EC:3.2.1.26 - FACTA Search

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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)

The actin cytoskeleton cells is altered in rvs161 mutant yeast, with the defect becoming more pronounced under unfavorable growth conditions, as described for the rvs167 mutant. The cytoskeletal alteration has no apparent effect on invertase secretion and polarized growth. Mutations in RVS161, just as in RVS167, lead to a random budding pattern in a/alpha diploid cells. This behavior is not observed in a/a diploid cells homozygous for the rvs161-1 or rvs167-1 mutations. In addition, sequence comparisons revealed that amphiphysin, a protein first found in synaptic vesicles of chicken and shown to be the autoantigen of Stiff Man syndrome, presents similarity with both Rvs proteins. Furthermore, limited similarities with myosin heavy chain and tropomyosin alpha chain from higher eukaryotic cells allow for the definition of a possible consensus sequence. The finding of related sequences suggests the existence of a function for these proteins that is conserved among eukaryotic organisms.
Mol Gen Genet 1995 Feb 20
PMID:Actin cytoskeleton and budding pattern are altered in the yeast rvs161 mutant: the Rvs161 protein shares common domains with the brain protein amphiphysin. 789 62

Expression in the yeast Saccharomyces cerevisiae of the intact nprE gene of Bacillus subtilis, which encodes the pre-pro-NprE neutral protease precursor, resulted in intracellular accumulation of unprocessed precursor without detectable secretion or processing of the expressed gene product. When sequences specifying the signal peptide of yeast invertase were fused upstream of sequences encoding the mature NprE enzyme, nprE gene products were secreted into the culture medium. The secreted protein products were, however, highly, glycosylated and biologically inactive.
J Gen Microbiol 1993 Feb
PMID:Expression of Bacillus subtilis neutral protease gene (nprE) in Saccharomyces cerevisiae. 843 52

The Klebsiella pneumoniae genes scrA and scrB are indispensable for sucrose (Scr) utilisation. Gene scrA codes for an Enzyme IIScr (IIScr) transport protein of the phosphoenolpyruvate-dependent carbohydrate: phosphotransferase system (PTS), while scrB encodes a sucrose 6-phosphate specific invertase. A 3.7 kbscr AB DNA fragment has been cloned from K. pneumoniae and expressed in Escherichia coli. Its nucleotide sequence was determined and the coding regions for scrA (1371 bp) and scrB (1401 bp) were identified by genetic complementation, enzyme activity test and radiolabelling of the gene products. In addition, the nucleotide sequence of the scrB gene from conjugative plasmid pUR400 isolated from Salmonella typhimurium was also determined and errors in the previously published sequence of the scrA gene of pUR400 were corrected. Extensive similarity was found between the sequences of ScrA and other Enzymes II, as well as between the two invertases and other sucrose hydrolysing enzymes. Based on the analysis of seven IIScr proteins, a hypothetical model of the secondary structure of IIScr is proposed.
Mol Gen Genet 1996 Feb 05
PMID:Molecular analysis of the scrA and scrB genes from Klebsiella pneumoniae and plasmid pUR400, which encode the sucrose transport protein Enzyme II Scr of the phosphotransferase system and a sucrose-6-phosphate invertase. 862 19

The sre gene (ORF469) of the R4 phage encodes a protein similar to the resolvase-DNA invertase family proteins. Insertional gene disruption of sre prevented a lysogen from entering the lytic cycle, implying that Sre protein is a site-specific recombinase needed for excision of the R4 prophage genome (M. Matsuura, T. Noguchi, T. Aida, M. Asayama, H. Takahashi, and M. Shirai, J. Gen. Appl. Microbiol. 41:53-61, 1995). To determine whether this sre gene is also necessary for the integration reaction, we studied its function by integration plasmid analysis. When deletions, frameshifts, and site-directed mutations that caused an amino acid substitution of Ser-17 for Ala were introduced into the sre structural gene, transformation efficiency of Streptomyces parvulus 2297 with these plasmid DNAs was severely reduced. However, an adenine insertion just before the possible initiation codon of the sre gene did not significantly decrease the efficiency. These data suggest that the Sre protein is a site-specific recombinase responsible for integration of the R4 phage genome.
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PMID:The sre gene (ORF469) encodes a site-specific recombinase responsible for integration of the R4 phage genome. 865 26

The beta recombinase encoded by the streptococcal plasmid pSM19035, which shows 28 to 34% identity with DNA resolvases and DNA invertases, can catalyze formation of deletions or inversions between properly oriented target sites. We have constructed a number of site-directed mutations at residues that are conserved between the beta protein and other DNA recombinases of the resolvase/invertase family. The analysis of the recombination and DNA-binding ability of each mutant protein shows that the mutations affect the catalytic activity and, in two cases, the dimerization of the protein. The results suggest that the beta protein probably mediates recombination by a catalytic mechanism similar to that proposed for the resolvase/invertase family. Since the beta recombinase differs from DNA resolvases and DNA invertases in its lack of bias towards either of these reactions, the results presented support the hypothesis that its unique properties might depend on details of the architecture or assembly of the recombination complex. In addition, two beta protein mutants that can no longer form dimers in solution have provided new insights into the way the protein binds to DNA.
Mol Gen Genet 1997 Aug
PMID:Mutational analysis of a site-specific recombinase: characterization of the catalytic and dimerization domains of the beta recombinase of pSM19035. 929 31

Investigations of possible regulators of Bacteroides fragilis glutamine synthetase (GS) activity were done in Escherichia coli using a compatible dual-plasmid system. The B. fragilis glnA gene, together with upstream and downstream flanking regions, was cloned onto the low copy number plasmid pACYC184 and expressed in the E. coli glnA ntrB ntrC deletion strain, YMC11. GS activity was monitored following co-transformation with a B. fragilis genomic library carried on the compatible plasmid pEcoR251. A gene was cloned that caused a twofold increase in B. fragilis GS activity but did not affect the activity of the E. coli GS enzyme or the B. fragilis sucrase (ScrL). Deletion of the B. fragilis glnA downstream region decreased basal levels of GS activity, but did not affect the ability of the cloned gene to increase the B. fragilis GS activity. Reporter gene analysis, using the B. fragilis glnA promoter region fused to the promoterless Clostridium acetobutylicum endoglucanase gene, showed no increase in reporter gene activity. This demonstrated that the increase in GS activity was not regulated at the transcriptional level, and that the cloned gene product was not affecting the copy number of the plasmid in trans. Sequence data indicated that the cloned gene had good amino acid identity to a range of elongation factor P (EF-P) proteins, the highest being to that of a Synechocystis sp (48%), and the least to Mycobacterium genitalium (27%). Amino acid identity to the E. coli EF-P was intermediate (37%). A possible role for EF-P in enhancing translation of the B. fragilis glnA mRNA is proposed.
Mol Gen Genet 1998 May
PMID:Cloning of an EF-P homologue from Bacteroides fragilis that increases B. fragilis glutamine synthetase activity in Escherichia coli. 964 40

The product of the uvp1 gene of the R46 plasmid, a member of the DNA invertase-resolvase family, was studied to characterize its recombination activity on the R46 plasmid. The purified Uvp1 protein specifically binds to a 256-bp DNA fragment located immediately upstream of the uvp1 gene itself, and overlapping the 5'-conserved segment (5'-CS) of the R46 integron In1. We identified on this fragment a putative resolution (res) site. Using an in vitro assay, we demonstrated the ability of the protein to resolve a synthetic cointegrate containing a direct repeat of the res site. In vivo, we obtained cointegrate resolution in Uvp1-expressing recA- cells. Sites I and II, subsites of the putative res site, lie within the outer boundary of the integron 5'-CS which is common to all the known integrons. Furthermore, a 69-bp DNA element (containing site I) is required for cointegrate resolution. We propose that this recombination mechanism protects R46 plasmid against unequal distribution following fusion with either identical or different integron-bearing plasmids. Moreover, Uvp1 might have a role in generating gene cassette diversity between the two conserved segments of the integron.
Mol Gen Genet 1998 May
PMID:The uvp1 gene on the R46 plasmid encodes a resolvase that catalyzes site-specific resolution involving the 5'-conserved segment of the adjacent integron In1. 964 46

The genes encoding the ApaLI (5'-GTGCAC-3'), NspI (5'-RCATGY-3'), NspHI (5'-RCATGY-3'), SacI (5'-GAGCTC-3'), SapI (5'-GCTCTTCN1-3', 5'-N4GAAGAGC-3') and ScaI (5'-AGTACT-3') restriction-modification systems have been cloned in E. coli. Amino acid sequence comparison of M.ApaLI, M.NspI, M.NspHI, and M.SacI with known methylases indicated that they contain the ten conserved motifs characteristic of C5 cytosine methylases. NspI and NspHI restriction-modification systems are highly homologous in amino acid sequence. The C-termini of the NspI and NlaIII (5'-CATG-3') restriction endonucleases share significant similarity. 5mC modification of the internal C in a SacI site renders it resistant to SacI digestion. External 5mC modification of a SacI site has no effect on SacI digestion. N4mC modification of the second base in the sequence 5'-GCTCTTC-3' blocks SapI digestion. N4mC modification of the other cytosines in the SapI site does not affect SapI digestion. N4mC modification of ScaI site blocks ScaI digetion. A DNA invertase homolog was found adjacent to the ApaLI restriction-modification system. A DNA transposase subunit homolog was found upstream of the SapI restriction endonuclease gene.
Mol Gen Genet 1998 Nov
PMID:Cloning and expression of the ApaLI, NspI, NspHI, SacI, ScaI, and SapI restriction-modification systems in Escherichia coli. 986 76

Kluyveromyces lactis, a budding yeast related to Saccharomyces cerevisiae, can grow on a wider variety of substrates and shows less sensitivity to glucose repression than does Saccharomyces cerevisiae. Many genes that are subject to glucose repression in S. cerevisiae are repressed only weakly or not at all in K. lactis. The molecular basis for this difference is largely unknown. To compare the mechanisms that regulate glucose repression in K. lactis and S. cerevisiae, we decided to clone and analyse an invertase gene from K. lactis. The SUC2 gene, which encodes invertase in S. cerevisiae, is strongly regulated by glucose and serves as a model system for studies on glucose repression. The invertase gene of K. lactis, KlINV1, was isolated by colony hybridization using a conserved region within the inulinase gene of K. marxianus as a probe. Two independent clones obtained were shown to contain the same ORF of 1827 bp. The deduced amino acid sequence is 59% similar to that of the K. marxianus inulinase and shows 49% similarity to ScSuc2p. Gene disruption experiments and low-stringency Southern analysis indicate that KlINV1 is a unique gene in K. lactis. Northern analysis revealed that the transcription of KlINV1 is strongly repressed in the presence of glucose, but, in contrast to the case in S. cerevisiae, repression is independent of KlMig1p.
Mol Gen Genet 1999 Jun
PMID:Glucose repression of the Kluyveromyces lactis invertase gene KlINV1 does not require Mig1p. 1039 24

In snap frozen sections of the duodenum, jejunum, ileum, the right and left colon of APC+/-mice mucosubstances, activities of brush border glycosidases and proteases, immunoreactivity of sucrase and activities of some enzymes of pericellular proteolysis were studied. Multiple adenomas (tubular or tubulovillous) the numbers of which decreased in the aboral direction occurred in the small intestine. Two tubulovillous adenomas with dysplastic nuclei but with no invasion were found in the right colon. The morphological and histochemical findings resembled those of human colorectal tumours. Activities of brush border enzymes and sucrase immunoreactivity were decreased to various extent or were not present at all. The findings fluctuated even within the same section. Activities of enzymes of pericellular proteolysis were slightly increased in comparison with non affected mucosa. This model is suitable and deserves further studies.
Gen Physiol Biophys 1999 Sep
PMID:Are intestinal tumours in Apc+/-mice a suitable model of colorectal carcinoma in man? 1070 47

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