Your search keyword '"Brock, I W"' showing total 4 results

1. The delta pH-driven, ATP-independent protein translocation mechanism in the chloroplast thylakoid membrane. Kinetics and energetics.

Author

Brock IW, Mills JD, Robinson D, and Robinson C

Subjects

Adenosine Triphosphate metabolism, Aminacrine, Bacterial Proteins metabolism, Fabaceae metabolism, Fluorescent Dyes, Intracellular Membranes metabolism, Kinetics, Plants, Medicinal, Thermodynamics, Chloroplasts metabolism, Hydrogen-Ion Concentration, Plant Proteins metabolism

Abstract

Previous studies have shown that proteins are transported across the chloroplast thylakoid membrane by two very different mechanisms, one of which requires stromal factors and ATP, whereas the other mechanism is ATP independent but completely reliant on the thylakoidal delta pH. We have examined the role of the delta pH in the latter mechanism by simultaneously monitoring the magnitude of delta pH (by 9-aminoacridine fluorescence quenching) and the rate of import of the 23-kDa photosystem II protein into isolated pea thylakoids. We show that protein import can take place, at low but significant rates, at very low values of delta pH (in the region of 1.2-1.4), and that plots of the rate of protein import against proton concentration gradient are probably hyperbolic in nature. There is no evidence for a threshold level of delta pH which is required to drive translocation of the 23-kDa protein. Addition of uncouplers midway during import incubations results in a rapid and complete inhibition of translocation, showing that the continuous presence of the delta pH is required for translocation to take place. During import into intact chloroplasts, the intermediate-size 23-kDa protein substrate for the thylakoidal protein transport machinery is found only in the stromal fraction at all values of delta pH, suggesting that the initial interaction with the machinery is relatively weak, reversible and delta pH-independent. We therefore propose that the delta pH is required for both the initiation and completion of translocation; these roles are in marked contrast to the roles of protonmotive force in mitochondrial and sec-dependent bacterial protein transport.

Published

1995

2. The presequence of a chimeric construct dictates which of two mechanisms are utilized for translocation across the thylakoid membrane: evidence for the existence of two distinct translocation systems.

Author

Robinson C, Cai D, Hulford A, Brock IW, Michl D, Hazell L, Schmidt I, Herrmann RG, and Klösgen RB

Subjects

Amino Acid Sequence, Biological Transport, Cloning, Molecular, Fabaceae, Molecular Sequence Data, Nucleotides metabolism, Plant Proteins genetics, Plant Proteins metabolism, Plants, Plants, Medicinal, Plastocyanin genetics, Protein Precursors genetics, Protein Precursors metabolism, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Chloroplasts metabolism, Intracellular Membranes metabolism, Plastocyanin metabolism

Abstract

The translocation of plastocyanin across the thylakoid membrane in Pisum sativum has been studied in reconstitution assays and using chimeric constructs. The reconstitution assays demonstrate that plastocyanin translocation is absolutely dependent on the presence of a stromal factor(s) and nucleotide triphosphates (NTPs), whereas neither element is required for the translocation of the 23 or 16 kDa proteins of the oxygen-evolving complex. Previous studies had revealed that the transthylakoidal delta pH is essential for translocation of the 23 and 16 kDa proteins but unnecessary for plastocyanin translocation. The basis for these mechanistic differences has been tested by analysing the translocation of a chimeric construct consisting of the presequence of the 23 kDa protein linked to the mature plastocyanin sequence. This construct is efficiently imported into thylakoids in the absence of stromal extracts or NTPs and translocation across the thylakoid membrane within intact chloroplasts is totally inhibited by the uncoupler nigericin: the translocation requirements are thus identical to those of the pre-23 kDa protein and diametrically opposite to those of pre-plastocyanin. Transport across the thylakoid membrane of a second fusion protein, consisting of the presequence of the 16 kDa protein linked to mature plastocyanin, is also dependent on a delta pH. The data suggest that two distinct systems are involved in the translocation of proteins across the thylakoid membrane, with each system recognizing specific signals within the presequences of a subset of lumenal protein precursors.

Published

1994

3. Precursors of one integral and five lumenal thylakoid proteins are imported by isolated pea and barley thylakoids: optimisation of in vitro assays.

Author

Brock IW, Hazell L, Michl D, Nielsen VS, Møller BL, Herrmann RG, Klösgen RB, and Robinson C

Subjects

Biological Transport, Cell-Free System, Chloroplasts ultrastructure, Fabaceae ultrastructure, Hordeum ultrastructure, Hydrogen-Ion Concentration, In Vitro Techniques, Intracellular Membranes metabolism, Magnesium metabolism, Membrane Proteins chemistry, Membrane Proteins metabolism, Molecular Weight, Plant Proteins chemistry, Protein Precursors chemistry, Temperature, Chloroplasts metabolism, Fabaceae metabolism, Hordeum metabolism, Plant Proteins metabolism, Plants, Medicinal, Protein Precursors metabolism

Abstract

In vitro assays for the import of proteins by isolated pea thylakoids have been refined and optimised with respect to (a) the method of thylakoid preparation, (b) the concentration of thylakoids in the import assay, and (c) the pH and temperature of the import assay. As a result, the 23 kDa and 16 kDa proteins of the photosynthetic oxygen-evolving complex are imported with efficiencies approaching 100%; import of the third oxygen-evolving complex protein is also observed, albeit with lower efficiencies. We have also demonstrated import of three further thylakoid proteins: plastocyanin, the CFoII subunit of the ATP synthase, and the photosystem I subunit, PSI-N, using this import assay. Import of plastocyanin, PSI-N and the 33 kDa oxygen-evolving complex protein subunit requires the presence of stromal extract whereas the other three proteins are efficiently imported in the absence of added soluble proteins. Import into isolated barley thylakoids was achieved under identical assay conditions, although with somewhat lower efficiency than into pea thylakoids.

Published

1993

4. Proton gradient-driven import of the 16 kDa oxygen-evolving complex protein as the full precursor protein by isolated thylakoids.

Author

Klösgen RB, Brock IW, Herrmann RG, and Robinson C

Subjects

Biological Transport, Active, Chloroplasts drug effects, Light, Metalloendopeptidases metabolism, Nigericin pharmacology, Plants metabolism, Chloroplasts metabolism, Photosynthetic Reaction Center Complex Proteins metabolism, Plant Proteins, Protein Precursors metabolism

Abstract

The biogenesis of the lumenal 16 kDa protein of the photosynthetic oxygen-evolving complex was analysed using an assay for the import of proteins by isolated thylakoids. The precursor protein is imported with high efficiency in the light in both the presence and absence of stromal extract. Import is almost completely blocked in the dark or if the uncoupler nigericin is present in the light. The data indicate that transport across the thylakoid membrane is driven by a proton motive force in which the proton gradient is the dominant component, and that the full precursor protein can be transported across the thylakoid membrane without prior cleavage by the stromal processing peptidase.

Published

1992