Abstract
A water-soluble carbodiimide has been used to promote the formation of amide bonds between carboxyl residues on cytochrome b5 and lysyl residues on cytochrome b5 reductase. The visible and UV absorption spectrum of the purified cross-linked complex was identical with the sum of the spectra of the individual enzymes, and the average apparent molecular weight of the complex, determined by sodium dodecyl sulfate-gel electrophoresis, was within 12% of the sum of the apparent molecular weights of the two monomeric enzymes, indicating that the cross-linked derivative was a dimer containing one molecule each of cytochrome b5 and cytochrome b5 reductase. When reconstituted into phospholipid vesicles, the amphipathic derivative showed substantially reduced Vmax values with the soluble electron acceptors potassium ferricyanide, cytochrome b5 heme peptide and cytochrome c, and with the membrane-bound acceptors amphipathic cytochrome b5 and stearyl-CoA desaturase. The soluble catalytic fragment of the derivative, produced by limited digestion with subtilisin Carlsberg, showed similar decreases in Vmax values with the above soluble acceptors. In contrast, intradimer electron transfer in the soluble fragment, measured by stopped flow spectrophotometry at 2 degrees C was very efficient. Ninety per cent of the cytochrome b5 in the derivative was reduced with a first order rate constant of 51 s-1 upon the addition of NADH; the transfer of electrons from NADH to the reductase FAD prosthetic group, which is known to be the rate-limiting step in the reductase reaction mechanism, proceeded with an apparent rate constant of 57 s-1 under these conditions. These kinetic data show that the enzymes in the complex are cross-linked together at the surfaces involved in protein-protein contacts during electron transfer in an orientation similar to that assumed during electron transfer between the free proteins.
Highlights
A water-soluble carbodiimide hasbeen used to pro- high content of apolar aminoacid residues,is probably largely mote the formation of amide bonds between carboxyl submerged in the membrane bilayer
A striking feature of the structure of the heme peptide with a first order rate constant of 51 s” upon the segment is the concentration of carboxyl residues, which are ipadNclrsiedoranAaodkntkcDatinseetttoHiisdiaoohnwntnnoottnocwgomooetftnfoetht5hhtce7abNehacerratsAt”enstDtdhiahsudueHmtecunt;ert,hdraaniepetstnzherresygo-eumlFcttreirhemfAealeeaesnDsdicctseieetinfprndseorcgtrowhnosiesninttttdhrcevhoaieopoftntmilaiovsicennpfnelelgedsetra.crhxpotiiernTpunaoaphprrnaer,eersendoswcneutfreohtrcoririoatksnciamtsei-hsen-nee-ticvtpaTechorolrheoeonlevcgusheternreiasrndomvmiinnettedithtoaerpeiarlnneaneptscxshttttfphuiieeodoedrnesicpeesbrsdsroybeeofstyghwttSameecelmaihleenloaeennsgrmtgfretraedomhopgfpemheesacie(icyaa2rlti2ttlondw)cs,gtaophhtuoeraesfhociscmeifnueoamgrserrfbecaaeboycpbx5xetreoa,yossocmltutfheigfrritnioegnhtesmesecdisdeotp(eutm2ordeoc3spdGt)tuaehailtnitnauenedt-r-., tation similarto that assumed during electron transfer 52, Glu-48, Asp-64, and the exposed heme propionate of the between the free proteins
The microsomal NADH-linked stearyl-CoA desaturase system utilizes NADH-cytochrome b5 reductase, cytochrome b5, and stearyl-CoA desaturase as electron transport compo There is considerableevidence [1,2,3,4,5,6] that these three membrane-bound proteins are all orienwteitdh their catalytic sites on thceytoplasmic surface of the endoplasmic reticulum, and that they undergorelativelyfree lateralmovementto permit the interactions between them that result in electron n pocket of cytochrome c inhibited the reaction with reduced cytochrome b5
Summary
Conditions for Cross-linkinogf Cytochrome b5Reductase and Cytochrome b,-To maximize t he possibility t ha t the two enzymes would be cross-linked together in theconfiguration that they assume during electron transfer, the reaction with. Since the cytochrome is amidinated, the alterations in this resulted in the formation of a gel during the course of the protein cannot beascribed to intrachain cross-linking; the purification, the lipid was removed immediately subsequent most likely explanation is covalent modification of cyto- to the reaction by applying the Triton-solubilizedreaction chrome carboxyl residues with the carbodiimide. This reac- mixtureto a DEAE-Sephacel column as described under tion, whichoccurswhen the carbodiimide-carboxyl adduct “Materials and Methods.”. The overall cytochrome-to-reductase stoichiometry canbe calculated from the absorption spectrumof the derivative as described under “Materials andMethods.” When this calcu-
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
