Preparation of nitrophorin 7(Δ1-3) from Rhodnius prolixus without start-methionine using recombinant expression in Escherichia coli.
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[1] F. J. Luque,et al. Kinetics and computational studies of ligand migration in nitrophorin 7 and its Δ1-3 mutant. , 2013, Biochimica et biophysica acta.
[2] F. Walker,et al. Native N‐Terminus Nitrophorin 2 from the Kissing Bug: Similarities to and Differences from NP2(D1A) , 2012, Chemistry & biodiversity.
[3] M. H. Pereira,et al. Identification of the native N-terminus of the membrane attaching ferriheme protein nitrophorin 7 from Rhodnius prolixus. , 2012, Analytical biochemistry.
[4] Chunmao He,et al. Reduction of the lipocalin type heme containing protein nitrophorin -- sensitivity of the fold-stabilizing cysteine disulfides toward routine heme-iron reduction. , 2011, Journal of inorganic biochemistry.
[5] Chunmao He,et al. Nitrophorins: Nitrite disproportionation reaction and other novel functionalities of insect heme‐based nitric oxide transport proteins , 2011, IUBMB life.
[6] H. Ogata,et al. Formation of the complex of nitrite with the ferriheme b beta-barrel proteins nitrophorin 4 and nitrophorin 7. , 2010, Biochemistry.
[7] Chunmao He,et al. Formation of nitric oxide from nitrite by the ferriheme b protein nitrophorin 7. , 2009, Journal of the American Chemical Society.
[8] M. Shokhirev,et al. Spectroscopic and functional characterization of nitrophorin 7 from the blood-feeding insect Rhodnius prolixus reveals an important role of its isoform-specific N-terminus for proper protein function. , 2007, Biochemistry.
[9] F. Walker,et al. Overexpression in Escherichia coli and functional reconstitution of the liposome binding ferriheme protein nitrophorin 7 from the bloodsucking bug Rhodnius prolixus. , 2007, Protein expression and purification.
[10] M. Shokhirev,et al. Effect of the N-terminus on heme cavity structure, ligand equilibrium, rate constants, and reduction potentials of nitrophorin 2 from Rhodnius prolixus. , 2007, Biochemistry.
[11] Thierry Meinnel,et al. The Proteomics of N-terminal Methionine Cleavage*S , 2006, Molecular & Cellular Proteomics.
[12] D. Summers,et al. Recombinant protein secretion in Escherichia coli. , 2005, Biotechnology advances.
[13] J. Andersen,et al. Recognition of anionic phospholipid membranes by an antihemostatic protein from a blood-feeding insect. , 2004, Biochemistry.
[14] J. Andersen,et al. Role of binding site loops in controlling nitric oxide release: structure and kinetics of mutant forms of nitrophorin 4. , 2004, Biochemistry.
[15] J. Andersen,et al. Nitrophorins and related antihemostatic lipocalins from Rhodnius prolixus and other blood-sucking arthropods. , 2000, Biochimica et biophysica acta.
[16] P. Dessen,et al. Extent of N-terminal methionine excision from Escherichia coli proteins is governed by the side-chain length of the penultimate amino acid. , 1989, Proceedings of the National Academy of Sciences of the United States of America.
[17] F. Walker. Nitric oxide interaction with insect nitrophorins and thoughts on the electron configuration of the {FeNO}6 complex. , 2005, Journal of inorganic biochemistry.
[18] Walker Fa. Nitric oxide interaction with insect nitrophorins and thoughts on the electron configuration of the {FeNO}6 complex. , 2005 .
[19] O. Nishimura,et al. Further studies on the chemical cleavage of an N-terminal extra methionine from recombinant methionylated proteins , 1999 .