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C B Russell

Bio: C B Russell is an academic researcher. The author has contributed to research in topics: Proton NMR & Lysozyme. The author has an hindex of 1, co-authored 1 publications receiving 454 citations.

Papers
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Book ChapterDOI
TL;DR: This chapter discusses the methods of biosynthetic enrichment of proteins with 15N in backbone and side-chain groups, as exemplified by the work with bacteriophage T4 lysozyme, as well as new nuclear magnetic resonance (NMR) experiments developed.
Abstract: Publisher Summary This chapter discusses the methods of biosynthetic enrichment of proteins with 15N in backbone and side-chain groups, as exemplified by the work with bacteriophage T4 lysozyme. Three necessary features for the investigation of 15N-labeled proteins are discussed. First, the protein must be rapidly and efficiently produced in milligram quantities. Second, the protein must be uniformly or selectively enriched in 15N by growth of the bacteria on defined media supplemented with the isotope. Third, new nuclear magnetic resonance (NMR) experiments have been developed, which either directly or indirectly yield information regarding the 15N nucleus or exploit the 15N as a means to filter 1H NMR spectra. One of the goals of the research on T4 lysozyme is to investigate the effect of amino acid substitutions on the structure and dynamics of the protein. Unfortunately, in three cases, it has been observed that many changes in the 15N- 1H spectra of uniformly 15N-labeled mutant lysozymes relative to the wild-type protein. This limits the extension of assignments of resonances from the wild-type to mutant lysozymes.

459 citations


Cited by
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Journal ArticleDOI
10 Jan 1992-Science
TL;DR: Six "cavity-creating" mutants were constructed within the hydrophobic core of phage T4 lysozyme and the results suggest how to reconcile a number of conflicting reports concerning the strength of thehydrophobic effect in proteins.
Abstract: Six "cavity-creating" mutants, Leu46----Ala (L46A), L99A, L118A, L121A, L133A, and Phe153----Ala (F153A), were constructed within the hydrophobic core of phage T4 lysozyme. The substitutions decreased the stability of the protein at pH 3.0 by different amounts, ranging from 2.7 kilocalories per mole (kcal mol-1) for L46A and L121A to 5.0 kcal mol-1 for L99A. The double mutant L99A/F153A was also constructed and decreased in stability by 8.3 kcal mol-1. The x-ray structures of all of the variants were determined at high resolution. In every case, removal of the wild-type side chain allowed some of the surrounding atoms to move toward the vacated space but a cavity always remained, which ranged in volume from 24 cubic angstroms (A3) for L46A to 150 A3 for L99A. No solvent molecules were observed in any of these cavities. The destabilization of the mutant Leu----Ala proteins relative to wild type can be approximated by a constant term (approximately 2.0 kcal mol-1) plus a term that increases in proportion to the size of the cavity. The constant term is approximately equal to the transfer free energy of leucine relative to alanine as determined from partitioning between aqueous and organic solvents. The energy term that increases with the size of the cavity can be expressed either in terms of the cavity volume (24 to 33 cal mol-1 A-3) or in terms of the cavity surface area (20 cal mol-1 A-2). The results suggest how to reconcile a number of conflicting reports concerning the strength of the hydrophobic effect in proteins.

912 citations

Journal ArticleDOI
TL;DR: It is shown that AMPK activates the AMPK cascade by four mechanisms, which should make the system exquisitely sensitive to changes in AMP concentration.

605 citations

Journal ArticleDOI
TL;DR: The structure and dynamics of full-length AS fibrils by high-resolution solid-state NMR spectroscopy are investigated to provide insight into the amyloid fibrilructure and dynamics with residue-specific resolution.
Abstract: The 140-residue protein α-synuclein (AS) is able to form amyloid fibrils and as such is the main component of protein inclusions involved in Parkinson's disease. We have investigated the structure and dynamics of full-length AS fibrils by high-resolution solid-state NMR spectroscopy. Homonuclear and heteronuclear 2D and 3D spectra of fibrils grown from uniformly 13C/15N-labeled AS and AS reverse-labeled for two of the most abundant amino acids, K and V, were analyzed. 13C and 15N signals exhibited linewidths of <0.7 ppm. Sequential assignments were obtained for 48 residues in the hydrophobic core region. We identified two different types of fibrils displaying chemical-shift differences of up to 13 ppm in the 15N dimension and up to 5 ppm for backbone and side-chain 13C chemical shifts. EM studies suggested that molecular structure is correlated with fibril morphology. Investigation of the secondary structure revealed that most amino acids of the core region belong to β-strands with similar torsion angles in both conformations. Selection of regions with different mobility indicated the existence of monomers in the sample and allowed the identification of mobile segments of the protein within the fibril in the presence of monomeric protein. At least 35 C-terminal residues were mobile and lacked a defined secondary structure, whereas the N terminus was rigid starting from residue 22. Our findings agree well with the overall picture obtained with other methods and provide insight into the amyloid fibril structure and dynamics with residue-specific resolution. EM protein structure amyloid Parkinson's disease protein aggregation

598 citations

Journal ArticleDOI
TL;DR: Surprisingly, it is found that E. coli contain an electron-transport system that can substitute for the mammalian microsomal NADPH-cytochrome P450 reductase in supporting both the 17 alpha-hydroxylase and 17,20-lyase activities of P45017 alpha.
Abstract: When the cDNA encoding bovine microsomal 17 alpha-hydroxylase cytochrome P450 (P45017 alpha) containing modifications within the first seven codons which favor expression in Escherichia coli is placed in a highly regulated tac promoter expression plasmid, as much as 16 mg of spectrally detectable P45017 alpha per liter of culture can be synthesized and integrated into E. coli membranes. The known enzymatic activities of bovine P45017 alpha can be reconstituted by addition of purified rat liver NADPH-cytochrome P450 reductase to isolated E. coli membrane fractions containing the recombinant P45017 alpha enzyme. Surprisingly, it is found that E. coli contain an electron-transport system that can substitute for the mammalian microsomal NADPH-cytochrome P450 reductase in supporting both the 17 alpha-hydroxylase and 17,20-lyase activities of P45017 alpha. Thus, not only can E. coli express this eukaryotic membrane protein at relatively high levels, but as evidenced by metabolism of steroids added directly to the cells, the enzyme is catalytically active in vivo. These studies establish E. coli as an efficacious heterologous expression system for structure-function analysis of the cytochrome P450 system.

551 citations

Journal ArticleDOI
TL;DR: The power of the Protein Standard Absolute Quantification methodology for accurate absolute quantification of biomarkers was demonstrated both on water and urine samples contaminated with Staphylococcus aureus superantigenic toxins as typical biomarkers of public health interest.

453 citations