The small heat shock proteins (HSPB) are expressed in response to heat stress, and the heat shock protein family B (small) member 7 (HSPB7) gene has been reported to play an important role in heat tolerance pathways. Only a missense mutation (NC_037329.1: g.136054902 C > G: p.Ala69Gly) was identified in the HSPB7 gene in indicine cattle, which might be a candidate mutation associated with the heat tolerance. Here, we explore the allele frequency of this mutation in 774 individuals belonging to 32 Chinese indigenous cattle breeds using polymerase chain reaction (PCR) and DNA sequencing methods. The distribution of alleles of NC_037329.1: g.136054902 C > G displays significant geographical difference across native Chinese cattle breeds that the allele C was dominant in northern cattle groups, while allele G was dominant in southern indicine cattle groups. Additionally, the association analysis indicated that the G allele was significantly associated with mean annual temperature (T), relative humidity (RH), and temperature humidity index (THI) (p < 0.01), suggesting that cattle carrying allele G were distributed in regions with higher T, RH, and THI. Our results demonstrate that the mutation of the HSPB7 gene in Chinese indicine cattle might be a candidate gene associated with the heat tolerance.
With the proposed global climate change, heat tolerance is becoming increasingly important to the sustainability of livestock production systems. Results from previous studies showed that variants in the prolactin releasing hormone (PRLH) (AC_000160.1:g.11764610G>A) and superoxide dismutase 1 (SOD1) (AC_000158.1:g.3116044T>A) genes play an important role in heat tolerance in African indicine cattle. However, it is unknown whether or not the mutations are associated with heat tolerance in Chinese cattle. In this study, PCR and DNA sequencing were used to genotype two missense mutations in 725 individuals of 30 cattle breeds. Analysis results demonstrated that two classes of base substitution were detected at two loci: AC_000160.1:g.11764610G>A and AC_000158.1:g.3116044T>A or T>C respectively, with amino acid substitutions arginine to histidine and phenylalanine to isoleucine or leucine. The frequencies of the G and T alleles of the two loci gradually diminished from northern groups to southern groups of native Chinese cattle, whereas the frequencies of A and A or C alleles showed a contrary pattern, displaying a significant geographical difference across native Chinese cattle breeds. Additionally, analysis of these two loci in Chinese indigenous cattle revealed that two SNPs were significantly associated with mean annual temperature (T), relative humidity (RH) and temperature humidity index (THI) (P < 0.01), suggesting that cattle with A or C alleles were distributed in regions with higher T, RH and THI. Our results suggest that the two mutations of PRLH and SOD1 genes in Chinese cattle were associated with the heat tolerance.
Donkeys are one important livestock in China because of their nourishment and medical values. To investigate the genetic diversity and phylogenetic relationships of Chinese donkey breeds, a panel of 25 fluorescently labeled microsatellite markers was applied to genotype 504 animals from 12 Chinese donkey breeds. A total of 226 alleles were detected, and the expected heterozygosity ranged from 0.6315 (Guanzhong) to 0.6999 (Jiami). The mean value of the polymorphism information content, observed number of alleles, and expected number of alleles for all the tested Chinese donkeys were 0.6600, 6.890, and 3.700, respectively, suggesting that Chinese indigenous donkeys have relatively abundant genetic diversity. Although there were abundant genetic variations found, the genetic differentiation between the Chinese donkey breeds was relatively low, which displayed only 5.99 % of the total genetic variance among different breeds. The principal coordinates analysis clearly splits 12 donkey breeds into two major groups. The first group included Xiji, Xinjiang, Liangzhou, Kulun, and Guanzhong donkey breeds. In the other group, Gunsha, Dezhou, Biyang, Taihang, Jiami, Qingyang, and Qinghai donkeys were clustered together. This grouping pattern was further supported by structure analysis and neighbor-joining tree analysis. Furthermore, genetic relationships between different donkey breeds identified in this study were corresponded to their geographic distribution and breeding history. Our results provide comprehensive and precise baseline information for further research on preservation and utilization of Chinese domestic donkeys.
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