基于GFT投影核磁共振的膜蛋白共振归属：应用于LPPG胶束中大肠杆菌F(1)F(0)ATP合酶的C亚基

GFT projection NMR based resonance assignment of membrane proteins: application to subunit C of E. coli F(1)F (0) ATP synthase in LPPG micelles.

作者信息

Zhang Qi, Atreya Hanudatta S, Kamen Douglas E, Girvin Mark E, Szyperski Thomas

机构信息

Department of Chemistry, State University of New York at Buffalo, Buffalo, NY 14260, USA.

出版信息

J Biomol NMR. 2008 Mar;40(3):157-63. doi: 10.1007/s10858-008-9224-8. Epub 2008 Feb 14.

DOI:10.1007/s10858-008-9224-8

PMID:18273680

Abstract

G-matrix FT projection NMR spectroscopy was employed for resonance assignment of the 79-residue subunit c of the Escherichia coli F(1)F(0) ATP synthase embedded in micelles formed by lyso palmitoyl phosphatidyl glycerol (LPPG). Five GFT NMR experiments, that is, (3,2)D HNNCO, L-(4,3)D HNNC (alphabeta) C (alpha), L-(4,3)D HNN(CO)C (alphabeta) C (alpha), (4,2)D HACA(CO)NHN and (4,3)D HCCH, were acquired along with simultaneous 3D (15)N, (13)C(aliphatic), (13)C(aromatic)-resolved [(1)H,(1)H]-NOESY with a total measurement time of approximately 43 h. Data analysis resulted in sequence specific assignments for all routinely measured backbone and (13)C(beta) shifts, and for 97% of the side chain shifts. Moreover, the use of two G(2)FT NMR experiments, that is, (5,3)D HN{N,CO}{C (alphabeta) C (alpha)} and (5,3)D {C (alphabeta) C (alpha)}{CON}HN, was explored to break the very high chemical shift degeneracy typically encountered for membrane proteins. It is shown that the 4D and 5D spectral information obtained rapidly from GFT and G(2)FT NMR experiments enables one to efficiently obtain (nearly) complete resonance assignments of membrane proteins.

摘要

采用G矩阵傅里叶变换投影核磁共振波谱法对嵌入由溶血棕榈酰磷脂酰甘油（LPPG）形成的胶束中的大肠杆菌F(1)F(0) ATP合酶的79个残基亚基c进行共振归属。采集了五个GFT NMR实验，即(3,2)D HNNCO、L-(4,3)D HNNC(αβ)C(α)、L-(4,3)D HNN(CO)C(αβ)C(α)、(4,2)D HACA(CO)NHN和(4,3)D HCCH，同时进行3D (15)N、(13)C(脂肪族)、(13)C(芳香族)分辨的[(1)H,(1)H]-NOESY，总测量时间约为43小时。数据分析得出了所有常规测量的主链和(13)C(β)位移以及97%的侧链位移的序列特异性归属。此外，还探索了使用两个G(2)FT NMR实验，即(5,3)D HN{N,CO}{C(αβ)C(α)}和(5,3)D {C(αβ)C(α)}{CON}HN，以打破膜蛋白通常遇到的非常高的化学位移简并性。结果表明，从GFT和G(2)FT NMR实验中快速获得的4D和5D光谱信息能够使人们有效地获得（几乎）完整的膜蛋白共振归属。

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基于GFT投影核磁共振的膜蛋白共振归属：应用于LPPG胶束中大肠杆菌F(1)F(0)ATP合酶的C亚基

GFT projection NMR based resonance assignment of membrane proteins: application to subunit C of E. coli F(1)F (0) ATP synthase in LPPG micelles.

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