Related ArticlesEnhanced biosynthetically directed fractional carbon-13 enrichment of proteins for backbone NMR Assignments.
Protein Expr Purif. 2015 Aug 6;
Authors: Wenrich BR, Sonstrom RE, Gupta RA, Rovnyak D
Abstract
Routes to carbon-13 enrichment of bacterially expressed proteins include achieving uniform or positionally selective (e.g. ILV-Me, or (13)C', etc.) enrichment. We consider the potential for biosynthetically directed fractional enrichment (e.g. carbon-13 incorporation in the protein less than 100%) for performing routine n-(D)dimensional NMR spectroscopy of proteins. First, we demonstrate an approach to fractional isotope addition where the initial growth media containing natural abundance glucose is replenished at induction with a small amount (e.g. 10%(w/w)u-(13)C-glucose) of enriched nutrient. The approach considered here is to add 10% (e.g. 200 mg for a 2 g/L culture) u-(13)C-glucose at the induction time (OD600=0.8), resulting in a protein with enhanced (13)C incorporation that gives almost the same NMR signal levels as an exact 20% (13)C sample. Second, whereas fractional enrichment is used for obtaining stereospecific methyl assignments, we find that (13)C incorporation levels no greater than 20%(w/w) yield (13)C and (13)C-(13)C spin pair incorporation sufficient to conduct typical 3D-bioNMR backbone experiments on moderate instrumentation (600 MHz, RT probe). Typical 3D-bioNMR experiments of a fractionally enriched protein yield expected backbone connectivities, and did not show amino acid biases in this work, with one exception. When adding 10% u-(13)C glucose to expression media at induction, there is poor preservation of (13)C?-(13)C? spin pairs in the amino acids ILV, leading to the absence of C? signals in HNCACB spectra for ILV, a potentially useful editing effect. Enhanced fractional carbon-13 enrichment provides lower-cost routes to high throughput protein NMR studies, and makes modern protein NMR more cost-accessible.
PMID: 26256059 [PubMed - as supplied by publisher]
Enhanced biosynthetically directed fractional carbon-13 enrichment of proteins for backbone NMR Assignments
Enhanced biosynthetically directed fractional carbon-13 enrichment of proteins for backbone NMR Assignments
Publication date: Available online 6 August 2015
Source:Protein Expression and Purification</br>
Author(s): Broc R. Wenrich, Reilly E. Sonstrom, Riju A. Gupta, David Rovnyak</br>
Routes to carbon-13 enrichment of bacterially expressed proteins include achieving uniform or positionally selective (e.g. ILV-Me, or 13C’, etc.) enrichment. We consider the potential for biosynthetically directed fractional enrichment (e.g. carbon-13 incorporation in the...
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08-07-2015 02:42 AM
Fractional enrichment of proteins using [2- 13 C]-glycerol as the carbon source facilitates measurement of excited state 13 Cα chemical shifts with improved sensitivity
Fractional enrichment of proteins using -glycerol as the carbon source facilitates measurement of excited state 13 Cα chemical shifts with improved sensitivity
Abstract
A selective isotope labeling scheme based on the utilization of -glycerol as the carbon source during protein overexpression has been evaluated for the measurement of excited state 13Cα chemical shifts using Carrâ??Purcellâ??Meiboomâ??Gill (CPMG) relaxation dispersion (RD) experiments. As expected, the fractional incorporation of label at the Cα positions is increased two-fold...
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05-20-2015 10:27 AM
[NMR paper] Complete backbone and DENQ side chain NMR assignments in proteins from a single experiment: implications to structure-function studies.
Complete backbone and DENQ side chain NMR assignments in proteins from a single experiment: implications to structure-function studies.
Related Articles Complete backbone and DENQ side chain NMR assignments in proteins from a single experiment: implications to structure-function studies.
J Struct Funct Genomics. 2014 Feb 18;
Authors: Reddy JG, Hosur RV
Abstract
Resonance assignment is the first and the most crucial step in all nuclear magnetic resonance (NMR) investigations on structure-function relationships in biological...
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02-19-2014 03:12 PM
[NMR paper] Generating NMR Chemical Shift Assignments of Intrinsically Disordered Proteins Using Carbon-Detect NMR Methods.
Generating NMR Chemical Shift Assignments of Intrinsically Disordered Proteins Using Carbon-Detect NMR Methods.
Related Articles Generating NMR Chemical Shift Assignments of Intrinsically Disordered Proteins Using Carbon-Detect NMR Methods.
Anal Biochem. 2013 Dec 9;
Authors: Sahu D, Bastidas M, Showalter S
Abstract
There is an extraordinary need to describe the structures of intrinsically disordered proteins (IDPs) due to their role in various biological processes involved in signaling and transcription. However, general study of IDPs...
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12-18-2013 04:00 PM
Generating NMR Chemical Shift Assignments of Intrinsically Disordered Proteins Using Carbon-Detect NMR Methods
Generating NMR Chemical Shift Assignments of Intrinsically Disordered Proteins Using Carbon-Detect NMR Methods
Publication date: Available online 10 December 2013
Source:Analytical Biochemistry</br>
Author(s): Debashish Sahu , Monique Bastidas , Scott Showalter</br>
There is an extraordinary need to describe the structures of intrinsically disordered proteins (IDPs) due to their role in various biological processes involved in signaling and transcription. However, general study of IDPs by NMR spectroscopy is limited by the poor 1H-amide chemical shift dispersion...
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12-10-2013 04:48 AM
[NMR paper] Carbon Relaxation in (13)C(?)-H(?) and (13)C(?)-D(?) Spin Pairs as a Probe of Backbone Dynamics in Proteins.
Carbon Relaxation in (13)C(?)-H(?) and (13)C(?)-D(?) Spin Pairs as a Probe of Backbone Dynamics in Proteins.
http://www.ncbi.nlm.nih.gov/corehtml/query/egifs/http:--pubs.acs.org-images-pubmed-acspubs.jpg Related Articles Carbon Relaxation in (13)C(?)-H(?) and (13)C(?)-D(?) Spin Pairs as a Probe of Backbone Dynamics in Proteins.
J Phys Chem B. 2013 Jan 25;
Authors: Sun H, Long D, Brüschweiler R, Tugarinov V
Abstract
NMR methodology for the measurements of ?-carbon R(1) and R(1?) spin relaxation rates in (13)C(?)-H(?) and (13)C(?)-D(?) spin...
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02-03-2013 10:22 AM
[NMR paper] Support of 1H NMR assignments in proteins by biosynthetically directed fractional 13C
Support of 1H NMR assignments in proteins by biosynthetically directed fractional 13C-labeling.
Related Articles Support of 1H NMR assignments in proteins by biosynthetically directed fractional 13C-labeling.
J Biomol NMR. 1992 Jul;2(4):323-34
Authors: Szyperski T, Neri D, Leiting B, Otting G, Wüthrich K
Biosynthetically directed fractional incorporation of 13C into proteins results in nonrandom 13C-labeling patterns that can be investigated by analysis of the 13C-13C scalar coupling fine structures in heteronuclear 13C-1H or homonuclear...
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08-21-2010 11:41 PM
Enhanced production and isotope enrichment of recombinant glycoproteins produced in c
Abstract NMR studies of post-translationally modified proteins are complicated by the lack of an efficient method to produce isotope enriched recombinant proteins in cultured mammalian cells. We show that reducing the glucose concentration and substituting glutamate for glutamine in serum-free medium increased cell viability while simultaneously increasing recombinant protein yield and the enrichment of non-essential amino acids compared to culture in unmodified, serum-free medium. Adding dichloroacetate, a pyruvate dehydrogenase kinase inhibitor, further improves cell viability, recombinant...