常熟理工学院学报
常熟理工學院學報
상숙리공학원학보
JOURNAL OF CHANGSHU INSTITUTE OF TECHNOLOGY
2014年
2期
7-12
,共6页
顾志良%邵芳%石亦静%吴小娟
顧誌良%邵芳%石亦靜%吳小娟
고지량%소방%석역정%오소연
鹅%MYL1%cDNA序列%胚胎期%基因表达
鵝%MYL1%cDNA序列%胚胎期%基因錶達
아%MYL1%cDNA서렬%배태기%기인표체
goose%MYL1%cDNA sequence%embryonic stages%gene expression
肌球蛋白是肌纤维的主要组成成分,在肌肉生长和收缩过程中具有重要作用.本研究以鹅(Anser anser)肌肉总RNA为模板,采用RACE的方法,克隆肌球蛋白轻链1(MYL1)基因全长cDNA序列,并进行生物信息学分析.运用实时荧光定量PCR检测MYL1基因在鹅胚胎期的表达特征.结果表明,鹅MYL1基因全长cDNA为1542 bp,编码193个氨基酸残基的肽链.预测鹅MYL1蛋白等电点5.12,分子量21.75 KD,具有典型的EFh和FRQ1结构域,且不同物种间EFh氨基酸序列高度同源.荧光定量PCR结果显示鹅胚胎期MYL1基因mRNA表达量总体呈现上升后下降的趋势,该基因在胚胎期E7就有表达,E7以后表达量逐渐上升,在E18表达量达到高峰后下降.研究结果首次提供了鹅肌肉组织主要结构基因MYL1的全序列和蛋白特征信息,并揭示该基因在鹅肌肉组织发生和发育的功能.
肌毬蛋白是肌纖維的主要組成成分,在肌肉生長和收縮過程中具有重要作用.本研究以鵝(Anser anser)肌肉總RNA為模闆,採用RACE的方法,剋隆肌毬蛋白輕鏈1(MYL1)基因全長cDNA序列,併進行生物信息學分析.運用實時熒光定量PCR檢測MYL1基因在鵝胚胎期的錶達特徵.結果錶明,鵝MYL1基因全長cDNA為1542 bp,編碼193箇氨基痠殘基的肽鏈.預測鵝MYL1蛋白等電點5.12,分子量21.75 KD,具有典型的EFh和FRQ1結構域,且不同物種間EFh氨基痠序列高度同源.熒光定量PCR結果顯示鵝胚胎期MYL1基因mRNA錶達量總體呈現上升後下降的趨勢,該基因在胚胎期E7就有錶達,E7以後錶達量逐漸上升,在E18錶達量達到高峰後下降.研究結果首次提供瞭鵝肌肉組織主要結構基因MYL1的全序列和蛋白特徵信息,併揭示該基因在鵝肌肉組織髮生和髮育的功能.
기구단백시기섬유적주요조성성분,재기육생장화수축과정중구유중요작용.본연구이아(Anser anser)기육총RNA위모판,채용RACE적방법,극륭기구단백경련1(MYL1)기인전장cDNA서렬,병진행생물신식학분석.운용실시형광정량PCR검측MYL1기인재아배태기적표체특정.결과표명,아MYL1기인전장cDNA위1542 bp,편마193개안기산잔기적태련.예측아MYL1단백등전점5.12,분자량21.75 KD,구유전형적EFh화FRQ1결구역,차불동물충간EFh안기산서렬고도동원.형광정량PCR결과현시아배태기MYL1기인mRNA표체량총체정현상승후하강적추세,해기인재배태기E7취유표체,E7이후표체량축점상승,재E18표체량체도고봉후하강.연구결과수차제공료아기육조직주요결구기인MYL1적전서렬화단백특정신식,병게시해기인재아기육조직발생화발육적공능.
Myosin is a major component of muscle fibers in animal, and plays an important role in the growth and contraction of muscle. RT-PCR and rapid-amplification cDNA ends (RACE) were used to obtain a full-length of MYL1 cDNA. A full-length of 1 542 bp MYL1 cDNA included a 582- bp open reading frame en-coding a polypeptide of 193 amino acids, with a calculated relative molecular mass of 21.75 KD and pI of 5.12. The putative protein encoded by goose MYL1 gene had the conservative domains EFh and FRQ1. Real-time PCR was performed to analyze the expression of MYL1 gene during embryonic period, and the results showed that MYL1 gene was expressed at an early stage of embryogenesis, after that gradually increased, reached the peak at E18, and then decreased. The current study first provided the complete sequence information and molec-ular structural of goose MYL1 gene, and revealed its function in goose myogenesis and development.
