Jörg Volkmer scite author profile

Protein transport into the mammalian endoplasmic reticulum depends on nucleoside triphosphates. Photoaffinity labelling of microsomes with azido‐ATP prevents protein transport at the level of association of precursor proteins with the components of the transport machinery, Sec61alpha and TRAM proteins. The same phenotype of inactivation was observed after depleting a microsomal detergent extract of ATP‐binding proteins by passage through ATP‐agarose and subsequent reconstitution of the pass‐through into proteoliposomes. Transport was restored by co‐reconstitution of the ATP eluate. This eluate showed eight distinct bands in SDS gels. We identified five lumenal proteins (Grp170, Grp94, BiP/Grp78, calreticulin and protein disulfide isomerase), one membrane protein (ribophorin I) and two ribosomal proteins (L4 and L5). In addition to BiP (Grp78), Grp170 was most efficiently retained on ATP‐agarose. Purified BiP did not stimulate transport activity. Sequence analysis revealed a striking similarity of Grp170 and the yeast microsomal protein Lhs1p which was recently shown to be involved in protein transport into yeast microsomes. We suggest that Grp170 mediates efficient insertion of polypeptides into the microsomal membrane at the expense of nucleoside triphosphates.

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A novel type of co-chaperone mediates transmembrane recruitment of DnaK-like chaperones to ribosomes

Dudek

Volkmer

Bies

et al. 2002

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Recently, the homolog of yeast protein Sec63p was identified in dog pancreas microsomes. This pancreatic DnaJ-like protein was shown to be an abundant protein, interacting with both the Sec61p complex and lumenal DnaK-like proteins, such as BiP. The pancreatic endoplasmic reticulum contains a second DnaJ-like membrane protein, which had been termed Mtj1p in mouse. Mtj1p is present in pancreatic microsomes at a lower concentration than Sec63p but has a higher affinity for BiP. In addition to a lumenal J-domain, Mtj1p contains a single transmembrane domain and a cytosolic domain which is in close contact with translating ribosomes and appears to have the ability to modulate translation. The interaction with ribosomes involves a highly charged region within the cytosolic domain of Mtj1p. We propose that Mtj1p represents a novel type of co-chaperone, mediating transmembrane recruitment of DnaK-like chaperones to ribosomes and, possibly, transmembrane signaling between ribosomes and DnaK-like chaperones of the endoplasmic reticulum.

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The nucleotide exchange factor activity of Grp170 may explain the non‐lethal phenotype of loss of Sil1 function in man and mouse

2006

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Recent genetic work characterized homozygous mutations in the SIL1 gene as cause for the neurodegeneration that is associated with Marinesco-Sjögren syndrome in man and the woozy mouse mutant. All reported mutations were expected to result in loss of Sil1 function. Sil1 has previously been shown to act as nucleotide exchange factor for the molecular chaperone immunoglobulin heavy chain binding protein (BiP) in the lumen of the endoplasmic reticulum (ER). In the yeast ER Lhs1p was shown to be able to substitute for Sil1p and to represent an alternative nucleotide exchange activity. Therefore, by analogy the mammalian ortholog of Lhs1p, Grp170, was suggested to be able to compensate for the loss of Sil1 function in many mammalian organs. Here we characterize mammalian Grp170 as alternative nucleotide exchange factor for BiP, thus providing a likely explanation for the non-lethal phenotype of the homozygous human and murine SIL1 mutations.

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Jörg Volkmer

Homologs of the yeast Sec complex subunits Sec62p and Sec63p are abundant proteins in dog pancreas microsomes

A microsomal ATP-binding protein involved in efficient protein transport into the mammalian endoplasmic reticulum.

A novel type of co-chaperone mediates transmembrane recruitment of DnaK-like chaperones to ribosomes

The nucleotide exchange factor activity of Grp170 may explain the non‐lethal phenotype of loss of Sil1 function in man and mouse

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