Full-length cDNA cloning and protein three-dimensional structure modeling of porcine prothrombin
- 作者:Younan Chen ; Weidong Tan ; Xiaofeng Lu ; Yanrong Lu ; Shengfang Qin ; Shengfu Li ; Yangzhi Zeng ; Hong Bu ; Youping Li ; Jingqiu Cheng
- 关键词:Prothrombin ; Pig ; Clone ; Three-dimensional structure ; Hemostasis
- 刊名:Blood Cells ; Molecules ; and Diseases
- 出版年:2007
- 期刊代码:277_10799796
- 类别:med
- 出版时间:March-April 2007
- 卷:38
- 期:2
- 页码:93-99
- 文件大小:1022 K
摘要
Prothrombin is a vitamin K-dependent serine protease and plays pivotal roles in both procoagulant and anticoagulant pathway of hemostasis. In this study, we cloned the full-length cDNA of porcine prothrombin by cDNA library screening and SMART RACE technique. The full-length cDNA is 2027 bp, with a 1869 bp Open Reading Frame (ORF) coding 623 amino acids. The deduced protein of porcine prothrombin contains signal peptide, propeptide, Gla domain, two kringle domains and trypsin domain. Porcine prothrombin shares 86.15%nucleotide similarity and 83%amino acid similarity with human prothrombin. The trypsin domain is highly conserved between the two species with 92.1%amino acid identity. Macromolecular interaction sites comparison between porcine and human prothrombin suggests that the Gla domain in porcine prothrombin contains an additional potential γ-carboxyglutamic acid site. However, a thrombin cleavage site (Arg284–Thr285) in its light chain is lost. When thrombin heavy chain is concerned, the most important functional sites such as catalytic triad DHS, RGD site, Na+ binding site and anion-binding exosite-I and II are highly conserved. However, great differences have been observed between residues 145 and 158 of heavy chain which is associated with thrombomodulin binding. Two important limited proteolysis sites at Ala150 and Lys154 were lost in porcine sequence, which would affect ε-thrombin and γT-thrombin generation. Comparison on 3-D protein models demonstrates that these proteins are obviously different in autolysis loop (Lys145 to Gly155). Compared with that of human prothrombin, variation at critical recognition sites would likely alter its binding affinity and reaction velocity, which would contribute to coagulation disorder when porcine liver is transplanted into human body.