Structural Proteomics by NMR Spectroscopy

Overview

Journal Expert Rev Proteomics

Publisher Informa Healthcare

Date 2008 Sep 3

PMID 18761469

Citations 21

Authors

Joon Shin

Woonghee Lee

Weontae Lee

Affiliations

Soon will be listed here.

Abstract

Structural proteomics is one of the powerful research areas in the postgenomic era, elucidating structure-function relationships of uncharacterized gene products based on the 3D protein structure. It proposes biochemical and cellular functions of unannotated proteins and thereby identifies potential drug design and protein engineering targets. Recently, a number of pioneering groups in structural proteomics research have achieved proof of structural proteomic theory by predicting the 3D structures of hypothetical proteins that successfully identified the biological functions of those proteins. The pioneering groups made use of a number of techniques, including NMR spectroscopy, which has been applied successfully to structural proteomics studies over the past 10 years. In addition, advances in hardware design, data acquisition methods, sample preparation and automation of data analysis have been developed and successfully applied to high-throughput structure determination techniques. These efforts ensure that NMR spectroscopy will become an important methodology for performing structural proteomics research on a genomic scale. NMR-based structural proteomics together with x-ray crystallography will provide a comprehensive structural database to predict the basic biological functions of hypothetical proteins identified by the genome projects.

Citing Articles

POKY software tools encapsulating assignment strategies for solution and solid-state protein NMR data.

Manthey I, Tonelli M, Ii L, Rahimi M, Markley J, Lee W J Struct Biol X. 2022; 6:100073.

PMID: 36081577 PMC: 9445392. DOI: 10.1016/j.yjsbx.2022.100073.

Solution structure and dynamics of the mitochondrial-targeted GTPase-activating protein (GAP) VopE by an integrated NMR/SAXS approach.

Smith K, Lee W, Tonelli M, Lee Y, Light S, Cornilescu G Protein Sci. 2022; 31(5):e4282.

PMID: 35137487 PMC: 9047041. DOI: 10.1002/pro.4282.

At sixes and sevens: cryptic domain in the metal binding chain of the human copper transporter ATP7A.

Uhlemann E, Lee W, Tonelli M, Dmitriev O Biophys J. 2021; 120(20):4600-4607.

PMID: 34461106 PMC: 8553599. DOI: 10.1016/j.bpj.2021.08.029.

Understanding Cervical Cancer through Proteomics.

Martinez-Rodriguez F, Limones-Gonzalez J, Mendoza-Almanza B, Esparza-Ibarra E, Gallegos-Flores P, Ayala-Lujan J Cells. 2021; 10(8).

PMID: 34440623 PMC: 8391734. DOI: 10.3390/cells10081854.

Toho-1 β-lactamase: backbone chemical shift assignments and changes in dynamics upon binding with avibactam.

Sakhrani V, Ghosh R, Hilario E, Weiss K, Coates L, Mueller L J Biomol NMR. 2021; 75(8-9):303-318.

PMID: 34218390 PMC: 9122098. DOI: 10.1007/s10858-021-00375-9.