Prinzenberg E M, Weimann C, Brandt H, Bennewitz J, Kalm E, Schwerin M, Erhardt G
Institute for Animal Breeding and Genetics, Justus-Liebig-University, 35390 Giessen, Germany.
J Dairy Sci. 2003 Aug;86(8):2696-705. doi: 10.3168/jds.S0022-0302(03)73865-X.
The bovine CSN1S1 5' flanking region (CSN1S1-5') was screened for polymorphisms in different cattle breeds. Single-strand conformation polymorphisms (SSCP) and sequence analyses revealed four alleles (1-4), two of them being new allelic forms (3 and 4). Sequences were deposited in GenBank with accession numbers AF549499-502. In alleles 1 and 4, potential transcription factor binding sites are altered by the mutations. Using SSCP analysis, all four alleles were identified in German Holsteins. Six intragenic haplo-types comprising CSN1S1-5' (alleles 1, 2, 3, 4) and exon 17 (CSN1S1*B and C) genotypes were found. Linkage mapping using half-sib families from the German QTL project positioned CSN1S1 between the markers FBN14 and CSN3, with 5.6 cM distance between CSN1S1 and CSN3. Variance analysis, using family and CSN1S1 promoter genotypes as fixed effects, of breeding values and deregressed proofs for milk production traits (milk, fat, and protein yield and also fat and protein percentage) revealed significant effects on protein percentage when all families and genotypes were considered. Contrast calculations assigned a highly significant effect to genotype 24, which was associated with highest LS-means for protein percentage breeding values. As CSN1S1 is one of the main caseins in milk, this could be an effect of mutations in regulatory elements in the promoter region. An effect on milk yield breeding values was indicated for genotype 12, but is probably caused by a linked locus.
对不同牛品种的牛CSN1S1 5'侧翼区域(CSN1S1 - 5')进行多态性筛选。单链构象多态性(SSCP)和序列分析揭示了四个等位基因(1 - 4),其中两个是新的等位基因形式(3和4)。序列已存入GenBank,登录号为AF549499 - 502。在等位基因1和4中,潜在的转录因子结合位点因突变而改变。通过SSCP分析,在德国荷斯坦奶牛中鉴定出了所有四个等位基因。发现了六种包含CSN1S1 - 5'(等位基因1、2、3、4)和外显子17(CSN1S1*B和C)基因型的基因内单倍型。利用来自德国QTL项目的半同胞家系进行连锁图谱分析,将CSN1S1定位在标记FBN14和CSN3之间,CSN1S1与CSN3之间的距离为5.6 cM。以家系和CSN1S1启动子基因型作为固定效应,对产奶性状(牛奶、脂肪和蛋白质产量以及脂肪和蛋白质百分比)的育种值和去回归证明进行方差分析,结果表明,当考虑所有家系和基因型时,对蛋白质百分比有显著影响。对比计算表明基因型24具有极显著影响,该基因型与蛋白质百分比育种值的最高最小二乘均值相关。由于CSN1S1是牛奶中的主要酪蛋白之一,这可能是启动子区域调控元件突变的结果。基因型12对产奶量育种值有影响,但可能是由一个连锁位点引起的。
