Dongmei Xi

Molecular cloning, sequence characterization and tissue transcription profile analyses of two novel genes: LCK and CDK2 from the Black-boned sheep (Ovis aries).

The complete coding sequences of two sheep genes—LCK and CDK2 were amplified using the rapid amplification of cDNA ends method based on three sheep EST sequences whose translated amino acids contain the domain PTKc_Lck_BIk and S_TKc domain, respectively. The sequence analyses of these two genes revealed that the sheep LCK gene encodes a protein of 509 amino acids which has high homology with the lymphocyte-specific protein tyrosine kinase (LCK) of eight species: bovine (99%), human (96%), dog (96%), Aotus nancymaae (95%), mouse (94%), rat (91%), horse (91%) and chicken (81%). The sheep CDK2 gene encodes a protein of 298 amino acids which has high homology with the cyclin-dependent kinase 2 (CDK2) of ten species: bovine (100%), goat (100%), rat (99%), mouse (99%), Chinese hamster (99%), dog (98%), golden hamster (98%), human (98%), horse (98%) and rhesus monkey (98%). The tissue transcription profile analyses indicated that that the Black-boned sheep LCK and CDK2 genes are generally but differentially expressed in the detected tissues including in tissues including spleen, muscle, skin, kidney, lung, liver and heart. These data serve as a foundation for further insight into these two genes.

Polymorphisms of the insulin-like growth factor-binding protein 3 gene (IGFBP3) in gayal (Bos frontalis).

The gene coding for insulin-like growth factor-binding protein 3 (IGFBP3) is important for regulation of growth, development and metabolism in mammals. The present investigation was conducted to study nucleotide polymorphism of the IGFBP3 in gayal (Bos frontalis) and to compare the variations with those which occur in other ruminants. A fragment of 645 base pairs of the IGFBP3 covering a part of exon 2, the complete intron 2 and exon 3 and a part of intron 3 was amplified, sequenced (n=46) and digested (n=79) with HaeIII restriction enzyme from 125 collected gayal samples. Nine single nucleotide polymorphisms (SNPs) [C14T, A122C, C137T, G144C, C155T, G213A, C279A, G334A and G460A] were identified and located in intron 2, revealing high genetic variability. The alignment of nucleotide sequences was found to be very similar to those for other bovid species. Sequencing and HaeIII digestion showed that frequency of alleles C and A [consisting of fragments of sizes 56, 64, 228, 264, 282, 298 and 497 bp (CC genotype)] was 0.96 and 0.04 for the SNP C279A. Moreover, the genotype frequency of the SNP C279A in gayal was compared with that in other ruminants and it appears that this polymorphism may be associated with low fat content and rapid growth in this rare species.

Molecular cloning, sequence identification and tissue expression profile of three novel genes Sfxn1, Snai2 and Cno from Black-boned sheep (Ovis aries)

The complete coding sequences of three of Black-boned sheep (Ovis aries) genes Sfxn1, Snai2 and Cno were amplified using the reverse transcriptase polymerase chain reaction (RT-PCR) according to the conserved sequence information of the cattle or other mammals and known highly homologous sheep ESTs. Black-boned sheep Sfxn1 gene encodes a protein of 322 amino acids which has high homology with the Sfxn1 proteins of five species—cattle 98%, pig 95%, human 95%, rat 93%, and mouse 93%. Black-boned sheep Snai2 gene encodes a protein of 268 amino acids that has high identity with the Snai2 proteins of six species—cattle 99%, pig 94%, human 93%, dog 93%, rat 91%, and mouse 90%. Black-boned sheep Cno gene encodes a protein of 214 amino acids that has high homology with the Cno proteins of four species—cattle 97%, human 75%, mouse 67%, and rat 65%. The phylogenetic tree analysis demonstrated that Black-boned sheep Sfxn1, Snai2 and Cno proteins have close relationship with cattle Sfxn1, Snai2 and Cno proteins. The tissue expression analysis indicated that Black-boned sheep Sfxn1, Snai2 and Cno genes were expressed in a range of tissues including leg muscle, kidney, skin, longissimus dorsi muscle, spleen, heart and liver. Our experiment is the first to provide the primary foundation for further insight into these three sheep genes.

Isolation, nucleotide identification and tissue expression of three novel ovine genes—SLC25A4, SLC25A5 and SLC25A6

The complete coding sequences of three of sheep genes SLC25A4, SLC25A5 and SLC25A6 were firstly amplified using the reverse transcriptase polymerase chain reaction (RT-PCR) according to the conserved sequence information of the cattle or other mammals and known highly homologous sheep ESTs. Sheep SLC25A4, SLC25A5 and SLC25A6 genes encode three corresponding proteins of 298 amino acids which contain the identically conserved putative mitochondrial carrier protein domain. Sheep SLC25A4 protein has high homology with the SLC25A4 proteins of six species—cattle (99%), human (95%), rat (95%), mouse (94%), dog (94%) and chicken (89%). Sheep SLC25A5 protein has high identity with the SLC25A5 proteins of five species—cattle (100%), dog (99%), mouse (98%), rat (98%) and human (98%). Sheep SLC25A6 protein also has high homology with the SLC25A6 proteins of four species—cattle (99%), human (97%), pig (97%) and chicken (93%). The phylogenetic tree analysis demonstrated that sheep SLC25A4, SLC25A5 and SLC25A6 proteins share a common ancestor. Moreover, SLC25A4, SLC25A5 and SLC25A6 proteins present stronger interaction each other. The tissue expression analysis indicated that sheep SLC25A4, SLC25A5 and SLC25A6 genes were expressed in a range of tissues including leg muscle, kidney, skin, longissimus dorsi muscle, spleen, heart and liver. Our experiment is the first to provide the primary foundation for further insight into these three sheep genes.

Molecular characteristics of the MHC‐DRA genes from yak (Bos grunniens) and Chinese yakow (Bos grunniens × Bos taurus)

Two full‐length cDNAs (762 bp) of the DRA gene from yak and Chinese yakow were isolated and analysed to identify structural and functional variations. The sequences for DRA in yak (Bogr‐DRA) and Chinese yakow (Bogr × BoLA‐DRA) were essentially identical to those for cattle (99%) and buffalo (97%). Except for two substitutions in the amino acids comprising the domain for signal peptide (SP) in yak, the additional residues were highly conserved across the species investigated. Peptide‐binding site (PBS) of Bogr‐DRA and Bogr × BoLA‐DRA was highly reserved in the α1 domain among all species investigated. The lack of mutation in Bogr‐DRA is consistent with the conception that the gene is highly conserved among all mammalian species. The very high conservation of the DRA gene among ruminants, including yak, may be due to its recent evolutionary detachment.

Genetic variability of the coding region for the prion protein gene (PRNP) in gayal (Bos frontalis)

The gayal (Bos frontalis) is a rare semi-wild bovid species in which bovine spongiform encephalopathy (BSE) has not been reported. Polymorphisms of the prion protein gene (PRNP) have been correlated significantly with resistance to BSE. In this study, the coding region of PRNP was cloned and characterized in samples from 125 gayal. A total of ten single nucleotide polymorphisms (SNPs), including six silent mutations (C60T, G75A, A108T, G126A, C357T and C678T) and four mis-sense mutations (C8A, G145A, G461A and C756G), corresponding to amino acids T3K, G49S9, N154S and I252M were identified, revealing high genetic diversity. Three novel SNPs including C60T, G145A and C756G, which have not been reported previously in bovid species, were retrieved. There also was one insertion–deletion (187Del24) at the N-terminal octapeptide repeat region. Alignment of nucleotide and amino acid sequences showed a high degree of similarity with other bovid species. Using phylogenetic analyses it was revealed that gayal has a close genetic relationship with Zebu cattle. In short, preliminary information is provided about genotypes of the PRNP in gayal. This could assist with the study of the pathogenesis of transmissible spongiform encephalopathies and cross species transmission as well as a molecular breeding project for gayal in China.

Isolation, sequence identification and expression profile of three novel genes Rab2A, Rab3A and Rab7A from black-boned sheep (Ovis aries)

Complete coding sequences of three Black-boned sheep (Ovis aries) genes Rab2A, Rab3A and Rab7A were amplified using reverse transcription polymerase chain reaction (RT-PCR) based on the conserved sequence information of cattle or other mammals known to be highly homologous to sheep ESTs. The Black-boned sheep Rab2A gene encodes a protein of 226 amino acids which contains the conserved putative RabL2 domain and is highly homologous to the Rab2A proteins of seven other species—cattle (96%), human (83%), Sumatran orangutan (82%), rat (81%), mouse (80%), African clawed frog (72%) and zebrafish (71%). The Black-boned sheep Rab3A gene encodes a protein of 220 amino acids that contains the conserved putative Rab3 domain and is very similar to the Rab3A proteins of four species—cattle (99%), African clawed frog (99%), Western clawed frog (98%) and zebrafish (95%). And the Black-boned sheep Rab7A gene encodes a protein of 207 amino acids that contains the conserved putative Rab7 domain and has high homology with the Rab7A proteins of six other species—human (99%), dog (99%), Sumatran orangutan (99%), zebrafish (97%), rabbit (97%) and African clawed frog (96%). Analysis of the phylogenetic tree has demonstrated that the Black-boned sheep Rab2A, Rab3A and Rab7A proteins share a common ancestor and the tissue expression analysis has shown that the corresponding genes are expressed in a range of tissues including leg muscle, kidney, skin, longissimus dorsi muscle, spleen, heart and liver. Our experiment is the first to provide the primary foundation for a further insight into these three sheep genes.

Genetic characterization of MHC class II DQB exon 2 variants in gayal (Bos frontalis)

In the present study, exon 2 of major histocompatibility complex (MHC) class II DQB gene from 39 gayals (Bos frontalis) was isolated, characterized and compared with previously reported patterns for other bovidae. It was revealed by sequence analyses that there are 36 DQB exon 2 variants among 39 gayals. These variants exhibited a high degree of nucleotide and amino acid substitutions with most amino acid variations occurring at positions forming the peptide-binding sites (PBS). The DQB loci were analysed for patterns of synonymous (dS) and non-synonymous (dN) substitution. The gayals were observed to be under strong balancing selection in the DQB exon 2 PBS (dN = 0.094, P = 0.001). It appears that this variability among gayals could confer the ability to mount immune responses to a wide variety of peptides or pathogens.

Nucleotide sequence and polymorphism of MHC class II DQB exon 2 alleles in Chinese yakow ( Bos grunniens × Bos taurus )

The objective of this study is to describe the gene characteristics of the bovine lymphocyte antigen (BoLA)‐DQB exon 2 locus in Chinese yakow (Bos grunniens × Bos taurus) and to compare it with previously reported patterns in other bovidae species to investigate genetic factors for disease resistance. The exon 2 of the MHC class II DQB gene was cloned and sequenced. It was revealed by sequence analyses that there are 36 DQB exon 2 alleles among 44 Chinese yakow. These alleles exhibited a high degree of nucleotide and amino acid polymorphism with most amino acid variations occurring at positions forming the peptide‐binding sites (PBS). The DQB loci were analysed for patterns of synonymous (dS) and nonsynonymous (dN) substitution. The Chinese yakow was observed to be under strong positive selection in the DQB exon 2 peptide‐binding sites (dN = 0.147, P < 0.01). It appears that this variability among Chinese yakow confers the ability to mount immune responses to a wide variety of peptides or pathogens.

Isolation and characterization of the major histocompatibility complex DQA1 and DQA2 genes in gayal (Bos frontalis)

The species origin of Yunnan gayal has been controversial since many years. However, few recent genetic studies have suggested that it has perhaps originated from the hybridization between male Bos frontalis and female B. taurus or B. indicus. Being an important semi-wild bovid species, this has also been listed under the red list of International Union of Conservation of Nature and Natural Resources. However, there is limited information available about the immunogenicity of this precarious species of Bos. Major histocompatibility complex (MHC) plays a pivotal role in immune response to infectious diseases in vertebrates. In the present study, we have investigated the structural and functional characteristics and possible duplication of the MHC-DQA genes in gayal (B. frontalis). Two full-length cDNA clones of the MHC-DQA genes were amplified and designated as Bofr-DQA1 (DQA*0101) and Bofr-DQA2 (DQA*2001) with GenBank accession numbers KT318732 and KT318733, respectively. A comparison between Bofr-DQA1, Bofr-DQA2 and to other MHC-DQA molecules from different animal species showed that nucleotide and encoded amino acid sequences of these two identified MHC-DQA genes have more similarity to alleles of specific DQA1 and DQA2 molecules from other Ruminantia species than to each other. The phylogenic investigation also demonstrated a large genetic distance between these two genes than to homologous from the other species. The large genetic distance between Bofr-DQA1 and Bofr-DQA2, and the presence of different bovine DQA putative motifs clarify that these sequences are nonallelic type. These results could suggest that duplication of the DQA genes has also occurred in gayal. The findings of the present study have strengthened our understanding to MHC diversity in rare ruminants and mutation of immunological functions, selective and evolutionary forces that affect MHC variation within and between species.