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Query: EC:3.2.1.26 (
invertase
)
4,927
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Lipoxygenases (EC 1.13.11.12) catalyse the oxygenation of polyunsaturated fatty acids such as linoleic and arachidonic acid into reactive cis/trans hydroperoxidiene intermediates, which then serve as substrates for other enzymes leading to the production of a variety of secondary metabolites. In order to explore the characteristics of the individual lipoxygenase isoenzymes in more detail larger amounts of the pure enzymes are needed and their production in a heterologous host is therefore desirable. Full-length cDNAs encoding pea-seed lipoxygenase isoenzymes 2 and 3 were expressed in Saccharomyces cerevisiae with the aid of yeast-Escherichia coli shuttle vectors. Expression of the cDNA for lipoxygenase 2 under the control of the constitutive phosphoglycerate kinase (PGK) gene promoter yielded significant amounts of active enzyme inside the cell, both with yeast transformants carrying the cDNA gene on high-copy-number plasmids or integrated in chromosome V. Addition of the yeast
invertase
signal sequence in front of the pea lipoxygenase 3 yielded secreted active pea-seed lipoxygenase in the medium, but large amounts of inactive lipoxygenase 3 remained inside the yeast cell. Expression of the LOX3 cDNA can be achieved either constitutively with the PGK promoter or inducibly with the
GAL1
promoter.
...
PMID:Expression and secretion of pea-seed lipoxygenase isoenzymes in Saccharomyces cerevisiae. 136 7
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
We have fused a cDNA gene encoding mature human serum albumin (HSA) to several secretory leader-encoding sequences. The hybrid genes were cloned into an episomal vector under the control of several yeast promoters and then introduced into yeast cells. The
GAL1
promoter in combination with either the native HSA pre-sequence or a modified HSA pre-sequence gave the highest production of immunoreactive HSA, 90 mg/liter being reached in a shake flask culture. The
invertase
pre-sequence, the mating factor alpha 1 prepro-sequence, and the modified HSA pre-sequence directed accurate processing. In contrast, the chicken lysozyme pre-sequence and the native HSA pre-sequence directed incorrect processing. Episomal vectors were unstable within the host cells under non-selective culture conditions. To improve the plasmid stability, the hybrid genes were incorporated into an integrative vector. Transformants carrying multicopies of the plasmid integrated at the LEU2 locus stably secreted HSA. The highest yield of 65 mg/liter in a shake flask culture was obtained with the combination of the yeast glyceraldehyde-3-phosphate dehydrogenase promoter and the modified HSA pre-sequence. By constructing transformed strains containing multicopies of plasmids integrated at both the chromosome LEU2 and HIS4 loci, we have obtained a stable strain that continuously secretes as much as 85 mg HSA per liter of culture medium.
...
PMID:Secretory expression of the human serum albumin gene in the yeast, Saccharomyces cerevisiae. 193 15
In the yeast Saccharomyces cerevisiae six unlinked structural genes for
invertase
, the SUC genes, are known. We sequenced about 800 bp of the 5' non-coding region and the first 220 bp of the coding region of the genes SUC1, SUC3, SUC4 and SUC5 and compared them with the previously sequenced genes SUC2 and SUC7 (Sarokin and Carlson 1985a). All are highly homologous within the coding region but in the non-coding region SUC1 shows some differences and SUC2 is more highly diverged. Two different kinds of TATA boxes were identified: the more strongly expressed genes SUC1, 2 and 4 have the sequence TATAAA and the more weakly expressed genes SUC3, 5 and 7 have TACAAA. Though the SUC1 sequence is in general more homologous to the other SUC genes, the region between -140 and +100 of SUC1 is nearly identical to SUC2. This could be due to a gene conversion between SUC1 and the silent suc2 degrees allele which occurs in the strains carrying SUC1. Within the upstream regions of all the SUC genes three regions with palindromic sequences analogous to stem and loop structures were identified. Comparable structures could be detected in similar positions in the upstream sequences of the divergently transcribed yeast gene pairs MAL6S-MAL6T and
GAL1
-GAL10. Implications for the importance of these structures in the regulation and initiation of transcription are discussed.
...
PMID:Structural analysis of the 5' regions of yeast SUC genes revealed analogous palindromes in SUC, MAL and GAL. 283 32
A recombinant yeast strain was constructed of which the cell wall porosity could be reversibly and conditionally modulated. This strain expresses the Nicotiana plumbaginifolia beta-(1,3)-glucanase under control of the Saccharomyces cerevisiae
GAL1
promoter and the mating factor alpha 1 prepro-sequence. The following phenotypic effects were observed after expression of this enzyme: (a) expressed beta-(1,3)-glucanase is toxic to the producing yeast cells, which is reflected by a strong growth inhibition; as beta-(1,3)-glucanase could be detected only inside the cells, it seems to interfere with cell wall growth from within the cell; (b) after induction of glucanase, the recombinant strain lost up to 20% of some periplasmic enzymes, as evidenced by the release of normally periplasmic-associated
invertase
; (c) preliminary growth in a synthetic medium containing galactose significantly increased the transformation efficiency of the recombinant yeast strain.
...
PMID:Phenotypic effects in Saccharomyces cerevisiae after regulated expression of beta-(1,3)-glucanase from Nicotiana plumbaginifolia. 776 68
A DNA segment encoding a signal peptide from yeast
invertase
was fused in frame to bglH gene encoding 87-kD-beta-1,3-glucanase from Bacillus circulans IAM1165 and was expressed in the yeast Saccharomyces cerevisiae under the control of the
GAL1
gene promoter. Yeast cells containing this fused gene produced active beta-1,3-glucanase in the medium after a long period of incubation at low temperature. The enzyme produced by yeast was heterogeneous in size, and larger than the enzyme produced by Escherichia coli.
...
PMID:Expression of an 87-kD-beta-1,3-glucanase of Bacillus circulans IAM1165 in Saccharomyces cerevisiae by low-temperature incubation. 776 62
For expression of the alpha-galactosidase gene from Cyamopsis tetragonoloba in Kluyveromyces marxianus CBS 6556 we have used the promoter of the homologous inulinase-encoding gene (INU1). The INU1 gene has been cloned and sequenced and the coding region shows an identity of 59% with the Saccharomyces cerevisiae
invertase
gene (SUC2). In the 5'-flanking region of INU1 we found a sequence (TAAATCCGGGG) that perfectly matches to the MIG1 binding consensus sequence (WWWWTSYGGGG) of the S. cerevisiae
GAL1
, GAL4 and SUC2 genes. Using the K. marxianus INU1 promoter and prepro-signal sequence, we obtained a high alpha-galactosidase production level (153 mg/l) and a secretion efficiency of 99%. Both the production level and the secretion efficiency were significantly reduced when the INU1 pro-peptide was deleted. With either the S. cerevisiae PGK or GAL7 promoter we could obtain only low alpha-galactosidase production levels (2 mg/l).
...
PMID:Expression of an alpha-galactosidase gene under control of the homologous inulinase promoter in Kluyveromyces marxianus. 776 85
A previous report dealt with the cloning in Escherichia coli and sequencing of both the cDNA and genomic DNA encoding a highly active xylanase (XynA) of Aureobasidium pullulans (X.-L. Li and L. G. Ljungdahl, Appl. Environ. Microbiol. 60:3160-3166, 1994). Now we show that the gene was expressed in Saccharomyces cerevisiae under the
GAL1
promoter in pYES2 and that its product was secreted into the culture medium. S. cerevisiae clone pCE4 with the whole open reading frame of xynA, including the part coding for the signal peptide, had xylanase activity levels of 6.7 U ml-1 in the cell-associated fraction and 26.2 U ml-1 in the culture medium 4 h after galactose induction. Two protein bands with sizes of 25 and 27 kDa and N-terminal amino acid sequences identical to that of APX-II accounted for 82% of the total proteins in the culture medium of pCE4. These proteins were recognized by anti-APX-II antibody. The results suggest that the XynA signal peptide supported the posttranslational processing of xynA product and the efficient secretion of the active xylanase from S. cerevisiae. Clones pCE3 and pGE3 with inserts of cDNA and genomic DNA, respectively, containing only the mature enzyme region attached by a Met codon had low levels of xylanase activity in the cell-associated fractions (1.6 U ml-1) but no activity in the culture media. No xylanase activity was detected in clone pGE4, which was the same as pCE4, except that pGE4 had a 59-bp intron in the signal peptide region. A comparison of the A. pullulans and S. cerevisiae signal peptides demonstrated that the XynA signal peptide was at least three times more efficient than those of S. cerevisiae
invertase
or mating alpha-factor pheromone in secreting the heterologous xylanase from S. cerevisiae cells.
...
PMID:Expression of Aureobasidium pullulans xynA in, and secretion of the xylanase from, Saccharomyces cerevisiae. 857 98
The green fluorescent protein (GFP) was used as a marker to study the intracellular transport of vacuolar and secretory proteins in yeast. Therefore, the following gene constructs were expressed in Saccharomyces cerevisiae under control of the
GAL1
promoter: GFP N-terminally fused to the yeast secretory
invertase
(INV-GFP), the plant vacuolar chitinase (CHN-GFP) and its secretory derivative (CHNDeltaVTP-GFP), which did not contain the vacuolar targeting peptide (VTP), both chitinase forms (CHN and CHNDeltaVTP), GFP without any targeting information and two secretory GFP variants with and without the VTP of chitinase (N-GFP-V and N-GFP). Whereas chitinase without VTP is accumulated in the culture medium the other gene products are retained inside the cell up to 48 h of induction. Independently of a known VTP they are transported to the vacuole, so far as they contain a signal peptide for entering the endoplasmic reticulum. This was demonstrated by confocal laser scanning microscopy, immunocytochemical analysis and subcellular fractionation experiments as well. The transport of the GFP fusion proteins is temporary delayed by a transient accumulation in electron-dense structures very likely derived from the ER, because they also contain the ER chaperone Kar2p/Bip. Our results demonstrate that GFP directs secretory proteins without VTP to the yeast vacuole, possibly by the recognition of an unknown vacuolar signal and demonstrates, therefore, a first limitation for the application of GFP as a marker for the secretory pathway in yeast.
...
PMID:The green fluorescent protein targets secretory proteins to the yeast vacuole 1008 94
SNAP receptor (SNARE) and Sec1/Munc18 (SM) proteins are required for all intracellular membrane fusion events. SNAREs are widely believed to drive the fusion process, but the function of SM proteins remains unclear. To shed light on this, we screened for dominant-negative mutants of yeast Sec1 by random mutagenesis of a
GAL1
-regulated SEC1 plasmid. Mutants were identified on the basis of galactose-inducible growth arrest and inhibition of
invertase
secretion. This effect of dominant-negative sec1 was suppressed by overexpression of the vesicle (v)-SNAREs, Snc1 and Snc2, but not the target (t)-SNAREs, Sec9 and Sso2. The mutations isolated in Sec1 clustered in a hotspot within domain 3a, with F361 mutated in four different mutants. To test if this region was generally involved in SM protein function, the F361-equivalent residue in mammalian Munc18-1 (Y337) was mutated. Overexpression of the Munc18-1 Y337L mutant in bovine chromaffin cells inhibited the release kinetics of individual exocytosis events. The Y337L mutation impaired binding of Munc18-1 to the neuronal SNARE complex, but did not affect its binary interaction with syntaxin1a. Taken together, these data suggest that domain 3a of SM proteins has a functionally important role in membrane fusion. Furthermore, this approach of screening for dominant-negative mutants in yeast may be useful for other conserved proteins, to identify functionally important domains in their mammalian homologs.
...
PMID:A random mutagenesis approach to isolate dominant-negative yeast sec1 mutants reveals a functional role for domain 3a in yeast and mammalian Sec1/Munc18 proteins. 1875 20
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