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Literature DB >> 11775743

Efficient identification of amino acid types for fast protein backbone assignments.

Abstract

We describe a procedure that allows for very efficient identification of amino acid types in proteins by selective 15N-labeling. The usefulness of selective incorporation of 15N-labeled amino acids into proteins for the backbone assignment has been recognized for several years. However, widespread use of this method has been hindered by the need to purify each selectively labeled sample and by the relatively high cost of labeling with 15N-labeled amino acids. Here we demonstrate that purification of the selectively 15N-labeled samples is not necessary and that background-free HSQC spectra containing only the peaks of the overexpressed heterologous protein can be obtained in crude lysates from as little as 100 ml cultures, thus saving time and money. This method can be used for fast and automated backbone assignment of proteins.

Entities: Chemical

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Year: 2001 PMID： 11775743 DOI： 10.1023/a:1012920832184

Source DB: PubMed Journal: J Biomol NMR ISSN： 0925-2738 Impact factor: 2.835

22 in total

1. Selectively labeling the heterologous protein in Escherichia coli for NMR studies: a strategy to speed up NMR spectroscopy.

Authors: F C Almeida; G C Amorim; V H Moreau; V O Sousa; A T Creazola; T A Américo; A P Pais; A Leite; L E Netto; R J Giordano; A P Valente
Journal: J Magn Reson Date: 2001-01 Impact factor: 2.229

2. High-resolution macromolecular NMR spectroscopy inside living cells.

Authors: Z Serber; A T Keatinge-Clay; R Ledwidge; A E Kelly; S M Miller; V Dötsch
Journal: J Am Chem Soc Date: 2001-03-14 Impact factor: 15.419

3. Structures of larger proteins in solution: three- and four-dimensional heteronuclear NMR spectroscopy.

Authors: G M Clore; A M Gronenborn
Journal: Science Date: 1991-06-07 Impact factor: 47.728

4. Phase labeling of C-H and C-C spin-system topologies: application in PFG-HACANH and PFG-HACA(CO)NH triple-resonance experiments for determining backbone resonance assignments in proteins.

Authors: W Feng; C B Rios; G T Montelione
Journal: J Biomol NMR Date: 1996-07 Impact factor: 2.835

5. Automated analysis of protein NMR assignments using methods from artificial intelligence.

Authors: D E Zimmerman; C A Kulikowski; Y Huang; W Feng; M Tashiro; S Shimotakahara; C Chien; R Powers; G T Montelione
Journal: J Mol Biol Date: 1997-06-20 Impact factor: 5.469

6. Expression and nitrogen-15 labeling of proteins for proton and nitrogen-15 nuclear magnetic resonance.

Authors: D C Muchmore; L P McIntosh; C B Russell; D E Anderson; F W Dahlquist
Journal: Methods Enzymol Date: 1989 Impact factor: 1.600

7. Automated sequencing of amino acid spin systems in proteins using multidimensional HCC(CO)NH-TOCSY spectroscopy and constraint propagation methods from artificial intelligence.

Authors: D Zimmerman; C Kulikowski; L Wang; B Lyons; G T Montelione
Journal: J Biomol NMR Date: 1994-03 Impact factor: 2.835

8. Phase labeling of C-H and C-C spin-system topologies: application in constant-time PFG-CBCA(CO)NH experiments for discriminating amino acid spin-system types.

Authors: C B Rios; W Feng; M Tashiro; Z Shang; G T Montelione
Journal: J Biomol NMR Date: 1996-10 Impact factor: 2.835

9. Automated backbone assignment of labeled proteins using the threshold accepting algorithm.

Authors: M Leutner; R M Gschwind; J Liermann; C Schwarz; G Gemmecker; H Kessler
Journal: J Biomol NMR Date: 1998-01 Impact factor: 2.835

10. A novel approach for sequential assignment of 1H, 13C, and 15N spectra of proteins: heteronuclear triple-resonance three-dimensional NMR spectroscopy. Application to calmodulin.

Authors: M Ikura; L E Kay; A Bax
Journal: Biochemistry Date: 1990-05-15 Impact factor: 3.162

12 in total

1. MONTE: An automated Monte Carlo based approach to nuclear magnetic resonance assignment of proteins.

Authors: T Kevin Hitchens; Jonathan A Lukin; Yiping Zhan; Scott A McCallum; Gordon S Rule
Journal: J Biomol NMR Date: 2003-01 Impact factor: 2.835

2. Determination of molecular alignment tensors without backbone resonance assignment: Aid to rapid analysis of protein-protein interactions.

Authors: Markus Zweckstetter
Journal: J Biomol NMR Date: 2003-09 Impact factor: 2.835

Efficient identification of amino acid types for fast protein backbone assignments.

1. Selectively labeling the heterologous protein in Escherichia coli for NMR studies: a strategy to speed up NMR spectroscopy.

2. High-resolution macromolecular NMR spectroscopy inside living cells.

3. Structures of larger proteins in solution: three- and four-dimensional heteronuclear NMR spectroscopy.

4. Phase labeling of C-H and C-C spin-system topologies: application in PFG-HACANH and PFG-HACA(CO)NH triple-resonance experiments for determining backbone resonance assignments in proteins.

5. Automated analysis of protein NMR assignments using methods from artificial intelligence.

6. Expression and nitrogen-15 labeling of proteins for proton and nitrogen-15 nuclear magnetic resonance.

7. Automated sequencing of amino acid spin systems in proteins using multidimensional HCC(CO)NH-TOCSY spectroscopy and constraint propagation methods from artificial intelligence.

8. Phase labeling of C-H and C-C spin-system topologies: application in constant-time PFG-CBCA(CO)NH experiments for discriminating amino acid spin-system types.

9. Automated backbone assignment of labeled proteins using the threshold accepting algorithm.

10. A novel approach for sequential assignment of 1H, 13C, and 15N spectra of proteins: heteronuclear triple-resonance three-dimensional NMR spectroscopy. Application to calmodulin.

1. MONTE: An automated Monte Carlo based approach to nuclear magnetic resonance assignment of proteins.

2. Determination of molecular alignment tensors without backbone resonance assignment: Aid to rapid analysis of protein-protein interactions.

3. IBIS--a tool for automated sequential assignment of protein spectra from triple resonance experiments.

4. NMR spectroscopic filtration of polypeptides and proteins in complex mixtures.

5. Mars -- robust automatic backbone assignment of proteins.

6. Graphical interpretation of Boolean operators for protein NMR assignments.

7. NMR analysis of KChIP4a reveals structural basis for control of surface expression of Kv4 channel complexes.

8. A simplified recipe for assigning amide NMR signals using combinatorial 14N amino acid inverse-labeling.

9. Backbone resonance assignment and order tensor estimation using residual dipolar couplings.

10. Automated protein NMR structure determination in crude cell-extract.