Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.2.1.26 (invertase)
 4,927 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The function of the SRH1 product, the yeast homologue of the 54 kDa subunit of the mammalian signal recognition particle, has been analyzed using a galactose dependent mutant of the gene. SRH1 has been placed under control of the GAL1 promoter and introduced into a haploid cell that had its chromosomal SRH1 copy disrupted. This mutant grows normally on galactose medium but slows down the growth about 10 h after transfer to glucose medium. At the same time, precursor forms of secretory proteins, alpha-mating factor and invertase, accumulate in the cells. This result indicates that the SRH1 product is involved in translocation of precursors of secretory proteins across the endoplasmic reticulum membrane in yeast cells.
 ...
PMID:SRH1 protein, the yeast homologue of the 54 kDa subunit of signal recognition particle, is involved in ER translocation of secretory proteins. 164 26

An in vitro translocation system has been reconstituted with subcellular fractions from the cell wall-less mutant of Neurospora crassa (fz;sg;os-1). Prepro alpha factor and invertase, secretory proteins from yeast, were faithfully translocated and glycosylated by Neurospora microsomes when presence cotranslationally in the Neurospora translation system. When presence cotranslationally in the Neurospora translation system, microsomes from canine pancreas(cRM) could also translocate and glycosylate the secretory proteins. However, salt-extracted cRM, which is depleted of canine signal recognition particle, could not. Furthermore, prepro alpha factor and a truncated form of invertase, containing the first 262-amino acid residues of the secretory invertase, were glycosylated by Neurospora microsomes posttranslationally, whereas only the truncated form of invertase was glycosylated by cRM when added posttranslationally. The full length invertase was not glycosylated posttranslationally. Posttranslational glycosylation of prepro alpha factor and of the truncated form of invertase is dependent on the hydrolysis of a nucleoside triphosphate. These data suggest that posttranslational glycosylation of prepro alpha factor occurs via a novel type of recognition mechanism which is either absent or ineffective in cRM.
 ...
PMID:Secretory protein translocation in a neurospora crassa in vitro system. Hydrolysis of a nucleoside triphosphate is required for posttranslational translocation. 296 Jun 80

Synthetic oligonucleotides coding for the yeast invertase secretion signal peptide were fused to the gene for the mature form of human interferon (huIFN-alpha 2). Two plasmids (E3 and F2) were constructed. E3 contained the invertase signal codons in a reading frame with the mature huIFN-alpha 2 gene. F2 had a deletion of the codon for alanine at amino acid residue-5 in the invertase signal and an addition of a methionine codon located between the coding sequences for the invertase signal and mature huIFN-alpha 2. Both hybrid genes were located adjacent to the promoter from the 3-phosphoglycerate kinase gene on the multicopy yeast expression plasmid, YEp1PT. Yeast transformants containing these plasmids produced somewhat more IFN than did the same expression plasmid containing the IFN gene with its human secretion signal sequence. HuIFN-alpha 2, purified from the medium of yeast cells containing E3, was found to be processed at the correct site. The huIFN-alpha 2 made by plasmid F2 was found to be completely processed at the junction between the invertase signal (a variant) and the methionine of methionine-huIFN-alpha 2. These results strongly suggested that the invertase signal (or its variant) attached to huIFN was efficiently recognized by the presumed signal recognition particle and was cleaved by the signal peptidase in the yeast cells. These results also suggested that amino acid changes on the right side of the cleavage site did not necessarily prevent cleavage or secretion.
 ...
PMID:Saccharomyces cerevisiae secretes and correctly processes human interferon hybrid proteins containing yeast invertase signal peptides. 302 6

Secretion of bovine pancreatic trypsin inhibitor (BPTI) in Saccharomyces cerevisiae was examined with four different leader peptides: the invertase signal peptide, the mfalpha1 signal peptide, a synthetic signal peptide, and a synthetic pre pro leader. BPTI secretion from a low-copy CEN plasmid varies from 1.8 to 10.4 microgram/mL among these constructs. Secretion titers correlate with dependence on signal recognition particle (SRP), with greatest secretion from the most SRP-dependent construct. Examination of co- vs post-translational translocation pathways and overall translocation efficiency by ubiquitin translocation assay (UTA) does not provide insight into the variation in BPTI secretion efficiency, perhaps due to alteration in translocation kinetics from the additional polypeptide fusion required by the assay. BPTI translocation efficiency (as measured by UTA) is found to drop markedly upon depletion of Srp54p, prior to any observable growth defect. Subsequent to stress response induction and the onset of slow growth (15-h doubling time), BPTI translocation efficiency recovers to the level observed prior to SRP depletion.
 ...
PMID:Leader peptide efficiency correlates with signal recognition particle dependence in Saccharomyces cerevisiae. 1009 39

Genetic studies of Saccharomyces cerevisiae have identified many components acting to deliver specific proteins to their cellular locations. Genome analysis, however, has indicated that additional genes may also participate in such protein trafficking. The product of the yeast Yarrowia lipolytica TSR1 gene promotes the signal recognition particle-dependent translocation of secretory proteins through the endoplasmic reticulum. Here we describe the identification of a new gene family of proteins that is well conserved among different yeast species. The TSR1 genes encode polypeptides that share the same protein domain distribution and, like Tsr1p, may play an important role in the early steps of the signal recognition particle-dependent translocation pathway. We have identified five homologues of the TSR1 gene, four of them from the yeast Saccharomyces cerevisiae and the other from Hansenula polymorpha. We generated a null mutation in the S. cerevisiae YHC8 gene, the closest homologue to Y. lipolytica TSR1, and used different soluble (carboxypeptidase Y, alpha-factor, invertase) and membrane (dipeptidyl-aminopeptidase) secretory proteins to study its phenotype. A large accumulation of soluble protein precursors was detected in the mutant strain. Immunofluorescence experiments show that Yhc8p is localized in the endoplasmic reticulum. We propose that the YHC8 gene is a new and important component of the S. cerevisiae endoplasmic reticulum membrane and that it functions in protein translocation/insertion of secretory proteins through or into this compartment.
 ...
PMID:Disruption of YHC8, a member of the TSR1 gene family, reveals its direct involvement in yeast protein translocation. 1019 19