ALS-causing P56S mutation and splicing variation on the hVAPB MSP domain transform its ??-sandwich fold into lipid-interacting helical conformations

QinH.; WangW.; SongJ.

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ALS-causing P56S mutation and splicing variation on the hVAPB MSP domain transform its ??-sandwich fold into lipid-interacting helical conformations

机译：hVAPB MSP结构域上的导致ALS的P56S突变和剪接变异将其ε-三明治折叠转变为与脂质相互作用的螺旋构象

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P56S mutation on VAPB MSP domain causes a familial ALS, characteristic of severe aggregation both in vivo and in vitro. We previously showed that P56S rendered the MSP domain to be predominantly disordered in water. Unexpectedly, here we reveal that P56S-MSP transforms into a highly helical conformation in a membrane environment. This chameleon transformation is shared by a splicing variant VAPB-3 with a truncated MSP domain, which is also highly disordered and buffer insoluble as demonstrated here by NMR. Our discovery provides a mechanism for ALS-causing VAPB mutants/variants to gain novel functions such as to mediate ER structure before significant accumulation of aggregates occurs. ? 2013 Elsevier Inc.

机译：VAPB MSP结构域上的P56S突变会导致家族性ALS，这是体内和体外严重聚集的特征。先前我们已经证明P56S使MSP域在水中占主导地位。出乎意料的是，我们在这里揭示了P56S-MSP在膜环境中转变为高度螺旋构象。这种变色龙转化是由具有截短的MSP结构域的剪接变体VAPB-3共享的，该结构也高度无序且缓冲液不溶，如NMR所示。我们的发现为导致ALS的VAPB突变体/变体提供了一种机制，以在聚集体发生大量积累之前获得新的功能，例如介导ER结构。？ 2013爱思唯尔公司

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《Biochemical and Biophysical Research Communications》 |2013年第3期|共6页
作者
QinH.; WangW.; SongJ.;
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Amyotrophic lateral sclerosis (ALS); Chameleon transformation; Dodecylphosphocholine (DPC); NMR spectroscopy; Protein aggregation; VAPB;

机译：肌萎缩性侧索硬化（ALS）;变色龙转化;十二烷基磷酸胆碱（DPC）;NMR光谱;蛋白质聚集;VAPB;

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1. ALS-causing P56S mutation and splicing variation on the hVAPB MSP domain transform its ??-sandwich fold into lipid-interacting helical conformations [J] . QinH., WangW., SongJ. Biochemical and Biophysical Research Communications . 2013,第3期

机译：hVAPB MSP结构域上的导致ALS的P56S突变和剪接变异将其ε-三明治折叠转变为与脂质相互作用的螺旋构象
2. Elimination of the Native Structure and Solubility of the hVAPB MSP Domain by the Pro56Ser Mutation That Causes Amyotrophic Lateral Sclerosis [J] . Jiahai Shi Shixiong Lua Justina Shihui Tong and Jianxing Song Biochemistry . 2010,第18期

机译：通过引起肌萎缩性侧索硬化的Pro56Ser突变消除hVAPB MSP结构域的天然结构和可溶性
3. Elimination of the native structure and solubility of the hVAPB MSP domain by the Pro56Ser mutation that causes amyotrophic lateral sclerosis [J] . Shi J., Lua S., Tong J.S., Biochemistry . 2010,第18期

机译：通过引起肌萎缩性侧索硬化的Pro56Ser突变消除hVAPB MSP结构域的天然结构和溶解度
4. Structural Stability Dynamic and Binding Properties of the ALS-Causing T46I Mutant of the hVAPB MSP Domain as Revealed by NMR and MD Simulations [O] . Shixiong Lua, Haina Qin, Liangzhong Lim, 2011

机译：NMR和MD模拟显示了hVAPB MSP域的ALS致T46I突变体的结构稳定性动态和结合特性
5. Structural, stability, dynamic and binding properties of the ALS-causing T46I mutant of the hVAPB MSP domain as revealed by NMR and MD simulations [O] . Lua S., Qin H., Lim L., 2011

机译：NMR和MD模拟显示，hALSPB MSP结构域的ALS致T46I突变体的结构，稳定性，动态和结合特性

ALS-causing P56S mutation and splicing variation on the hVAPB MSP domain transform its ??-sandwich fold into lipid-interacting helical conformations

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