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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of 25-fold overproduction of Escherichia coli signal peptidase I (SPase I) on the processing kinetics of various (hybrid) secretory proteins, comprising fusions between signal sequence functions selected from the Bacillus subtilis chromosome and the mature part of TEM-beta-lactamase, were studied in E. coli. One precursor (pre[A2d]-beta-lactamase) showed an enhanced processing rate, and consequently, a highly improved release of the mature enzyme into the periplasm. A minor fraction of a second hybrid precursor (pre[A13i]-beta-lactamase), which was not processed under standard conditions of SPase I synthesis, was shown to be processed under conditions of SPase I overproduction. However, this did not result in efficient release of the mature beta-lactamase into the periplasm. In contrast, the processing rates of wild-type pre-beta-lactamase and pre(A2)-beta-lactamase, already high under standard conditions, were not detectably altered by SPase I overproduction. These results demonstrate that the availability of SPase I can be a limiting factor in protein export in E. coli, in particular with respect to (hybrid) precursor proteins showing low (SPase I) processing efficiencies.
Mol Gen Genet 1991 May
PMID:Signal peptidase I overproduction results in increased efficiencies of export and maturation of hybrid secretory proteins in Escherichia coli. 190 37

The mouse TSH beta gene contains two start sites of transcription and exhibits alternative splicing among its first three exons, which encode 5'-untranslated mRNA sequences. Expression of the mouse TSH beta gene, therefore, gives rise to multiple mRNAs, each with a unique 5'-untranslated region. We have determined the relative translational efficiencies of these mRNAs in vitro, and we demonstrate that one of them directs the synthesis of a novel TSH beta presubunit. The four TSH beta mRNAs that are expressed from the down-stream transcription start site (TSS2) and the major mRNA derived from the up-stream start site (TSS1) were transcribed in vitro and translated in reticulocyte lysates and wheat germ extracts. The mRNA from TSS1 gave a novel TSH beta presubunit due to initiation of translation at an up-stream AUG unique to this mRNA. The novel presubunit contained a 17-amino acid NH2-terminal extension sequence, compared to the normal TSH beta presubunit, which is encoded by each of the mRNAs from TSS2. Despite the fact that the NH2-terminal extension sequence appeared to lack the characteristics of a signal peptide, the novel TSH beta presubunit was processed about 50% as efficiently by microsomal membranes as the normal presubunit, with glycosylation and cleavage by signal peptidase. There was an approximately 2-fold range in relative translatability among the different TSH beta mRNAs, and the mRNA encoding the novel TSH beta presubunit had the highest translational efficiency. Our data, therefore, suggest that the longer presubunit may be synthesized in vivo in significant amounts and give rise to a novel mature TSH beta subunit.
Mol Endocrinol 1991 Apr
PMID:Differential translatability in vitro of multiple messenger RNAs encoding the beta-subunit of mouse thyrotropin. 192 82

An open reading frame (ORF) of 141 bp was observed upstream from the Pseudomonas aeruginosa lysA gene. The translation product of this ORF contains a signal peptide with a lipoprotein box, Ile-Ala-Ala-Cys, at the predicted signal peptidase cleavage site. The Escherichia coli phoA gene without its signal sequence was fused in frame to this ORF in a broad host-range plasmid. The resulting construct expressed a hybrid protein exhibiting alkaline phosphatase activity in phoA mutants of both E. coli and P. aeruginosa. This indicates that the ORF encodes a peptide, part of which acts as an export signal. The hybrid peptide was identified by immunoblotting with alkaline phosphatase antiserum. The accumulation of a precursor form was observed when P. aeruginosa cells carrying this gene fusion on a plasmid were treated with globomycin. Moreover, the mature form could be labelled with 2-[3H]-glycerol, indicating that lipidic residues may be linked to the hybrid protein. Taken together, these results strongly suggest that the ORF encodes a lipopeptide. We propose that the gene is called IppL.
Mol Microbiol 1990 Apr
PMID:A lipopeptide-encoding sequence upstream from the lysA gene of Pseudomonas aeruginosa. 211 74

Export of the outer membrane protein, OmpA, across the cytoplasmic membrane of Escherichia coli was severely inhibited by the presence of two, three, four or six additional basic residues at the N-terminus of the mature polypeptide, but not by three similarly positioned acidic residues. Because a few bacterial proteins do possess basic residues close to the leader peptidase cleavage site and because the type of inhibition described here could pose problems in the construction of hybrid secretory proteins, we also studied means of alleviating this form of export incompatibility. Inhibition was abolished when basic residues were preceded by acidic ones. Also, the processing rates of the mutants with two or six basic residues could be partially restored by increasing the length of the hydrophobic core of the signal peptide. Taking this as a precedent, it is suggested that the structure of the signal peptide is an important feature for maintenance of a reasonable rate of translocation of those exported proteins which possess basic residue(s) at the N-terminus of the mature polypeptide.
Mol Gen Genet 1990 May
PMID:Export incompatibility of N-terminal basic residues in a mature polypeptide of Escherichia coli can be alleviated by optimising the signal peptide. 219 18

A system is described which enabled the selection of a heterologous lep gene, encoding signal peptidase I, in Escherichia coli. It is based on complementation of an E. coli mutant, in which the synthesis of signal peptidase I can be regulated. With this system the lep gene of Salmonella typhimurium was cloned and the nucleotide sequence was determined. The S. typhimurium lep gene encodes a protein of 324 amino acids. Expression of the gene in the E. coli mutant resulted in suppression of growth inhibition and in the restoration of processing activity under conditions where synthesis of E. coli signal peptidase I was repressed. The cloned S. typhimurium signal peptidase I had an apparent molecular weight of 36,000 daltons, which is in agreement with the calculated molecular weight of 35,782 daltons. The system described for selection of the S. typhimurium lep gene may permit the cloning and expression of other heterologous signal peptidase I genes.
Mol Gen Genet 1990 Sep
PMID:Molecular cloning of the Salmonella typhimurium lep gene in Escherichia coli. 225 Jun 50

A plasmid, pWEH1, was constructed containing a fusion of the DNA encoding the signal sequence of the Escherichia coli outer-membrane protein A to the 5'-end of a glyceraldehyde-3-phosphate dehydrogenase cDNA from Ricinus communis. When expressed in E. coli, the fusion protein was secreted by the normal membrane-potential-dependent pathway. Processing by signal peptidase was inhibited by low concentrations of phenethyl alcohol. Quantitative cell fractionation was used to show that the mature plant protein was associated with the bacterial outer membrane. The protein could not be released from the membrane by washing with alkaline sodium carbonate. Radioactivity from [U-14C]-palmitate was incorporated into the heterologous protein. These results suggest that the sequence of this normally cytoplasmic enzyme contains a cryptic lipid-modification site, and the combination of a signal sequence plus a lipid-modification sequence results in specific targeting to the bacterial outer membrane.
Mol Microbiol 1990 Aug
PMID:Secretion of Ricinus communis glyceraldehyde-3-phosphate dehydrogenase by Escherichia coli. 228 Jun 87

The effects of five single-amino-acid substitution mutations within the signal sequence of yeast prepro-alpha-factor were tested in yeast cells. After short pulse-labelings, virtually all of the alpha-factor precursor proteins from a wild-type gene were glycosylated and processed by signal peptidase. In contrast, the signal sequence mutations resulted in the accumulation of mostly unglycosylated prepro-alpha-factor after a short labeling interval, indicating a defect in translocation of the protein into the endoplasmic reticulum. Confirming this interpretation, unglycosylated mutant prepro-alpha-factor in cell extracts was sensitive to proteinase K and therefore in a cytosolic location. The signal sequence mutations reduced the rate of translocation into the endoplasmic reticulum by as much as 25-fold or more. In at least one case, mutant prepro-alpha-factor molecules were translocated almost entirely posttranslationally. Four of the five mutations also reduced the rate of proteolytic processing by signal peptidase in vivo, even though the signal peptide alterations are not located near the cleavage site. This study demonstrates that a single-amino-acid substitution mutation within a eucaryotic signal peptide can affect both translocation and proteolytic processing in vivo and may indicate that the recognition sequences for translocation and processing overlap within the signal peptide.
Mol Cell Biol 1989 Nov
PMID:Mutations in the signal sequence of prepro-alpha-factor inhibit both translocation into the endoplasmic reticulum and processing by signal peptidase in yeast cells. 251 81

The prlC gene product of Escherichia coli can be altered by mutation so that it restores export of proteins with defective signal sequences. The strongest suppressor, prlC8, restores processing of a mutant signal sequence to a rate indistinguishable from the wild-type. Data obtained by changing gene dosage of the dominant suppressor and its specificity for different signal sequence mutations suggest that PrlC8 interacts directly with the hydrophobic core of the signal sequence. Despite the fact that signal sequence processing appears to be mediated by leader peptidase, the processed mature protein is not translocated efficiently from the cytoplasm. Results obtained with various double mutants indicate that PrlC8-mediated processing of mutant signal sequences does not require components of the cellular export machinery such as SecA, SecB or PrlA (SecY) and that the block in translocation from the cytoplasm occurs because PrlA (SecY) fails to recognize the defective signal sequence. We suggest that PrlC8 directs insertion of the mutant signal sequence into the membrane bilayer to an extent that processing by leader peptidase can occur. This reaction is novel in that it has not been observed previously in vivo.
J Mol Biol 1989 Feb 20
PMID:PrlC, a suppressor of signal sequence mutations in Escherichia coli, can direct the insertion of the signal sequence into the membrane. 253 34

The UDP-sugar hydrolase of Salmonella typhimurium has previously been reported to be located in both the inner and the outer membrane. We have cloned the gene, designated ushB, encoding this enzyme and determined its nucleotide sequence. No significant sequence homology with the periplasmic UDP-sugar hydrolase of Escherichia coli was found at either the DNA or protein level. However, a sequence is detectable, in the E. coli genome, which weakly hybridizes with a specific ushB probe. Polypeptide analysis has allowed the identification of the Salmonella hydrolase which has an Mr of 28,349 as compared to an Mr of 60,767 for the E. coli hydrolase. Most of the protein (approximately 90%) is located in the inner membrane. Two independent membrane fractionation procedures indicate that the remainder may be associated with the outer membrane. The deduced primary structure indicates the presence of an N-terminal signal peptide, although certain features of the region surrounding the putative processing site indicate that processing may be inefficient, or may not occur. Experiments with several inhibitors of signal peptidase function fail to demonstrate the appearance of a precursor form.
Mol Microbiol 1989 Feb
PMID:Isolation, molecular characterization and expression of the ushB gene of Salmonella typhimurium which encodes a membrane-bound UDP-sugar hydrolase. 254 58

An apo form of cytochrome cd1 (nitrite reductase) of Paracoccus denitrificans has been detected immunologically in the periplasm of a mutant that lacks all c-type cytochromes. A method for the preparation of apo-nitrite reductase (lacking both c- and d-type haem) from the holoenzyme of wild-type cells has been developed. The apoprotein synthesized by the mutant is indistinguishable from the chemically prepared apoprotein in respect of: (i) subunit molecular weight; (ii) formation of a homodimer; (iii) properties on anion exchange chromatography. The holoenzyme has similar properties in respect of (i) and (ii) but behaves differently during anion exchange. A suggested mode of assembly of cytochrome cd1 is translocation into the periplasm of a precursor polypeptide, maturation by a signal peptidase to give an apoprotein identical to that prepared chemically from the holoenzyme, followed by insertion of c-type and d-type haem in an as yet unknown order.
Mol Microbiol 1989 May
PMID:A bacterial c-type cytochrome can be translocated to the periplasm as an apo form; the biosynthesis of cytochrome cd1 (nitrite reductase) from Paracoccus denitrificans. 254 64


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