Rebecca L. Shipman scite author profile

The protein translocation channel at the plastid outer envelope membrane, Toc75, is essential for the viability of plants from the embryonic stage. It is encoded in the nucleus and is synthesized with a bipartite transit peptide that is cleaved during maturation. Despite its important function, the molecular mechanism and the biological significance of the full maturation of Toc75 remain unclear. In this study, we show that a type I signal peptidase (SPase I) is responsible for this process. First, we demonstrate that a bacterial SPase I converted Toc75 precursor to its mature form in vitro. Next, we show that disruption of a gene encoding plastidic SPase I (Plsp1) resulted in the accumulation of immature forms of Toc75, severe reduction of plastid internal membrane development, and a seedling lethal phenotype. These phenotypes were rescued by the overexpression of Plsp1 complementary DNA. Plsp1 appeared to be targeted both to the envelope and to the thylakoidal membranes; thus, it may have multiple functions.

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Characterization of the Linker 2 Region in Human Vimentin Using Site-Directed Spin Labeling and Electron Paramagnetic Resonance

Hess

Budamagunta

Shipman

et al. 2006

Biochemistry

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Site-directed spin labeling and electron paramagnetic resonance were used to probe residues 281-304 of human vimentin, a region that has been predicted to be a non-α-helical linker and the beginning of coiled-coil domain 2B. Though no direct test of linker structure has ever been made, this region has been hypothesized to be flexible with the polypeptide chains looping away from one another. EPR analysis of spin-labeled mutants indicates that (a) several residues reside in close proximity, suggesting that adjacent linker regions in a dimer run in parallel, and that (b) the polypeptide backbone is relatively rigid and inflexible in this region. However, this region does not show the characteristics of a coiled-coil as has been identified elsewhere in the molecule. Within this region, spectra from positions 283 and 291 are unique from all others thus far examined. These positions, predicted to be in a noncoiled-coil structure, display a significantly stronger interaction than the a-d contact positions of coiled-coil regions. Analysis of the early stages of assembly by dialysis from 8 M urea and progressive thermal denaturation shows the close apposition and structural rigidity at residues 283 and 291 occurs very early in assembly and with a relatively sudden onset, well before coiled-coil formation in other parts of the molecule. These features are inconsistent with hypotheses that envision the linkers as flexible regions, or as looping away from one another, and raise the possibility that the linker may be the site at which dimer alignment and/or formation is initiated. Spin labels placed further downstream yield spectra suggesting that the first regular heptad of rod domain 2 begins at position 302. In conjunction with our previous characterization of region 305-336 and the solved structure of rod 2B from 328-405, the full extent of coiled-coil domain in rod 2B is now known, spanning from vimentin positions 302-405.Intermediate filaments (IFs 1 ) are one of the three major classes of cytoskeletal structures in metazoan cells. Though more than 60 IF genes have been defined in the human genome, most IFs are assembled from just 1 or 2 IF proteins. Which specific IF protein(s) is/are expressed varies by cell type and the state of development/differentiation (1-4).

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Suborganellar localization of plastidic type I signal peptidase 1 depends on chloroplast development

Shipman

Inoue

2009

FEBS Letters

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Edited by Ulf-Ingo FlüggeKeywords: Plastidic type I signal peptidase Thylakoid Chloroplast envelope Localization Toc75 OE33 a b s t r a c t Plastidic type I signal peptidase 1 (Plsp1) is necessary for proper chloroplast development although its mode of action is not completely understood. Here, we demonstrate by immunoblotting and electron microscopy immunolocalization that Plsp1 is evenly distributed in the envelope and thylakoids of developing chloroplasts in meristems, whereas it is mainly located in thylakoids of developed chloroplasts in leaf mesophyll. This localization pattern corresponded to accumulation of transcripts for Plsp1 substrates in the envelope and thylakoids, translocon at the outer-envelopemembrane of chloroplasts 75 (Toc75) and oxygen-evolving complex subunit 33 (OE33), respectively. Furthermore, developing chloroplasts processed Toc75 more efficiently than did developed chloroplasts. These findings help establish the rationale for multiple localizations of Plsp1.

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Incorporation of 32Pi into nucleotides, polyphosphates, and other acid-soluble compounds by Myxococcus xanthus during myxospore formation

Maeba¹,

Shipman²

1978

J Bacteriol

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When glycerol was used to induce myxospore formation in Myxococcus xanthus in the presence of 32Pi, the label was incorporated into a variety of acid-soluble compounds. Incorporation into ribonucleotides was approximately fivefold greater than in vegetative cells or noninducible mutants grown in glycerol. The label was also incorporated into some unknown compounds and material tentatively identified as guanosine tetraphosphate. Marked accumulation into polyphosphates, which were present mainly in culture supernatants, occurred relatively late during myxospore formation. The kinetics of accumulation of some of these compounds and their distribution into acid-soluble cell extracts and culture supernatants are described and compared with those in vegetative cells and noninducible mutants.

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