Effect of crosslinking on mitochondrial structure and function

Rat liver mitochondria were treated with ethylacetimidate Abbreviations: SDS, sodium dodecylsulfate; DMS, dimethylsuberimidate; EA, ethylacetimidate; MBI, methylbutyrimidate; TMPD, N, N′, N′‐tetramethyl‐p‐phenylenediamine. and methylbutyrimidate, monofunctional imidates, and with dimethylsuberimidate, a bifunctional imidate, and the effects on structure and function studied. Mitochondria treated with 5 mM dimethylsuberimidate or greater did not respond osmotically when placed in deionized water. Sodium dodecylsulfate‐polyacrylamide gel electrophoresis revealed that at concentrations > 5 mM dimethylsuberimidate nearly all mitochondrial polypeptides failed to enter 6% gels, indicating crosslinking of both membrane and soluble proteins. Extensive amidination by ethylacetimidate and methylbutyrimidate had little effect on ascorbate‐tetramethylphenylenediamine oxidase while extensive inhibition resulted from dimethylsuberimidate treatment. The possible involvement of molecular motion in electron transport is discussed.