《年轻漂亮的老师6》在线观看_CHINESE老头老太婆_亚洲第一av第二次av_国产午夜精品一区理论片飘花_哥布林杀手动漫

  設(shè)為主頁 加入收藏 English
 
 
 
 產(chǎn)品資料
 技術(shù)資料
 參考文獻(xiàn)
 
 

測量應(yīng)用案例-66-200SM

文件大?。?/strong>0
發(fā)布時間:2015-09-06
下載次數(shù):0

文獻(xiàn)名: Asparagine Repeat Peptides: Aggregation Kinetics and Comparison with Glutamine Repeats

作者: Xiaomeng Lu† and Regina M. Murphy*‡
†Biophysics Program and ‡Department of Chemical and Biological Engineering, University of Wisconsin-Madison, Madison, Wisconsin 53706, United States

摘要:Amino acid repeat runs are common occurrences in eukaryotic proteins, with glutamine (Q) and asparagine (N) as particularly frequent repeats. Abnormal expansion of Q-repeat domains causes at least nine neurodegenerative disorders, most likely because expansion leads to protein misfolding, aggregation, and toxicity. The linkage between Q-repeats and disease has motivated several investigations into the mechanism of aggregation and the role of Q-repeat length in aggregation. Curiously, glutamine repeats are common in vertebrates, whereas N-repeats are virtually absent in vertebrates, but common in invertebrates. One hypothesis for the lack of N-repeats in vertebrates is biophysical; that is, there is strong selective pressure in higher organisms against aggregation-prone proteins. If true, then asparagine and glutamine repeats must differ substantially in their aggregation properties despite their chemical similarities. In this work, aggregation of peptides with asparagine repeats of variable length (12–24) were characterized and compared to that of similar peptides with glutamine repeats. As with glutamine, aggregation of N-repeat peptides was strongly length-dependent. Replacement of glutamine with asparagine caused a subtle shift in the conformation of the monomer, which strongly affected the rate of aggregation. Specifically, N-repeat peptides adopted β-turn structural elements, leading to faster self-assembly into globular oligomers and much more rapid conversion into fibrillar aggregates, compared to Q-repeat peptides. These biophysical differences may account for the differing biological roles of N- versus Q-repeat domains.

下載地址下載地址1
 
上海市普陀區(qū)嵐皋路567號1108-26室 電話:021-62665073 400-718-7758 傳真:021-62761957
美國布魯克海文儀器公司上海代表處 版權(quán)所有  管理登陸 ICP備案號:滬ICP備19006074號-2 技術(shù)支持:化工儀器網(wǎng)