Sequence variants of the <Emphasis Type="Italic">LCORL</Emphasis> gene and its association with growth and carcass traits in Qinchuan cattle in China

Molecular marker-assisted selection is a better way to satisfy the growing customer requirement with the development of beef cattle growth and breeding research. For now, quantitative trait locus (QTL) for cattle growth and carcass traits, just like body height, body length and carcass weight have been detected on bovine chromosome 6. In this study, ligand-dependent nuclear receptor corepressor-like (LCORL) was selected as the potential positional candidate gene located in chromosome 6 which is closely connected with the bovine growth and carcass traits. A total of 450 Qinchuan beef cattle were used to detect mutations in exon and its neighbouring region, and the promoter region of the bovine LCORL gene. The methods for SNPs detection were polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) and created restriction site PCR (CRS-PCR), and the results of this study show that there were two variations in intron regions, the other four variations were located in the promoter region. Linkage disequilibrium analysis and haplotype analysis indicated that L78-Q4 had strong linkage disequilibrium, A T G C G C (16.2%) and G C G C A T (16.7%) had higher haplotype frequencies, G C A C A C (0.8%) and G T A C A T (0.7%) had lower haplotype frequencies. Correlation analysis indicated that SNP g. INT + 52098A >G was significantly associated with slaughter weight and carcass weight. Based on the research, we selected LCORL as the candidate gene that can contribute to improved marker-assisted selection for the meat performance of Qinchuan beef cattle.     

Genetic diversity of MYH 3 gene associated with growth and carcass traits in Chinese Qinchuan cattle

MYH₃, whose function is to convert chemical energy to mechanical energy through ATP hydrolysis, is mainly expressed in skeletal muscle at various stages and is indispensable in the procedure of development of skeletal muscle and heart. In the study, genetic variations and genotypes of MYH ₃ gene in a total of 365 Qinchuan cattles were analyzed by polymerase chain reaction-restriction fragment length polymorphism, as well as verified the effect on growth and carcass traits. After PCR products were digested by restriction enzymes, eight SNPs were identified and individuals were genotyped. It showed that the SNPs at nucleotides were all in low linkage disequilibrium, therefore no dominated haplotype was found in the population. The result of statistic analysis indicated seven SNPs were significantly associated with growth and carcass traits (P < 0.05, N = 365) except locus G13791A. To sum up, the result of the study proved that polymorphisms in MYH3 gene are associated with the growth performance of Chinese Qinchuan cattle, so the variations of the gene could be used as possible molecular assisted-makers in the beef cattle breeding program and management.     

Combined Haplotypes of CaSR Gene Sequence Variants and Their Associations with Growth Traits in Cattle

The calcium-sensing receptor (CaSR) is a Class C G-protein coupled receptor that regulates food intake and assimilation. However, studies on the relationship between CaSR gene and growth traits in cattle are deficient. The aim of this study was to examine the association of the CaSR polymorphism with growth traits in cattle breeds. Four novel single nucleotide polymorphisms (SNPs) and one previously reported SNP (NC_007299.5: g.67630865T>C, 67638409G>C, 67660395G>C, 67661546C>G, and 67661892A>C) were identified in the bovine CaSR gene using DNA sequencing and PCR-SSCP methods in 520 individuals from three representative breeds. The three SNP P4_2, P7_1, and P7_4 in LX, QC, and JX cattle populations belonged to intermediate genetic diversity (0.25?相似文献   

Identification of genetic polymorphisms in FABP3 and FABP4 and putative association with back fat thickness in Korean native cattle

The aim of this study was to determine whether single nucleotide polymorphisms (SNP) in the beef cattle adipocyte fatty-acid binding protein 3 and 4 (FABP3 and FABP4) genes are associated with carcass weight (CW) and back fat thickness (BF) of beef cattle. By direct DNA sequencing in 24 unrelated Korean native cattle, we identified 20 SNPs in FABP3 and FABP4. Among them, 10 polymorphic sites were selected for genotyping in our beef cattle. We performed SNP, haplotype and linkage disequilibrium studies on 419 Korean native cattle with the 10 SNPs in the FABP genes. Statistical analysis revealed that 220AG (I74V) and 348+303TC polymorphisms in FABP4 showed putative associations with BF traits (P=0.02 and 0.01, respectively). Our findings suggest that the polymorphisms in FABP4 may play a role in determining one of the important genetic factors that influence BF in beef cattle.     

Genetic association of <Emphasis Type="Italic">Phosphodiesterase 1B</Emphasis> (PDE1B) with carcass traits in Korean cattle

Quantitative trait loci for fat deposition and carcass traits have been identified in the vicinity of the gene encoding phosphodiesterase 1B (PDE1B) on bovine chromosome 5. Therefore, the PDE1B gene can be considered as a positional and functional candidate gene for carcass traits in beef cattle. This study aimed to identify single nucleotide polymorphisms (SNPs) in the PDE1B gene and to evaluate their associations with carcass traits in Korean cattle. Eight SNPs, g.440T>G, g.17122A>G, g.17507A>C, g.17575A>G, g.17607T>C, g.17609C>A, g.17692C>T, and g.17707C>G, were identified in the region ranged from exon 1 to intron 6. Five of them were used for association analysis because of their availability of restriction fragment length polymorphisms. As a result, g.17122A>G in intron 3 was significantly associated with backfat thickness (BFT), and g.17507A>C in exon 5 was associated with longissimus dorsi muscle area (LMA, P < 0.05). Animals with the AG genotype of g.17122 had thicker BFT than those with the AA genotype. Animals with the AA or AC genotype of g.17507A>C had larger LMA than those with the CC genotype. We suggested the PDE1B gene as a candidate gene for carcass traits of beef cattle. Fine mapping would be required for application to marker-assisted selection.     

郏县红牛ZAG基因多态性与生长性状的相关性

摘要: ZAG基因的功能主要是促进脂肪分解, 减少脂肪含量。文章利用PCR-SSCP和DNA测序技术研究了145头郏县红牛ZAG基因编码区4个位点(Z1、Z2、Z3、Z4)的多态性, 发现Z1、Z3、Z4 位点存在SSCP多态。对不同SSCP带型的对应片段进行了测序分析, 共发现6个新的SNP多态位点(C115T、A3257G、A4013G、T4027C、C4032T、T4120C)。Z3位点处于Hardy-Weinberg平衡状态, Z1、Z4 位点处于非平衡状态。不同基因型与生长发育性状的相关性分析显示, Z4位点上, AC基因型个体的体斜长、胸围、管围、体重指标显著(P<0.05)或极显著(P<0.01), 大于AA、AB基因型个体, 暗示该位点有可能作为郏县红牛生长性状标记辅助选择的标记之一。     

Association of HSL gene E1-c.276C>T and E8-c.51C>T mutation with economical traits of Chinese Simmental cattle

Hormone-sensitive lipase (HSL) is responsible for the decomposition of triglycerides in adipose tissue to release free fatty acids, and it is a key rate-limiting enzyme in the regulation of adipose tissue deposition and decomposition. The objective of this study was to evaluate the association between novel SNPs in the coding region of bovine HSL gene and carcass and meat quality traits of Chinese Simmental-cross steers. Two novel SNPs were genotyped and the 47 traits of carcass and meat quality traits were measured in the population studied. Statistical analysis revealed that the SNPs of HSL gene were associated with the carcass and meat quality traits. The individuals with TT genotypes of E1-276C>T showed significant higher dressing percentage, net meat rate, hind legs circumference, fat coverage rate, mesenteric fat and kidney fat (p < 0.05). E8-51C>T (P17S) also showed a significant association with the pH of beef and fatty acids content in Chinese Simmental cattle (p < 0.01). Our findings indicated that polymorphisms in HSL might be one of important genetic factors that influence carcass yield and meat quality in beef cattle, and it may be a useful marker for meat quality traits in future marker-assisted selection programs in beef cattle breeding and production.     

Effect of genetic variation of CEBPA gene on body measurement and carcass traits of Qinchuan cattle

In our study, genetic variation in coding region of cattle CCAAT enhancer binding protein alpha(namely CEBPA)gene was detected by PCR-RFLP and DNA sequencing methods in 215 individuals from Qinchuan cattle breed. Two haplotypes (A and B) and three observed genotypes (AA, AB, and BB) were detected. The result of DNA sequence showed one mutation by comparisons with NC_007316. The mutation at nt963 (T>G) were located in coding region of the CEBPA gene. Associations between the CEBPA gene genetic variation and the carcass traits were revealed in Qinchuan cattle. Least squares analysis revealed a significant statistical effect of the CEBPA gene different genotypes on slaughter weight and carcass weight in Qinchuan cattle. Individuals with BB genotype showed higher slaughter weight and carcass weight than individuals with AA and AB genotypes. Therefore, these results suggest that the CEBPA gene is a strong candidate gene that affects carcass traits in Qinchuan cattle.     

Genetic polymorphisms of lipoprotein lipase gene and their associations with growth traits in Xiangxi cattle

Lipoprotein lipase (LPL), involved in the metabolism and transport of lipids, regulate energy balance, fat deposition and growth traits. The objective of this study was to investigate the single nucleotide polymorphisms (SNPs) of LPL gene and to determine their associations between these polymorphisms and growth traits in Xiangxi cattle breed. In this study, six novel SNPs (C355157T, T355169C, T355186G, A355210G, T355348A and T355420C) and one reported SNP (A355427T, has been recorded in dbSNP, ID rs110590698) were detected using polymerase chain reaction and DNA sequencing method. Genotyping and genetic diversity analysis were performed in 240 Xiangxi cattle on the basis of sequence alignment, which indicated that five SNPs (C355157T, 355186G, T355348A, T355420C, A355427T) were in abundant genetic diversity, and the other two SNPs (T355169C and TA355210G) were in low genetic diversity. Linkage disequilibrium analysis showed that 18 different haplotypes were identified in these animals. Moreover, the results of the association between LPL gene polymorphisms and growth traits indicated that the individuals with H1H1 haplotype combination had higher BW and HG than those with other haplotype combinations (P?<?0.05). The animals with CC genotype maintain higher mean values for BW than those with the CT and TT genotypes (P?<?0.05) at T355420C locus. The animals with the AA genotype have lower mean values for WH, BL, HG and BW than those with the AT and TT genotypes at A355427T locus (P?<?0.05). The results suggested that the SNPs of the LPL gene might be useful genetic markers for growth traits in the bovine reproduction and breeding.     

Novel SNPs of the Bovine LEPR Gene and Their Association with Growth Traits

In this study, polymorphism in the bovine LEPR gene exon 4 was detected by PCR-SSCP and DNA sequencing methods in 653 individuals from five Chinese cattle breeds. Two haplotypes (M and N), three observed genotypes (MM, MN, and NN), and five single nucleotide polymorphisms (SNPs) (NC_007301:g.26767T>C, NC_007301:g.26805C>T, NC_007301:g.27050A>G, NC_007301:g.27063G>A, NC_007301:g.27079G>A) were detected. The frequencies of haplotypes M and N in the five breeds were 0.661-0.747 and 0.253-0.339, respectively. The SNP locus was in Hardy-Weinberg equilibrium in Nanyang, Jiaxian red, Angus, and Jinnan cattle (P > 0.05) and was in Hardy-Weinberg disequilibrium in Qinchuan cattle (P < 0.05). Polymorphism of the LEPR gene was shown to be associated with growth traits in the Nanyang breed. The SNP in the bovine LEPR gene had significant effects on body height, body length, body weight, heart girth, and average daily gain at 6 and 12 months old (P < 0.01 or P < 0.05). Therefore, these results suggest that the LEPR gene is a strong candidate gene that affects growth traits in cattle.     

Haplotype combination of SREBP-1c gene sequence variants is associated with growth traits in cattle

The aim of this study was to examine the association of the SREBP-1c polymorphism with growth traits in cattle breeds. Five sequence variants (SVs) were identified within the bovine sterol regulatory element-binding protein-1c gene (SREBP-1c), using DNA sequencing, PCR, PCR–RFLP, and forced PCR–RFLP methods. These polymorphisms include three missense mutations (SV1, SV4, and SV5) in exons 7, 9, and 12, a silent mutation (SV3) in exon 9, and a large deletion (SV2) in intron 7. Overall, we report the validation of polymorphisms within the bovine SREBP-1c gene, and the haplotype variability and extent of linkage disequilibrium (LD) in 1061 individuals representing the five main cattle breeds from China. We also investigated haplotype frequencies and LD coefficients for five SVs in all study populations. LD and haplotype structure of SREBP-1c were different between breeds. The result of haplotype analysis of five SVs showed that 27 different haplotypes were identified by all breeds. Two haplotypes (Hap1 and Hap2) shared by all five populations accounted for 42.75%, 35.68%, 36.44%, 25.43%, and 96.26% of all haplotypes observed in the cattle breeds Nanyang, Qinchuan, Jiaxian, Jinnan, and Chinese Holstein, respectively. The statistical analyses indicated that one single SV and 38 combined haplotypes were significantly associated with growth traits in the Nanyang cattle population (P < 0.05 or P < 0.01). The results of this study suggest that the SREBP-1c gene possibly is a strong candidate gene that affects growth traits in the Chinese beef cattle breeding program.     

Effect of myostatin F94L on carcass yield in cattle

In this study, a highly significant quantitative trait locus (QTL) for meat percentage, eye muscle area (EMA) and silverside percentage was found on cattle chromosome 2 at 0-15 cM, a region containing the positional candidate gene growth differentiation factor 8 (GDF8), which has the common alias myostatin (MSTN). Loss-of-function mutations in the MSTN gene are known to cause an extreme 'double muscling' phenotype in cattle. In this study, highly significant associations of MSTN with cattle carcass traits were found using maternally inherited MSTN haplotypes from outbred Limousin and Jersey cattle in a linkage disequilibrium analysis. A previously reported transversion in MSTN (AF320998.1:g.433C>A), resulting in the amino acid substitution of phenylalanine by leucine at position 94 of the protein sequence (F94L), was the only polymorphism consistently related to increased muscling. Overall, the size of the g.433C>A additive effect on carcass traits was moderately large, with the g.433A allele found to be associated with a 5.5% increase in silverside percentage and EMA and a 2.3% increase in total meat percentage relative to the g.433C allele. The phenotypic effects of the g.433A allele were partially recessive. This study provides strong evidence that a MSTN genotype can produce an intermediate, non-double muscling phenotype, which should be of significant value for beef cattle producers.     

Detection of SNPs in the TBC1D1 gene and their association with carcass traits in chicken

TBC1D1 plays an important role in numerous fundamental physiological processes including muscle metabolism, regulation of whole body energy homeostasis and lipid metabolism. The objective of the present study was to identify single nucleotide polymorphisms (SNPs) in chicken TBC1D1 using 128 Erlang mountainous chickens and to determine if these SNPs are associated with carcass traits. The approach consisted of sequencing TBC1D1 using a panel of DNA from different individuals, revealing twenty-two SNPs. Among these SNPs, two polymorphisms (g.69307744C>T and g.69307608T>G) of block 1, four polymorphisms (g.69322320C>T, g.69322314G>A, g.69317290A>G and g.69317276T>C) of block 2 and four polymorphisms of block 3 (g.69349746G>A, g.69349736C>G, g.69349727C>T and g.69349694C>T) exhibited a high degree of linkage disequilibrium in all test populations. An association analysis was performed between the twenty-two SNPs and seven performance traits. SNPs g.69307744C>T, g.69340192G>A and g.69355665T>C were demonstrated to have a strong effect on liveweight (BW), carcass weight (CW), semi-eviscerated weight (SEW) and eviscerated weight (EW) and g.69340070C>T polymorphism was related to BW, SEW and BMW in chicken populations. However, for the other SNPs, there were no significant correlations between different genotypes and carcass traits. Meanwhile, haplotype CT–TG of block 1 and combined genotype AG–TT–AC–CT of block 3 were significantly associated with BW, CW, SEW and EW. Overall, our results provide evidence that polymorphisms in TBC1D1 are associated with carcass traits and would be a useful candidate gene in selection programs for improving carcass traits.     

Assessment of association between variants and haplotypes of the IGF2 gene in beef cattle

Insulin-like growth factor 2 (IGF2) is a fetal growth and differentiation factor that plays an important role in muscle growth and in myoblast proliferation and differentiation. The aim of this study was to examine the association of the IGF2 polymorphism with growth traits in beef cattle breed. Four single nucleotide polymorphisms (SNPs: 1–4) were identified in the bovine IGF2 by sequencing pooled DNA samples (Pool-Seq) and forced polymerase chain reaction–restriction fragment length polymorphism (Forced PCR–RFLP) methods. The result of haplotype analysis of four SNPs showed that eight haplotypes and eighteen combined genotypes were revealed, and the linkage disequilibrium and evolutionary relationship were assessed in 1522 individuals representing four purebred cattle breeds from China. The statistical analyses indicated that the 4 SNPs and 18 combined genotypes or haplotypes are associated with the body weight at 18 and 24 months in Jiaxian cattle population (P < 0.05 or P < 0.01). Our results provide evidence that polymorphisms in the IGF2 gene are associated with growth traits, and may be used for marker-assisted selection in beef cattle breeding program.     

Proopiomelanocortin gene polymorphisms and its association with meat quality traits by ultrasound measurement in Chinese cattle

Ultrasound technology was used to measure live animal meat traits instead of true carcass meat traits for beef production and cattle breeding by an increasing number of institutions. In this study, we analyzed the association between genetic polymorphisms of proopiomelanocortin (POMC) and ultrasound measurement traits in Chinese cattle. Using direct DNA sequencing in 322 individuals of 7 different cattle subpopulation, 7 SNPs were identified for genotyping within 790 bp region of intron 2 and exon 3 of POMC. 6586 T>G in intron 2 and 6769 C>T and 7216 C>T in exon 3 were significantly associated with ultrasound backfat thickness (UBF) (P < 0.05) and ultrasound loin muscle area (ULMA) (P < 0.01) in the total population; 6694 C>T, 6706 T>C, 6796 C>T and 6810 C>T in exon 3 were significantly associated with ULMA (P < 0.0001) in the total population. These results clearly suggest that these SNPs of POMC be benefit for selection of individuals with good quality meat in Chinese cattle breeding program. Following validation in other populations and breeds, these markers could be incorporated into breeding programs to increase the rate of improvement in carcass and meat quality traits.     

Genetic variants in MYF5 affected growth traits and beef quality traits in Chinese Qinchuan cattle

Myogenic factor 5 plays actively roles in the regulation of myogenesis. The aims of this study are to identify the evolution information of MYF5 protein among 10 domestic and mammalian animals, to uncover the expression patterns of MYF5 gene in calves and adults of Qinchuan cattle, and to expose the genetic variants of the MYF5 gene and explore its effect on cattle growth traits and beef quality traits in Qinchuan cattle. The bioinformatics results showed that the MYF5 proteins highly conserved in different mammalian or domestic animals apart from chicken. The expression level of MYF5 gene in the heart, muscle, lung, large intestine and liver was greater than that of other tissues. PCR amplicons sequencing identified four novel SNPs at g.5738A>G, g.5785C>T and g.5816A>G in the 3rd exon region and g.6535A>G in the 3’ UTR. Genotypic frequencies of g.5785C>T was harshly deviated from the HWE (P < .05). Genetic diversity was low or intermediate for the four SNPs and those SNPs were in the weak linkage disequilibrium. Association analysis results indicated g.5785C>T, g.5816A>G and g.6535A>G significant effect on growth performance and beef quality traits of Qinchuan cattle. H1H3 diplotype had greater body size and better beef quality. All the results implicate that the MYF5 gene might be applied as a promising candidate gene in Qinchuan cattle breeding.     

MyoD基因对肉牛胴体性状影响的分析

用PCR技术克隆到MyoD基因的第二内含子, 采用PCR-SSCP方法研究了3个黄牛品种(鲁西牛、晋喃牛、秦川牛)及4个杂交肉牛(夏洛莱×鲁西牛、安格斯×鲁西牛、利木赞×鲁西牛、西门塔尔×鲁西牛)群体MyoD基因的多态性, 并分析了基因位点多态性与肉牛肉质性状的相关性。实验结果,在国内首次扩增出肉牛MyoD基因的第二内含子的全部序列, 共261 bp。用SSCP方法检测到MyoD基因内含子2有A和B两个等位基因。测序结果表明该座位的多态性是由于内含子二39 bp处C-T的突变和112 bp处C→G的突变造成的。等位基因B在中国地方品种的分布频率高于引进品种的杂交牛群体。c2检验的结果表明, 在该位点的除夏洛莱和安格斯杂交牛外, 其余五个群体(晋南、鲁西、秦川、西门塔尔杂交牛和利木赞杂交牛)均处于Hardy-Weinberg不平衡状态(P>0.05)。实验群体不同基因型与肉牛的宰前活重、胴体重、净肉重、高档肉重、眼肌面积等性状的影响差异极显著或显著(P<0.01或P<0.05), 并且AA型个体均高于AB型个体。     

Genetic effects of stearoyl-coenzyme A desaturase (SCD) polymorphism on milk production traits in the Chinese dairy population

Stearoyl-CoA desaturase (SCD) is a multifunctional complex enzyme important in the cellular biosynthesis of fatty acids. The present study was to investigate the association of the SCD gene with milk production traits in dairy cattle. Two single nucleotide polymorphisms (SNPs) (g.6926A>G and g.8646A>G) in introns 3 and 4, and three SNPs (g.10153A>G, g.10213T>C and g.10329C>T) in exon 5 were identified with pooled DNA sequencing and genotyped using matrix-assisted laser desorption/ionization time of flight mass spectrometry assay in 752 Chinese Holstein cows. Polymorphism g.10329C>T was predicted to result in an amino acid replacement from alanine to valine in the SCD protein. With a mixed animal model, the significant associations of the five SNPs with 305-day milk, fat and protein yields and protein percentage were determined. We further demonstrated cows with heterozygous genotypes (A/G or C/T) had highest 305 day milk yield, fat yield, protein yield and lowest protein percentage. Heterozygous cows with genotype AG at the g.6926A>G locus showed the greatest milk yield (P < 0.0001), fat yield (P < 0.0001) and protein yield (P < 0.0001) among other heterozygous genotypes at any of the loci. Dominance effects of all identified SNPs on milk, fat and protein yields and protein percentage were significant. Moreover, significant allele substitution effects at g.6926A>G locus on milk yield and at g.10213T>C on protein yield were observed. Five-locus haplotypes and strong linkage disequilibrium (D' > 0.9) between the five SNPs were also observed. The results suggest that identified polymorphisms could be potential genetic markers to improve the production performance of Chinese Holstein.     

Single nucleotide polymorphisms, haplotypes and combined genotypes of LAP3 gene in bovine and their association with milk production traits

Leucine aminopeptidase 3 (LAP3) is an aminopeptidase which catalyses the removal of N-terminal amino acids and is involved in protein maturation and degradation. In this study, we detected the polymorphisms of LAP3 gene by polymerase chain reaction-single-strand conformation polymorphism (PCR-SSCP) and DNA sequencing methods in 916 individuals from three Chinese cattle breeds including Chinese Holstein, Luxi Yellow and Bohai Black. One novel single nucleotide polymorphism (SNP) (g.24564G>A ss196003366) and four previously deposited SNPs in the GenBank database (g.24794T>G, g.24803T>C, g.24846T>C, g.25415T>C) were detected. Three of the SNPs (g.24794T>G, g.24803T>C, g.24846T>C) were firstly found to be linked completely and regarded as a SNP g.24794M>N by PCR-SSCP and DNA sequencing in the tested breeds. The allelic frequencies and genetic indices of the SNPs were different in three Chinese cattle populations. The SNPs and their genetic effects on milk production traits in Chinese Holsteins were evaluated. Least squares analysis showed that cows with genotype MM had higher fat percentage and protein percentage than genotype NN (P<0.05); and the cows with g.25415T>C-CC genotype had higher protein rate than ones with TT genotype (P<0.05). In addition, eight haplotypes and 23 combined genotypes were identified based on the nine genotypes and the association between combined genotypes and milk production traits were analyzed. Statistic results showed that the cows with genotype combination MAT/MGC have higher protein and fat rate and lower SCS. Our finding demonstrated that the LAP3 gene possibly contributed to conducting association analysis and can be used as molecular marker in milk production traits and other performance for animal breeding.