which was only detected in the Diqing cattle breed. Haplotype IV was detected for the first time. This haplotype, found only in Dehong cattle, might be from an independent domestication event, probably from another Bos indicus population. Divergence of haplotypes I and IV occurred about 268,000-535 000 years ago, much earlier than the 10,000-year history of cattle husbandry. Our results also suggest a secondary introgression of mtDNA from yak to Diqing cattle.

Zebu Cattle Are an Exclusive Legacy of the South Asia Neolithic

Animal domestication was a major step forward in human prehistory, contributing to the emergence of more complex societies. At the time of the Neolithic transition, zebu cattle (Bos indicus) were probably the most abundant and important domestic livestock species in Southern Asia. Although archaeological evidence points toward the domestication of zebu cattle within the Indian subcontinent, the exact geographic origins and phylogenetic history of zebu cattle remains uncertain. Here, we report evidence from 844 zebu mitochondrial DNA (mtDNA) sequences surveyed from 19 Asiatic countries comprising 8 regional groups, which identify 2 distinct mitochondrial haplogroups, termed I1 and I2. The marked increase in nucleotide diversity (P < 0.001) for both the I1 and I2 haplogroups within the northern part of the Indian subcontinent is consistent with an origin for all domestic zebu in this area. For haplogroup I1, genetic diversity was highest within the Indus Valley among the three hypothesized domestication centers (Indus Valley, Ganges, and South India). These data support the Indus Valley as the most likely center of origin for the I1 haplogroup and a primary center of zebu domestication. However, for the I2 haplogroup, a complex pattern of diversity is detected, preventing the unambiguous pinpointing of the exact place of origin for this zebu maternal lineage. Our findings are discussed with respect to the archaeological record for zebu domestication within the Indian subcontinent.

Assessment of cattle genetic introgression into domestic yak populations using mitochondrial and microsatellite DNA markers

Hybridization between yak Poephagus grunniens and taurine Bos taurus or indicine B. indicus cattle has been widely practiced throughout the yak geographical range, and gene flow is expected to have occurred between these species. To assess the impact of cattle admixture on domestic yak, we examined 1076 domestic yak from 29 populations collected in China, Bhutan, Nepal, India, Pakistan, Kyrgyzstan, Mongolia and Russia using mitochondrial DNA and 17 autosomal microsatellite loci. A cattle diagnostic marker-based analysis reveals cattle-specific mtDNA and/or autosomal microsatellite allele introgression in 127 yak individuals from 22 populations. The mean level of cattle admixture across the populations, calculated using allelic information at 17 autosomal microsatellite loci, remains relatively low (mY(cattle) = 2.66 +/- 0.53% and Q(cattle) = 0.69 +/- 2.58%), although it varies a lot across populations as well as among individuals within population. Although the level of cattle admixture shows a clear geographical structure, with higher levels of admixture in the Qinghai-Tibetan Plateau and Mongolian and Russian regions, and lower levels in the Himalayan and Pamir Plateau region, our results indicate that the level of cattle admixture is not significantly correlated with the altitude across geographical regions as well as within geographical region. Although yak-cattle hybridization is primarily driven to produce F-1 hybrids, our results show that the subsequent gene flow between yak and cattle took place and has affected contemporary genetic make-up of domestic yak. To protect yak genetic integrity, hybridization between yak and cattle should be tightly controlled.

Genetic diversity and divergence in Chinese yak (Bos grunniens) populations inferred from blood protein electrophoresis

In 6 Chinese yak (Bos. grunniens) populations including 177 yaks, 34 blood protein loci were studied by horizontal starch gel electrophoresis, four of these loci (AKP: ALB, LDH-1, TF) were found to be polymorphic. The percentage of polymorphic loci(P) is 0.118, the mean individual heterozygosity(H) is 0.015, which means a low level of genetic diversity in the whole Chinese yak population. The coefficient of gene differentiation (G(ST)) is 0.0625, which indicated an almost-indistinguishable divergence among different populations at the level of blood protein electrophoresis.

Polymorphism in mitochondrial DNA (mtDNA) of yak (Bos grunniens)

Mitochondrial DNAs (mtDNA) from 21 yaks (Bos grunniens) were assayed for restriction fragment length polymorphisms by using 20 restriction endonucleases, six of which (AvaI, AvaII, BglII, EcoRI, HindIII, and HpaI) detected polymorphism. Four different mtD

New insights into the karyotypic relationships of Chinese muntjac (Muntiacus reevesi), forest musk deer (Moschus berezovskii) and gayal (Bos frontalis)

To investigate the karyotypic relationships between Chinese muntjac (Muntiacus reevesi), forest musk deer (Moschus berezovskii) and gayal (Bos frontalis), a complete set of Chinese muntjac chromosome-specific painting probes has been assigned to G-banded chromosomes of these three species. Sixteen autosomal probes (i.e. 6-10, 12-22) of the Chinese muntjac each delineated one pair of conserved segments in the forest musk deer and gayal, respectively. The remaining six autosomal probes (1-5, and 11) each delineated two to five pairs of conserved segments. In total, the 22 autosomal painting probes of Chinese muntjac delineated 33 and 34 conserved chromosomal segments in the genomes of forest musk deer and gayal, respectively. The combined analysis of comparative chromosome painting and G-band comparison reveals that most interspecific homologous segments show a high degree of conservation in G-banding patterns. Eleven chromosome fissions and five chromosome fusions differentiate the karyotypes of Chinese muntjac and forest musk deer; twelve chromosome fissions and six fusions are required to convert the Chinese muntjac karyotype to that of gayal; one chromosome fission and one fusion separate the forest musk deer and gayal. The musk deer has retained a highly conserved karyotype that closely resembles the proposed ancestral pecoran karyotype but shares none of the rearrangements characteristic for the Cervidae and Bovidae. Our results substantiate that chromosomes 1-5 and 11 of Chinese muntjac originated through exclusive centromere-to-telomere fusions of ancestral acrocentric chromosomes. Copyright (C) 2005 S. Karger AG, Basel.

Behavioural responses by yaks in different physiological states (lactating, dry or replacement heifers), when grazing natural pasture in the spring (dry and germinating) season on the Qinghai-Tibetan plateau

Using heterogeneous vegetation in alpine grassland through grazing is a necessary component of deintensification of livestock systems and conservation of natural environments. However, better understanding of the dynamics of animal feeding behaviour would improve pasture and livestock grazing managements, particularly in the early part of the spring season when forage is scarce. The changes in behaviour may improve the use of poor pastures. Then, enhancing management practices may conserve pasture and improve animal productivity. Grazing behaviour over 24 In periods by yaks in different physiological states (lactating, dry and replacement heifers) was recorded in the early, dry and later, germinating period of the spring season. Under conditions of inadequate forage, the physiological state of yaks was not the primary factor affecting their grazing and ruminating behaviour. Forage and sward state affected yaks' grazing and ruminating behaviour to a greater extent. Generally, yaks had higher intake and spent more time grazing and ruminating during the later part of the spring season, following germination of forage, than during the earlier dry part of the season. However, the live weight of yaks was less during pasture germination than during the early dry part of the season because the herbage mass is low, and the yaks have to expend much energy to seek feed at this particular time. (c) 2007 Elsevier B.V. All rights reserved.

Hypoxia-inducible factor 1 alpha cDNA cloning and its mRNA and protein tissue specific expression in domestic yak (Bos grunniens) from Qinghai-Tibetan plateau

Adaptation to hypoxia is regulated by hypoxia-inducible factor 1 (HIF-1), a heterodimeric transcription factor consisting of an oxygen-regulated a-subunit and a constitutively expressed beta-subunit. How animals living on Qinghai-Tibetan plateau adapt to the extreme hypoxia environment is known indistinctly. In this study, the Qinghai yak which has been living at 3000-5000 m attitude for at least two millions of years was selected as the model of high hypoxia-tolerant adaptation species. The HIF-1 alpha ORFs (open reading frames) encoding for two isoforms of HIF-1 alpha have been cloned from the brain of the domestic yak. Its expression of HIF-1 alpha was analyzed at both mRNA and protein levels in various tissues. Both its HIF-1 alpha mRNA and protein are tissue specific expression. Its HIF-1 alpha protein's high expression in the brain, lung, and kidney showed us that HIF-1 alpha protein may play an important role in the adaptation to hypoxia environment. (c) 2006 Elsevier Inc. All rights reserved.

外来种紫茎泽兰对入侵地土壤动物群落及多样性的影响

在云南省澜沧县对草地、以紫茎泽兰群落以及次生林地中的土壤动物一步甲和蚯蚓群落进行动态取样调查，来探讨紫茎泽兰入侵后对群落结构、生物多样性的影响。 在紫茎泽兰和草地群落中共捕获2253头步甲，35个种，其中草地上捕获1574头步甲，28个种，紫茎泽兰样地中有679头步甲，34个种;紫茎泽兰群落中步甲个体数量少，但物种数多，多样性也比较高;草地中步甲优势物种为Harpalus indicus和Tetragonoderus arcuatus占总数的59％;而紫茎泽兰中的优势物种比较分散;紫茎泽兰群落中步甲个体体型较大，而草地中体型小的步甲所占比例较高;步甲分布与落叶层厚度、土壤全磷含量、植被高度、地上生物量及土壤pH和土壤全钾含量有一定的相关性;紫茎泽兰群落与草地中的指示物种也不同，Hyphaereon masumotoi和Cosmodiscus sp．是紫茎泽兰的指示物种，而草地的指示物种有Aephnidius adelioides，Tetragonoderus arcuatus，Harpalus indicus，Harpaliscus birmanicus，Chlaenius cambodiensi。 受紫茎泽兰入侵的林地边缘步甲群落的分布规律表明，步甲个体数量排序：林地内部>紫茎泽兰群落>林地边缘：三者步甲优势种的组成，既有交叉也有区别;三者的步甲物种数及多样性指数差异不显著，步甲群落的时间动态也相似;林地边缘、内部及紫茎泽兰群落在步甲个体体型结构上差异不大，具有指示作用的步甲种少。 在草地、紫茎泽兰及次生林地三种植被类型中，共采集到3546条蚯蚓，8个种。其中，紫茎泽兰群落有1663条蚯蚓，远高于次生林及草地。多裂远盲蚓和娇小远盲蚓是当地蚯蚓群落的优势种;紫茎泽兰入侵地的蚯蚓物种数、Shannon-Wiener多样性指数大于草地及次生林地;蚯蚓数量及生物量的时间动态受月份降雨量的影响很大，体型大小不同的蚯蚓受降雨变化影响的程度不同：蚯蚓的分布与落叶层厚度、土壤全氮含量、土壤pH及有机质含量相关性较强;蚯蚓群落中只有大唇远盲蚓是紫茎泽兰样地中的指示物种。 在紫茎泽兰控制实验样地内，步甲的数量及物种数的排序是原始紫茎泽兰>半密度紫茎泽兰>去除处理。优势物种都为Anisodactylus karennius，所占比例高，其在原始紫茎泽兰群落中的分布数量远高于半密度及去除样地;步甲群落多样性指数(H’)和物种数差异不显著;三种处理的步甲群落时间动态不同，表现出不同的高峰期;Galeritula feoe和Nanodiodes piceus是原始和半密度紫茎泽兰样地中的指示物种。 总之，紫茎泽兰入侵相对单一草地后，会引起步甲个体数量下降，物种数和多样性上升，群落结构发生很大变化;紫茎泽兰入侵的林地边缘及外部草地后，林地边缘的环境变化幅度减小，林地的边际效应趋于不明显;紫茎泽兰单优群落有利于蚯蚓生存于生活，与草地及林地相比，能增加蚯蚓鲜重及多样性水平。

Mitochondrial DNA D2loop Variation and Genetic Background of Brahman Cattle

对10 头原种婆罗门牛mtDNA D2loop 全序列912 bp 测序, 婆罗门牛遗传多样性丰富, 检测到的9 种单 倍型兼有瘤牛( B . indicus) 与普通牛( B . taurus) 的遗传背景, 核苷酸变异率为6125 % , 单倍型多态度为01978 ± 01054 , 核苷酸多态度为01014 30 ±01008 68。所有单倍型聚为明显的两大分支, 婆罗门牛的大部分单倍型为普通 牛单倍型类群, 并占绝对优势(90 %) , 仅Brah26 与亚洲瘤牛聚在一起, 属于亚洲瘤牛线粒体单倍型, 表明婆罗门 牛的确是集亚洲瘤牛、欧洲普通牛等优良特性于一身(易产犊、产肉性能好、耐热与体表寄生虫等) 的瘤牛品种之 一。育种学家引种瘤牛的目的是改善当地牛的生产力与适应性, 现代普通牛表现出明显又普遍的瘤牛渐渗现象。 对现代的瘤牛品种而言, 除亚洲瘤牛品种外, 普通牛对其他瘤牛品种育成的贡献同样高。支持瘤牛( B . indicus ) 为独立驯化、起源于印度次大陆的假说。