Friedel Drepper scite author profile

SummaryMitochondria perform central functions in cellular bioenergetics, metabolism, and signaling, and their dysfunction has been linked to numerous diseases. The available studies cover only part of the mitochondrial proteome, and a separation of core mitochondrial proteins from associated fractions has not been achieved. We developed an integrative experimental approach to define the proteome of east mitochondria. We classified > 3,300 proteins of mitochondria and mitochondria-associated fractions and defined 901 high-confidence mitochondrial proteins, expanding the set of mitochondrial proteins by 82. Our analysis includes protein abundance under fermentable and nonfermentable growth, submitochondrial localization, single-protein experiments, and subcellular classification of mitochondria-associated fractions. We identified mitochondrial interactors of respiratory chain supercomplexes, ATP synthase, AAA proteases, the mitochondrial contact site and cristae organizing system (MICOS), and the coenzyme Q biosynthesis cluster, as well as mitochondrial proteins with dual cellular localization. The integrative proteome provides a high-confidence source for the characterization of physiological and pathophysiological functions of mitochondria and their integration into the cellular environment.

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Binding Dynamics and Electron Transfer between Plastocyanin and Photosystem I

Drepper

et al. 1996

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The mechanism of the electron transfer from the soluble protein plastocyanin to the multiprotein complex of photosystem I from spinach has been studied in detail. The two kinetic components of P700+ reduction by plastocyanin after a laser flash, showing a constant half-life of 11 microseconds and a variable half-life of the second-order reaction, respectively, are used to monitor the electron transfer from bound and soluble plastocyanin. The effect of increasing concentration of reduced plastocyanin on both of these kinetic components and the competition by oxidized plastocyanin is used to estimate the individual dissociation constants of the complex between the proteins in each of its oxidized and reduced state. The dissociation constant of oxidized plastocyanin is about six times larger than that of 7 microM found for reduced plastocyanin and purified PSI. Consistent with this result the midpoint redox potential of plastocyanin bound to photosystem I either in equilibrium with soluble plastocyanin or after cross-linking to photosystem I is found to be 50-60 mV higher than that of soluble plastocyanin. It is concluded that the driving force of the intracomplex electron transfer is decreased in favor of an optimized turnover of photosystem I. Double-flash excitation shows that oxidized plastocyanin has to leave the complex after the electron transfer before a new reduced plastocyanin molecule can bind to photosystem I. This release of oxidized plastocyanin with a half-life of about 60 microseconds limits the turnover of photosystem I. All data are consistently described by a model including the formation of a complex at a single binding site of photosystem I. Differences in the rate and binding constants are discussed with respect to the structure and the electrostatic and hydrophobic interactions stabilizing the complex as well as their modification by the membrane environment in situ.

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The N-terminal domain of PsaF: Precise recognition site for binding and fast electron transfer from cytochromec₆and plastocyanin to photosystem I ofChlamydomonas reinhardtii

Hippler

Drepper

Haehnel

et al. 1998

Proc. Natl. Acad. Sci. U.S.A.

132

124

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The PsaF-deficient mutant 3bF of Chlamydomonas reinhardtii was used to modify PsaF by nuclear transformation and site-directed mutagenesis. Four lysine residues in the N-terminal domain of PsaF, which have been postulated to form the positively charged face of a putative amphipathic ␣-helical structure were altered to K12P, K16Q, K23Q, and K30Q. The interactions between plastocyanin (pc) or cytochrome c 6 (cyt c 6 ) and photosystem I (PSI) isolated from wild type and the different mutants were analyzed using crosslinking techniques and f lash absorption spectroscopy. The K23Q change drastically affected crosslinking of pc to PSI and electron transfer from pc and cyt c 6 to PSI. The corresponding second order rate constants for binding of pc and cyt c 6 were reduced by a factor of 13 and 7, respectively. Smaller effects were observed for mutations K16Q and K30Q, whereas in K12P the binding was not changed relative to wild type. None of the mutations affected the half-life of the microsecond electron transfer performed within the intermolecular complex between the donors and PSI. The fact that these single amino acid changes within the N-terminal domain of PsaF have different effects on the electron transfer rate constants and dissociation constants for both electron donors suggests the existence of a rather precise recognition site for pc and cyt c 6 that leads to the stabilization of the final electron transfer complex through electrostatic interactions.

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Quantitative high-confidence human mitochondrial proteome and its dynamics in cellular context

et al. 2021

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Summary Mitochondria are key organelles for cellular energetics, metabolism, signaling, and quality control and have been linked to various diseases. Different views exist on the composition of the human mitochondrial proteome. We classified >8,000 proteins in mitochondrial preparations of human cells and defined a mitochondrial high-confidence proteome of >1,100 proteins (MitoCoP). We identified interactors of translocases, respiratory chain, and ATP synthase assembly factors. The abundance of MitoCoP proteins covers six orders of magnitude and amounts to 7% of the cellular proteome with the chaperones HSP60-HSP10 being the most abundant mitochondrial proteins. MitoCoP dynamics spans three orders of magnitudes, with half-lives from hours to months, and suggests a rapid regulation of biosynthesis and assembly processes. 460 MitoCoP genes are linked to human diseases with a strong prevalence for the central nervous system and metabolism. MitoCoP will provide a high-confidence resource for placing dynamics, functions, and dysfunctions of mitochondria into the cellular context.

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Friedel Drepper

Definition of a High-Confidence Mitochondrial Proteome at Quantitative Scale

Binding Dynamics and Electron Transfer between Plastocyanin and Photosystem I

The N-terminal domain of PsaF: Precise recognition site for binding and fast electron transfer from cytochromec₆and plastocyanin to photosystem I ofChlamydomonas reinhardtii

Quantitative high-confidence human mitochondrial proteome and its dynamics in cellular context

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About

Friedel Drepper

Definition of a High-Confidence Mitochondrial Proteome at Quantitative Scale

Binding Dynamics and Electron Transfer between Plastocyanin and Photosystem I

The N-terminal domain of PsaF: Precise recognition site for binding and fast electron transfer from cytochromec6and plastocyanin to photosystem I ofChlamydomonas reinhardtii

Quantitative high-confidence human mitochondrial proteome and its dynamics in cellular context

Contact Info

Product

Resources

About

The N-terminal domain of PsaF: Precise recognition site for binding and fast electron transfer from cytochromec₆and plastocyanin to photosystem I ofChlamydomonas reinhardtii