鸡MD基因5＇侧翼区多态性与鸡生长和体组成性状的相关研究

苹果酸脱氢酶（Malate Dehydrogenase,MD）是一种氧化还原性酶,参与体内多种能量代谢反应.它可以催化苹果酸氧化脱羧生成丙酮酸和CO2,并使NADP＋还原成NADPH,NADPH是脂肪酸合成所必需的载体,棕榈酸可以利用生成的NADPH来合成长链脂肪酸,MD的活性与脂肪酸合成效率之间存在密切的相关,MD也参与体内骨骼肌、心肌的能量代谢,并对肌纤维的生长有一定的调节作用.根据鸡MD基因的5侧翼区序列设计一对引物,用直接测序的方法在侧翼区检测多态性位点,在235bp（GenBank登录号：U49693）处发现一个SNP位点,此位点是一个限制性内切酶（SphⅠ酶）发生变化的位点.以东北农业大学高低脂双向选择系的第8世代肉鸡和东农F2资源群体为实验材料,用PCR-RFLP的方法进行基因型分析,建立适合的统计模型,进行基因型与生长和体组成性状的相关分析.结果表明：在高低脂系第8世代肉鸡中AA基因型个体的腹脂重和腹脂率显著高于BB基因型个体（P＜0.05）;BB基因型个体的大胸肌重和大胸肌率显著高于AA基因型个体（P＜0.05）.在东农F2资源家系中BB基因型个体的大胸肌重和大胸肌率显著高于AA和AB基因型个体（P＜0.05）;AA基因型个体的肝脏重和肝脏率显著高于BB基因型个体（P＜0.05）.综上所述,MD基因可能是影响鸡生长和体组成性状的主效基因或与控制生长和体组成性状的主效基因相连锁.     

鸡MD基因5′侧翼区多态性与鸡生长和体组成性状的相关研究(英文)

苹果酸脱氢酶(MalateDehydrogenase,MD)是一种氧化还原性酶,参与体内多种能量代谢反应。它可以催化苹果酸氧化脱羧生成丙酮酸和CO2,并使NADP+还原成NADPH,NADPH是脂肪酸合成所必需的载体,棕榈酸可以利用生成的NADPH来合成长链脂肪酸,MD的活性与脂肪酸合成效率之间存在密切的相关,MD也参与体内骨骼肌、心肌的能量代谢,并对肌纤维的生长有一定的调节作用。根据鸡MD基因的5′侧翼区序列设计一对引物,用直接测序的方法在侧翼区检测多态性位点,在235bp(GenBank登录号:U49693)处发现一个SNP位点,此位点是一个限制性内切酶(SphⅠ酶)发生变化的位点。以东北农业大学高低脂双向选择系的第8世代肉鸡和东农F2资源群体为实验材料,用PCR-RFLP的方法进行基因型分析,建立适合的统计模型,进行基因型与生长和体组成性状的相关分析。结果表明:在高低脂系第8世代肉鸡中AA基因型个体的腹脂重和腹脂率显著高于BB基因型个体(P<0.05);BB基因型个体的大胸肌重和大胸肌率显著高于AA基因型个体(P<0.05)。在东农F2资源家系中BB基因型个体的大胸肌重和大胸肌率显著高于AA和AB基因型个体(P<0.05);AA基因型个体的肝脏重和肝脏率显著高于BB基因型个体(P<0.05)。综上所述,MD基因可能是影响鸡生长和体组成性状的主效基因或与控制生长和体组成性状的主效基因相连锁。     

鸡Myostatin基因单核苷酸多态性及其对屠体性状的遗传效应分析

以180只3个品系的温岭草鸡为材料, 采用PCR-RFLP方法对鸡MSTN基因外显子1的2个多态位点进行研究, 并分析对屠体性状的遗传效应。Bsh1236Ⅰ识别G(2100)A突变, 产生MN和NN 2种基因型, MspⅠ识别G(2109)A突变, 产生AA、AB和BB 3种基因型, 联合2个位点分析出现了5种基因型。基因型频率在品系间的c2检验表明差异均不显著(P＞0.05)。方差分析显示不同基因型的屠宰率有显著或极显著的差异(P＜0.01或P＜0.05)。多重比较显示：杂合型MN的腹脂重和屠宰率显著(P＜0.05)高于突变型NN; 杂合型AB的胸肌重和胸肌率显著(P＜0.01或P＜0.05 )高于基因型AA, 基因型AA的腹脂重和腹脂率都极显著(P＜0.01)高于突变型BB, 在腿肌重性状上, BB型显著(P＜0.05)低于AA型和AB型;2个位点联合分析时, NA/MA基因型的腹脂重、腹脂率和胸肌率均极显著(P＜0.01)高于或低于其他基因型。     

鸡Myostatin基因单核苷酸多态性与骨骼肌和脂肪生长的关系

肌肉生长抑制素是控制骨骼肌生长发育的重要细胞因子. 采用PCR-SSCP 和DNA测序的方法检测了Myostatin基因单核苷酸多态性, 利用CAU资源家系对所发现的Myostatin单核苷酸多态性与屠体重、胸肌重、腿肌重、肝重和腹脂重等性状进行了关联分析. 结果表明, P60/61位点基因型(AA, BB和AB型)对12周龄腹脂重、腹脂率、初生重、胸肌率有影响(P < 0.05): AA型腹脂重显著高于BB型(P < 0.05); AA和AB型腹脂率显著高于BB型(P < 0.05); AA型的初生重显著高于BB型(P < 0.05); AA型胸肌率显著高于AB型(P < 0.05). P80/P81位点基因型(CC, DD和CD型)与胸肌重(P < 0.05)和胸肌率(P < 0.01)相关: CC型与DD型之间的胸肌重差异显著(P < 0.05), CC型的胸肌重较高; CC型与DD型之间的胸肌率差异极显著(P < 0.01), CC型和CD型之间差异显著(P < 0.05), CC型比CD和DD型的胸肌率高, 而CD型的胸肌率也比DD型的高(P < 0.05). P93/94位点基因型(EF和EE型)与胸肌率有显著相关(P < 0.05): EF型比EE型具有更高的胸肌率. 研究表明, Myostatin基因的功能不但与骨骼肌的生长发育有关, 而且, 更重要的是可能参与脂肪的代谢与沉积.     

鸡瘦蛋白受体(OBR)基因内含子8单核苷酸多态性与体脂性状的相关研究

以东北农业大学高低脂双向选择系的第 6世代肉鸡为材料 ,鸡 7周龄时测定体重和腹脂重等屠体性状。根据鸡瘦蛋白受体基因内含子 8的序列 (GenBank登陆号 :AF2 2 2 783 )设计引物 ,用直接测序的方法检测多态性位点 ,用PCR SSCP的方法进行基因型分析 ,建立适合的统计模型对多态性位点产生的基因型与生长和体组成性状进行相关分析。结果表明 ,在第 50 0和 659位碱基同时发生了T—C、G—A突变。经最小二乘分析 ,3种基因型在腹脂重和腹脂率上差异显著 (P <0 0 5) ,BB型个体腹脂重和腹脂率显著高于AB型 (P <0 0 5) ,极显著地高于AA型个体 (P <0 0 1) ;3种基因型在肝重上差异显著 (P <0 0 5) ,且AA基因型个体的肝重显著低于AB和BB基因型个体。初步推断OBR基因可能是影响鸡脂肪性状的主效基因或与主效基因连锁 ,推测可以利用这个多态位点对鸡的体脂性状进行标记辅助选择     

鸡apoA5基因单核苷酸多态性及其与屠体性状的关联研究

以丝羽乌骨鸡和隐性白洛克正反交产生的F2代为实验群体, 采用PCR-SSCP和DNA测序的方法检测鸡载脂蛋白A5(apoA5)基因的单核苷酸多态性(SNPs), 并将所发现的SNPs与体重、胸肌重、腿肌重、心脏重、肝脏重和腹脂重等屠体性状进行关联分析。结果发现, 鸡apoA5基因5′-调控区C-169T, 外显子2 C600T、T635C, 外显子3 C841G、C914T、C1142G、C1394T共7个突变位点。其中外显子2突变位点C600T、T635C对12周龄腹脂重、腹脂率、肝脏重和心脏重有显著影响(P<0.05), 根据PCR-SSCP的结果将其分为6种基因型(AA, AB, AC, BB, BC, CC): 其中CC型个体的腹脂重和腹脂率显著高于AA型、AB型、AC型、BB型、BC型 (P<0.05); AC型个体的肝脏重显著低于AA型、AB型、BB型、BC型和CC型的肝脏重(P<0.05); BC型个体的心脏重显著低于BB型的心脏重(P<0.05)。     

牛α1-AT基因5’侧翼区新SNPS的鉴定及其与产奶性状的相关性

以中国荷斯坦奶牛(Chinese Holstein dairy cattle)为对象,以α1 抗胰蛋白酶基因(α1-AT)为候选基因,扩增5′侧翼区668 bp和999 bp的片段并进行测序.首次发现,在+3 142 bp处P1和+4 408 bp处P2分别发生C-T、T-C突变.随后采用PCR-RFLP方法对随机采自6个牛场,共计294头牛进行了检测,遗传变异和产奶性状分析结果显示：2个位点的等位基因在群体中都有分布,且处于中度多态.P1位点A和B等位基因的频率分别为50.34%和49.66%; AA、AB和BB基因型频率分别为23.81%、53.06%和23.13%;P2位点E和F等位基因的频率分别为30.61%和69.39%, EE、EF和FF基因型频率分别为11.90%、37.41%和50.68%. χ2适合性检验表明,该群体在P1位点的突变达到Hardy-Weinberg平衡状态（P>0.05）,在P2位点未达到平衡.基因与产奶性状关联分析表明,AB基因型个体产奶量与脂蛋比显著高于AA基因型个体(P＜0.05);FF基因型个体乳蛋白率显著高于EF基因型个体(P＜0.05);9种单倍型组合与乳脂率、乳蛋白率、体细胞数、产奶量及脂蛋比均存在不同程度相关性.     

鸭前胰岛素原基因多态性及其与屠体性状的关联分析

以384只北京鸭 (Z2系、Z4系、Z2×Z4杂交系)和樱桃谷鸭为材料, 利用PCR-SSCP结合测序技术, 对前胰岛素原基因外显子2与部分内含子的多态性进行了研究, 并分析对屠体性状的遗传效应。结果发现存在2个单核苷酸突变位点, 即在第179位和第195位分别发生了T→C和C→T的突变。适合性χ2检验结果表明, 北京鸭各品系和樱桃谷鸭均处于Hardy-Weinberg平衡状态(P>0.05)。最小二乘分析SNPs与屠体性状的关系表明, 在北京鸭3个品系中, 基因型 BB 在胴体重、全净膛重和胸肌重上极显著(P<0.01)高于基因型AA和AB, 在腿肌重和皮脂重上极显著(P<0.01)高于基因型AB; 基因型AA在皮脂率和全净膛重上极显著(P<0.01)和显著(P<0.05)高于基因型AB。而对于樱桃谷鸭, 只有AB型在皮脂重和腹脂重上显著(P<0.05)高于基因型AA。研究结果表明, 鸭前胰岛素原基因多态性与鸭的部分屠体性状存在显著相关性, 且B等位基因有利于增加鸭的胴体重和胸肌重。     

山羊MyoD基因家族多态性及与体尺性状的相关性

用PCR-SSCP技术研究了波尔山羊和徐淮山羊2个群体共147个个体MyoD基因家族中3个基因座位的单核苷酸多态性(single nucleotide polymorphism, SNP)。结果表明, 在徐淮白山羊群体中, myf-5基因座发现有3种基因型AA、AB和BB, 波尔山羊均为AA型。在myf-6基因座和myoD 5′侧翼区基因座, 两个山羊群体均检测到了AA和AB型个体。对山羊myf-5、myf-6基因座, myoD 5′侧翼区基因座不同基因型与两品种山羊体尺性状相关分析表明, myf-5基因座对管围和管围指数的效应差异显著(P<0.05)。myf-6基因座对徐淮白山羊体尺性状的效应均不显著(P>0.05), 而对波尔山羊的体高和管围指数效应差异显著(P<0.05)。两个山羊品种myoD 5′侧翼区不同基因型个体的体尺性状差异均不显著。     

北京黑猪FSHb 亚基基因的多态性与繁殖性状的关联分析

本研究以北京黑猪为研究对象, 以FSHb 亚基基因为产仔性状的候选基因, 分别采用PCR产物直接电泳和PCR-RFLP方法来检测FSHβ亚基基因2个位点的多态性。结合测序发现: FSHb-1位点上, 北京黑猪BB型的134与135 bp (D00621序列的6 473与6 474 bp) 之间插入273 bp的片段而产生多态, 序列分析表明该插入片段为一典型的逆转座子, 在插入片段中还发现了一个RNA 聚合酶Ⅲ内部启动子; FSHb-2位点上, 由于扩增片段173 bp处存在C→T的突变, 使得HaeⅢ酶切位点消失而产生多态; 2个位点的A、B等位基因在北京黑猪群体中都有分布, 且处于低度多态。χ2适合性检验结果表明, 该群体在这2个位点的突变都达到Hardy-Weinberg平衡状态 (P>0.05)。用SAS 8.2 软件最小二乘法拟合线性模型, 将基因座不同基因型与繁殖性状总产仔数 (TNB)、产活仔数 (NBA) 和出生重 (WB) 进行了关联分析, 结果表明: 就初产母猪而言, FSHb-1位点上, AA型比AB和BB型个体的TNB分别多0.96头和1.85头 (P＜0.05), AA和AB型比BB型个体的NBA分别多0.95头和1.69头(P＜0.05)。FSHb-2位点上, AA型比AB型和BB型个体的TNB分别多1.57头和2.15头 (P＜0.05); AA和AB型比BB型个体的NBA分别多1.00头和0.94头 (P＜0.05); 就经产母猪而言, FSHb-2位点上, AA型个体的WB比BB型的WB重0.25 kg (P＜0.05)。全部群体的FSHb-1位点的A等位基因和初产母猪FSHb-2位点的A等位基因对TNB、NBA和WB表现为正效应。     

Correlation Analysis Between Single-Nucleotide Polymorphism of Malate Dehydrogenase Gene 5′-Flanking Region and Growth and Body Composition Traits in Chicken

Malate dehydrogenase (MD) is a key enzyme that plays an important role in energy metabolism. It catalyzes the oxidative decarboxylation of L-malate to yield CO₂ and pyruvate, while simultaneously generating NADPH from NADP⁺. The NADPH generated can be utilized in de novo synthesis of palmitate, which is the precursor molecule for the formation of other long-chain fatty acids. And high levels of MD will also activate muscle development. The current study was designed to investigate the effects of MD gene on growth and body-composition traits in chicken. The eighth generation population of Northeast Agricultural University broiler lines divergently selected for its abdominal fat and Northeast Agricultural University F₂ resource population were used in the research. Polymorphisms were detected by DNA sequencing and PCR-RFLP method was then developed to screen the population. A single mutation at the position of the 235 bp (Accession No. U49693) of MD 5′-flanking region was found. The correlation analysis between the polymorphism of the MD gene and growth and body composition traits was carried out using the appropriate statistic model. Least-square analysis showed that the BB genotype birds had much higher pectoralis major weight and percentage of pectoralis major than AA genotype birds (P<0.05). The abdominal fat weight, percentage of abdominal fat, the liver weight and percentage of liver weight of the AA genotype birds were much higher than those of BB genotype birds (P<0.05). These results indicate that MD gene is the major gene or is linked to the major gene that affects the growth and body composition traits in chicken.     

Polymorphism of heart fatty acid-binding protein gene associatied with fatness traits in the chicken

Fatty acid-binding proteins (FABP) belong to a superfamily of lipid binding proteins that exhibit a high affinity for long chain fatty acids and appear to function in metabolism and intracellular transportation of lipids. The current study was designed to investigate the effects of heart (H)-FABP gene on chicken growth and body composition traits. The Northeast Agricultural University divergent broiler lines for abdominal fat and a broiler X silkie F2 population were used in this study. Body weight and body composition traits were measured in the populations. Primers were designed according to the chicken H-FABP gene sequence. Polymorphisms between parental lines were detected by DNA sequencing. PCR-RFLP and PCR-fragment length polymorphism methods were developed to genotype the populations. The results showed that the H-FABP gene polymorphisms in the two populations were associated with abdominal fat percentage. It implied that H-FABP gene can be a candidate locus or linked to a major gene(s) that affects abdominal fat content in the chicken.     

A Single Nucleotide Polymorphism of Chicken Acetyl-CoA Carboxylase A Gene Associated with Fatness Traits

Acetyl-CoA carboxylase α (ACCα) is a major rate-limiting enzyme in the biogenesis of long-chain fatty acids. It can catalyze the carboxylation of acetyl-CoA to form malonyl-CoA that plays a key role in the regulation of fatty acid metabolism. The objective of the present study was to investigate the associations of ACCα gene polymorphisms with chicken growth and body composition traits. The Northeast Agricultural University broiler lines divergently selected for abdominal fat content and the Northeast Agricultural University F₂ Resource Population were used in the current study. Body weight and body composition traits were measured in the aforementioned two populations. A synonymous mutation was detected in the exon 19 region of ACCα gene, then polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) method was developed to genotype all the individuals derived from the aforementioned populations. Association analysis revealed that the polymorphism was associated with abdominal fat weight and percentage of abdominal fat in the two populations. The results suggested that ACCα gene could be a candidate locus or linked to a major gene that affects abdominal fat content in the chicken.     

Polymorphism of Heart Fatty Acid-Binding Protein Gene Associatied with Fatness Traits in the Chicken

Fatty acid-binding proteins (FABP) belong to a superfamily of lipid binding proteins that exhibit a high affinity for long chain fatty acids and appear to function in metabolism and intracellular transportation of lipids. The current study was designed to investigate the effects of heart (H)-FABP gene on chicken growth and body composition traits. The Northeast Agricultural University divergent broiler lines for abdominal fat and a broiler X silkie F₂ population were used in this study. Body weight and body composition traits were measured in the populations. Primers were designed according to the chicken H-FABP gene sequence. Polymorphisms between parental lines were detected by DNA sequencing. PCR-RFLP and PCR-fragment length polymorphism methods were developed to genotype the populations. The results showed that the H-FABP gene polymorphisms in the two populations were associated with abdominal fat percentage. It implied that H-FABP gene can be a candidate locus or linked to a major gene(s) that affects abdominal fat content in the chicken.     

Single nucleotide polymorphism analysis on chicken extracelluar fatty acid binding protein gene and its associations with fattiness trait

Fattiness is an important parameter to estimate meat quality, which has high heritability. In this experiment, F2 chickens derived from Broilers crossing to Silky were used to study the effect of extracellular fatty acid binding protein (EX-FABP) gene on abdominal fat accumulation. 1.6 kb of the 5' region of the gene was amplified by six pairs of primers, and then single nucleotide polymorphisms (SNPs) were detected by the technique of single strand conformation polymorphism (SSCP) and then confirmed by sequencing. There were four nucleotides variations found, A-G at -1807, C-A at -1805, T-C at -1011 and a C insertion at -1000 respectively. The result of least square analysis suggests that the birds with BB genotype defined by the second pair of primer have a higher abdominal fat weight and abdominal fat percentage than the birds with the other genotypes (AA and AB). It implied that EX-FABP gene could be a candidate locus or linked to a major gene to significantly affect abdominal fat traits in chicken.     

Single nucleotide polymorphism analysis on chicken extracelluar fatty acid binding protein gene and its associations with fattiness trait

Fattiness is an important parameter to estimate meat quality, which has high heritability. In this experiment, F₂ chickens derived from Broilers crossing to Silky were used to study the effect of extracellular fatty acid binding protein (EX-FABP) gene on abdominal fat accumulation. 1.6 kb of the 5′ region of the gene was amplified by six pairs of primers, and then single nucleotide polymorphisms (SNPs) were detected by the technique of single strand conformation polymorphism (SSCP) and then confirmed by sequencing. There were four nucleotides variations found, A-G at-1807, C-A at -1805, T-C at -1011 and a C insertion at -1000 respectively. The result of least square analysis suggests that the birds with BB genotype defined by the second pair of primer have a higher abdominal fat weight and abdominal fat percentage than the birds with the other genotypes (AA and AB). It implied that EX-FABP gene could be a candidate locus or linked to a major gene to significantly affect abdominal fat traits in chicken.     

The single nucleotide polymorphisms of the chicken myostatin gene are associated with skeletal muscle and adipose growth

Myostatin, a new member of the TGF-p superfamily, is predominantly expressed in skeletal muscle cells and functions as a negative regulator of skeletal muscle growth in animals. Recently, we have reported three single nucleotide polymorphisms (SNPs) in the chicken my-ostatin gene. Herein, we investigate the association of those SNPs with the production traits in a F2 chicken line derived from Broilers crossing to Silky with the least square analysis. The results show that the BB and AA genotypes are strongly associated with abdominal fat weight (AFW), abdominal fat percentage (AFP), and birth weight (BW) (P < 0.05). Breast muscle percentage (BMP) of the AA type is higher than that of the AB type. The breast muscle weight and breast muscle percentages of F2 individuals have significant difference between CC and DD genotypes (P< 0.05). Breast muscle weight (BMW) of EF birds is higher than that of EE birds (P< 0.05). In this report, we present the first genetic evidence to show that chicken myostatin not o