Masakazu Kikuchi scite author profile

Formation of disulfide bonds in Escherichia coli envelope proteins is facilitated by the Dsb system, which is thought to consist of at least two components, a periplasmic soluble enzyme (DsbA) and a membrane-bound factor (DsbB). Although it is believed that DsbA directly oxidizes substrate cysteines and DsbB reoxidizes DsbA to allow multiple rounds of reactions, direct evidence for the DsbA-DsbB interaction has been lacking. We examined intracellular activities of mutant forms of DsbA, DsbA30S and DsbA33S, in which one of its active site cysteines (Cys30 or Cys33, respectively) has been replaced by serine. The DsbA33S protein was found to dominantly interfere with the disulfide bonds formation and to form intermolecular disulfide bonds with numerous other proteins when cells were grown in media containing low molecular weight disulfides such as GSSG. In the absence of added GSSG, DsbA33S protein remained specifically disulfide-bonded with DsbB. These in vivo results not only confirm the previous findings that Cys30 of DsbA is hyper-reactive in vitro but provide evidence that DsbA indeed interacts selectively with DsbB. We propose that the Cys30-mediated DsbA-DsbB complex represents an intermediate state of DsbA-DsbB recycling reaction that has been fixed because of the absence of Cys33 on DsbA.

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Cloning and sequencing ofSerratiaprotease gene

Nakahama¹,

Yoshimura²,

Marumoto³

et al. 1986

Nucl Acids Res

190

100

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The gene encoding an extracellular metalloproteinase from Serratia sp. E-15 has been cloned, and its complete nucleotide sequence determined. The amino acid sequence deduced from the nucleotide sequence reveals that the mature protein of the Serratia protease consists of 470 amino acids with a molecular weight of 50,632. The G+C content of the coding region for the mature protein is 58%; this high G+C content is due to a marked preference for G+C bases at the third position of the codons. The gene codes for a short pro-peptide preceding the mature protein. The Serratia protease gene was expressed in Escherichia coli and Serratia marcescens; the former produced the Serratia protease in the cells and the latter in the culture medium. Three zinc ligands and an active site of the Serratia protease were predicted by comparing the structure of the enzyme with those of thermolysin and Bacillus subtilis neutral protease.

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Peptide Ligands for Integrin .alpha.v.beta.3 Selected from Random Phage Display Libraries

Healy

Murayama²,

Maeda³

et al. 1995

Biochemistry

119

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The integrin alpha v beta 3 binds promiscuously to cell-adhesive proteins: vitronectin, fibronectin, and several others containing the RGD motif. We have explored molecular recognition by alpha v beta 3 through selection of ligands from large random libraries of peptides displayed on phage. Ligands bound by alpha beta 3 consisted primarily of RGD peptides; however, these peptides showed considerable heterogeneity with respect to the identities of amino acids flanking RGD. The tolerance of alpha v beta 3 for RGD peptides of diverse composition is consistent with its role in vivo as a versatile receptor for RGD-containing extracellular matrix proteins. Peptide ligands for alpha v beta 3 also included a novel binding sequence, identical to a tetrapeptide found in vitronectin, which is a candidate for a synergistic site in this adhesive protein that may act in concert with RGD to promote molecular recognition.

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Electron tomography reveals diverse conformations of integrin αIIbβ3 in the active state

Iwasaki

Mitsuoka

Fujiyoshi

et al. 2005

Journal of Structural Biology

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A Possible Role of ER-60 Protease in the Degradation of Misfolded Proteins in the Endoplasmic Reticulum

Otsu

Urade

Kito

et al. 1995

Journal of Biological Chemistry

109

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Wild-type human lysozyme (hLZM) is secreted when expressed in mouse L cells, whereas misfolded mutant hLZMs are retained and eventually degraded in a pre-Golgi compartment (Omura, F., Otsu, M., Yoshimori, T., Tashiro, Y., and Kikuchi, M. (1992) Eur. J. Biochem. 210, 591-599). These misfolded mutant hLZMs are associated with protein disulfide isomerase (Otsu, M., Omura, F., Yoshimori, T., and Kikuchi, M. (1994) J. Biol. Chem. 269, 6874-6877). From the observation that this degradation is sensitive to cysteine protease inhibitors, such as N-acetyl-leucyl-leucyl-norleucinal and N-acetyl-leucyl-leucyl-methioninal, but not to the serine protease inhibitors, 1-chloro-3-tosylamido-7-amino-2-heptanone and (p-amidinophenyl)methanesulfonyl fluoride, it was suggested that some cysteine proteases are likely responsible for the degradation of abnormal proteins in the endoplasmic reticulum (ER). ER-60 protease (ER-60), an ER resident protein with cysteine protease activity (Urade, R., Nasu, M., Moriyama, T., Wada, K., and Kito, M. (1992) J. Biol. Chem. 267, 15152-15159), was found to associate with misfolded hLZMs, but not with the wild-type protein, in mouse L cells. Furthermore, denatured hLZM is degraded by ER-60 in vitro, whereas native hLZM is not. These results suggest that ER-60 could be a component of the proteolytic machinery for the degradation of misfolded mutant hLZMs in the ER.

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