Masoomeh Zare, M. Sadeghi, J. Ahmadpanah, Abbas Safari, M. Moridi
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引用次数: 0
摘要
本研究旨在利用PCR-SSCP和DNA测序技术研究Zel和Lori Bakhtiari羊品种PALM基因外显子3和4的遗传变异性。利用SIFT (Sorting Intolerant from tolerance)和PHyre2程序预测氨基酸取代对副乳蛋白性能和结构的可能影响。选取脂肪代谢水平不同的2个伊朗羊品种(Lori-Bakhtiari羊和Zel羊)共140只羊。结果表明,该品种存在两个多态位点,包括一个非同义替换位点和一个插入突变位点(49bp)。在质膜细胞质表面与谷氨酸相互作用的过程中,非同义突变导致了Thr20Ala氨基酸的交换并导致了副乳蛋白的两种不同结构,这可能会影响蛋白质的结构和功能。PALM基因根据其进化路径可分为两类。在第一个covey中,Gallus Gallus,在第二个covey中,其他物种在几个分支中,因此牛和羊的序列被放在一个分支中,在山羊旁边形成一个分支。棕榈基因编码区序列在不同物种间的比较,是同源的,来自一个共同的祖先。
Association of Palm gene mutations with structure and function of paralemmin proteins in Lori-Bakhtiari and Zel sheep Breeds
The aim of current study was to survey genetic variability of PALM gene’s exon 3 and 4 by PCR-SSCP and DNA sequencing in Zel and Lori Bakhtiari sheep breeds. The SIFT (Sorting Intolerant from Tolerant) and PHyre2 program were used to predict the possible impact of amino acid substitutions on performance and structure of the paralemmin protein. A total of 140 animal's from 2 Iranian sheep breeds with different fat metabolisms, Lori-Bakhtiari and Zel sheep breeds were considered. The results showed that there are two polymorphic sites including a nonsynonymous substitution and an insertion mutation (49bp). Non-synonymous mutation deduced Thr20Ala amino acid exchange and ensuing two different structures for paralemmin protein that could be potentially affect protein structure and function during the interaction with glutamate in the cytosolic surface of plasma membrane. PALM gene, according to evolutionary path, is classified into two separate categories. In first covey, Gallus gallus and in second one, other species in several branches, so that the sequence of cow and sheep is placed in a sub-branch which forms a clade beside goat. Comparison of illustrated coding region sequences, PALM gene among different species, is of orthologous which are derived from a common ancestor.