P Schumann scite author profile

The precursor of the small subunit of ribulose-1,5-bisphosphate carboxylase (pSS) and a modified pSS containing a C-terminal hexahistidyl tail (pSS(His) 6 ) were imported into isolated Chlamydomonas chloroplasts with comparable efficiency. In the presence of Ni 2+ ions the import of pSS(His) 6 was inhibited and the precursor bound to the envelope remained protease sensitive, while import of pSS was not affected. Addition of an excess of i -histidine suppressed the inhibition demonstrating that the hexahistidyl-Ni 2+ complex was responsible for import inhibition. Inhibition could be observed between about 0.5 and 10 mM Ni 2+ , depending on the total protein content in the assay. Import incompetent Ni 2+ -precursor complexes can be used to study early events in chloroplast protein import.© 1997 Federation of European Biochemical Societies.

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Varying competence for protein import into chloroplasts during the cell cycle in Chlamydomonas

Schild

Schumann

et al. 2001

European Journal of Biochemistry

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By studying the import of radioactively labelled small subunit of ribulose‐1,5‐bisphosphate carboxylase (pSS) into chloroplasts of the green alga C. reinhardtii cw‐15 protein delivery to chloroplasts was found to vary during the cell cycle. Chloroplasts were isolated from highly synchronous cultures at different time points during the cell cycle. When pSS was imported into ‘young’ chloroplasts isolated early in the light period about three times less pSS was processed to small subunit SS than in ‘mature’ chloroplasts from the middle of the light period. In ‘young’ chloroplasts also, less pSS was bound to the envelope surface. During the second half of the light period the import competence of isolated chloroplasts decreased again when based on chlorophyll content or cell volume, but did not change significantly when related to chloroplast number. Measurements of pSS binding to the surface of chloroplasts of different age indicated that the adaptation of protein import competence during the cell cycle is due to a variation of the number of binding sites per chloroplast surface area, rather than to modulation of the binding constant.

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A processing intermediate of a stromal chloroplast import protein in Chlamydomonas

Schumann

Schild

et al. 1999

Biochem. J.

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Proteins synthesized in the cytoplasm and destined for importation into the chloroplast across the double envelope membrane contain an N-terminal transit sequence which upon import is cleaved off by a stromal-processing peptidase. Since for stromal-residing proteins no intermediates have ever been found in vivo, it is assumed that precursor proteins are cleaved to the mature size by one proteolytic event which occurs immediately after translocation across both envelope membranes. During import of the precursor of the small subunit of ribulose-1,5-bisphosphate carboxylase (pSS) into isolated chloroplasts of Chlamydomonas we identified an intermediate-sized product, called iSS. It might be identical to a previously described iSS obtained in vitro by a partially purified soluble chloroplast protease [Su and Boschetti (1993) Eur. J. Biochem. 217, 1039-1047]. The kinetics of the formation of iSS in chloroplasts suggest that pSS is processed to the mature small subunit (SS) not by one, but by two steps via this intermediate product. Since, after an induction period, the ratio of iSS/SS was constant under various experimental conditions of import, the formation of iSS was considered not to be a side-reaction. The location of iSS in the intermembrane space of the envelope, as suggested by protease treatment of chloroplasts, questions the one-step translocation mechanism of precursor import into chloroplasts.

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A processing intermediate of a stromal chloroplast import protein in Chlamydomonas

Schumann

Schild

et al. 1999

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Import inhibition of poly(His) containing chloroplast precursor proteins by Ni²⁺ ions

Rothen¹,

Thiess²,

Schumann³

et al. 1996

FEBS Letters

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The precursor of the small subunit of ribulose-l,5-bisphosphate carboxylase (pSS) and a modified pSS containing a C-terminal hexahistidyl tail (pSS(His)6) were imported into isolated Chlamydomonas chloroplasts with comparable efficiency. In the presence of Ni 2+ ions the import of pSS(His)6 was inhibited and the precursor bound to the envelope remained protease sensitive, while import of pSS was not affected. Addition of an excess of L-histidine suppressed the inhibition demonstrating that the hexahistidyl-Ni 2+ complex was responsible for import inhibition. Inhibition could be observed between about 0.5 and l0 mM Ni ~+, depending on the total protein content in the assay. Import incompetent Ni2+-precursor complexes can be used to study early events in chloroplast protein import.

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P Schumann

Import inhibition of poly(His) containing chloroplast precursor proteins by Ni²⁺ ions

Varying competence for protein import into chloroplasts during the cell cycle in Chlamydomonas

A processing intermediate of a stromal chloroplast import protein in Chlamydomonas

A processing intermediate of a stromal chloroplast import protein in Chlamydomonas

Import inhibition of poly(His) containing chloroplast precursor proteins by Ni²⁺ ions

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P Schumann

Import inhibition of poly(His) containing chloroplast precursor proteins by Ni2+ ions

Varying competence for protein import into chloroplasts during the cell cycle in Chlamydomonas

A processing intermediate of a stromal chloroplast import protein in Chlamydomonas

A processing intermediate of a stromal chloroplast import protein in Chlamydomonas

Import inhibition of poly(His) containing chloroplast precursor proteins by Ni2+ ions

Contact Info

Product

Resources

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Import inhibition of poly(His) containing chloroplast precursor proteins by Ni²⁺ ions

Import inhibition of poly(His) containing chloroplast precursor proteins by Ni²⁺ ions