Structural characterisation of PinA WW domain and a comparison with other group IV WW domains, Pin1 and Ess1.

Ng CA; Kato Y; Tanokura M; Brownlee RT

首页> 外文期刊>Biochimica et biophysica acta: BBA: International journal of biochemistry, biophysics and molecular biololgy. Proteins and Proteomics >Structural characterisation of PinA WW domain and a comparison with other group IV WW domains, Pin1 and Ess1.

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Structural characterisation of PinA WW domain and a comparison with other group IV WW domains, Pin1 and Ess1.

机译：PinA WW域的结构表征以及与其他IV组WW域Pin1和Ess1的比较。

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The NMR solution structure of the PinA WW domain from Aspergillus nidulans is presented. The backbone of the PinA WW domain is composed of a triple-stranded anti-parallel beta-sheet and an alpha-helix similar to Ess1 and Pin1 without the alpha-helix linker. Large RMS deviations in Loop I were observed both from the NMR structures and molecular dynamics simulation suggest that the Loop I of PinA WW domain is flexible and solvent accessible, thus enabling it to bind the pS/pT-P motif. The WW domain in this structure are stabilised by a hydrophobic core. It is shown that the linker flexibility of PinA is restricted because of an alpha-helical structure in the linker region. The combination of NMR structural data and detailed Molecular Dynamics simulations enables a comprehensive structural and dynamic understanding of this protein.

机译：提出了构巢曲霉PinA WW结构域的NMR溶液结构。 PinA WW域的主干由三链反平行β-折叠和类似于Ess1和Pin1的无alpha-螺旋接头的alpha螺旋组成。从NMR结构和分子动力学模拟均观察到Loop I的RMS均存在较大偏差，表明PinA WW域的Loop I具有柔韧性和溶剂可及性，因此使其能够结合pS / pT-P基序。该结构中的WW域由疏水核稳定。示出了PinA的接头柔性由于接头区域中的α-螺旋结构而受到限制。 NMR结构数据与详细的分子动力学模拟相结合，可以对该蛋白质进行全面的结构和动态了解。

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《Biochimica et biophysica acta: BBA: International journal of biochemistry, biophysics and molecular biololgy. Proteins and Proteomics》 |2008年第9期|共7页
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Ng CA; Kato Y; Tanokura M; Brownlee RT;
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1. Structural characterisation of PinA WW domain and a comparison with other group IV WW domains, Pin1 and Ess1. [J] . Ng CA, Kato Y, Tanokura M, Biochimica et biophysica acta: BBA: International journal of biochemistry, biophysics and molecular biololgy. Proteins and Proteomics . 2008,第9期

机译：PinA WW域的结构表征以及与其他IV组WW域Pin1和Ess1的比较。
2. Structural analysis of WW domains and design of a WW prototype [J] . Macias MJ., Civera C., Oschkinat H., Nature structural biology . 2000,第5期

机译：WW域的结构分析和WW原型设计
3. CFL1, a WW Domain Protein, Regulates Cuticle Development by Modulating the Function of HDG1, a Class IV Homeodomain Transcription Factor, in Rice and Arabidopsis [J] . Wu Renhong, Li Shibai, He Shan, The Plant Cell . 2011,第9期

机译：CFL1，一种WW域蛋白，通过调节水稻和拟南芥HDG1（一种IV类同源域转录因子）的功能来调节表皮发育。
4. Human Pin1 WW Domain Scaffold Production and Applications [C] . Margarida Dias, Olga Iranzo, A. Cecilia A. Roque PEGS . 2014

机译：人体PIN1 WW域脚手架生产和应用
5. beta-hairpin peptides and WW domains designed for selective recognition of oligonucleotides. [D] . Stewart, Amanda Lynn. 2009

机译：β-发夹肽和WW域设计用于选择性识别寡核苷酸。
6. Gears-In-Motion: The Interplay of WW and PPIase Domains in Pin1 [O] . Yew Mun Lee, Yih-Cherng Liou 2018

机译：运动中的齿轮：Pin1中的WW和PPIase域的相互作用
7. 1SE54 Detection of weak interaction of WW domains and ligands and the structural analysis of the WW domain - ligand complex [O] . Y. Kato, K. Nagata, M. Tanokura 2005

机译：1Se54检测WW结构域和配体的弱相互作用及WW结构域的结构分析 - 配体络合物

Structural characterisation of PinA WW domain and a comparison with other group IV WW domains, Pin1 and Ess1.

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