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The expression of bovine microsomal cytochrome b5 in Escherichia coli and a study of the solution structure and stability of variant proteins
Authors:Hewson, Roger   Newbold, Richard J.   Whitford, David
Affiliation:Department of Biochemistry, Queen Mary and Westfield College Mile End Road, London El 4NS, UK
Abstract:The DNA sequence of bovine microsomal cytochrome b5 has beenamplified from a liver cDNA library using a polymerase chainreaction. The amplified cDNA when cloned into plasmids thatsupport the high-level production of cytochrome bs in E.colileads to protein overexpression and results in cell coloniesbearing a strong red colouration. Using cassette mutagenesis,truncated versions of the cytochrome b5 cDNA have been madethat encode the first 90 amino acid residues (Ala1-Lys90), thefirst 104 amino acids (Ala1-Ser104) and the complete protein(Ala1-Asnl33). The location of the overexpressed cytochromebs within prokaryotic cells is dependent on the overall lengthof the protein. Expression of the Ala-Lys90 and Alal-SerlO4variants leads to a location in the cytoplasmic phase of thebacteria whereas the whole protein, Alal-Asnl33, is found withinthe bacterial membrane fraction. The last 30 residues of cytochromebs therefore contain all of the necessary information to insertthe protein into E.coli membranes. The solubility of the Alal-SerlO4variant permits the solution structure and stability of thisprotein to be measured using 1- and 2-D 1HNMR methods and electronicspectroscopy. 1-D NMR studies show that the chemical shiftsof the haem and haem ligand resonances of the Alal - Ser 104variant exhibit only very slight perturbations to their magneticmicroenvlronments when compared with the tryptic fragment offerricytochrome b5. These results indicate an arrangement ofresidues in the haem pocket that is very similar in both theAlal-Ser 104 variant and the tryptic fragment and by 2-D NMRit is shown that this similarity extends to the conformationsof the poly peptide backbone and side chains. Electronic spectroscopyof this variant shows absorbance maxima for the Soret peaksat 423 run (reduced) and 413 nm (oxidized). From absorbancespectra the relative thermal stabilities of the Alal-Ser 104variant and the tryptic fragment were measured. In the oxidizedstate the Ala1 - Ser104 variant denatures in a single cooperativetransition with a midpoint temperature (Tm of 73°C thatis significantly higher than that of ‘tryptic’ ferricytochromebs. The reduced form of the protein shows increased transitiontemperatures (Tm ~78°C) reflected in the values of {Delta}Hm, {Delta}Smand {Delta}({Delta}G) of 420 kj/mol, 1096 J/mol/K and 12.38 kj/mol respectively,estimated for this variant. The increased stability of the Alal-SerlO4variant and other recombinant forms of cytochrome bs is correlatedwith the presence of additional residues at the N- and C-termini.The subtle differences in reactivity, stability and targetingbetween variant forms of cytochrome bs and the tryptic fragmentare discussed in terms of the overall structure of the protein.
Keywords:cytochrome b5/  expression in E. coli/  NMR/  protein denaturation and thermostability
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