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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)

A soluble acid invertase activity isolated from Helianthus tuberosus (Jerusalem artichoke) shoots and analyzed by immunochromatography using polyclonal yeast antibodies, represents around 5% of the total invertase activity. This invertase isoenzyme was also isolated from dormant tuber parenchyma. In these partially dormant tissues, the specific activity of this isoenzyme is low suggesting a partial inactivation of the invertase molecules. Polyacrylamide gel electrophoresis of immunopurified fractions yields similar levels of the 58 kDa polypeptide both in shoots and dormant tubers, but with much lower activity of the enzyme in the tubers. A cDNA library was constructed in pUEX 1 from poly (A)+ RNA extracted from Jerusalem artichoke tubers. This library was screened for invertase using (i) a Bacillus subtilis invertase DNA probe and (ii) anti-yeast invertase antibodies. A recombinant clone of approximately 1.8 kb size was selected by these two methods. Using Northern blots, a temporal sequence in the expression of invertase gene was observed during the breaking of dormancy with the main level after 8 weeks of cold treatment at 4 degrees C. A 2.5 kb transcript was detected, translation of which would yield a 97 kDa polypeptide representing the precursor of Jerusalem artichoke invertase.
Biochem Mol Biol Int 1993 Dec
PMID:Molecular cloning and physiological analysis of an invertase isoenzyme in Helianthus tissues. 751 Oct 14

Invertase from Baker's yeast (Saccharomyces cerevisiae) and Horseradish peroxidase (HRP) were covalently immobilized on Concanavalin A precoupled to Seralose via carbohydrate moieties. Covalent coupling of glycoenzymes was achieved by periodate induced aldehydic groups of glycosyls with amino groups of Concanavalin A, at different pH values. A bifunctional reagent such as glutaraldehyde crosslinks the glycoenzymes with lectin both intra and intermolecularly. Therefore, attempts were made to introduce covalent linkages between glycoenzymes and Concanavalin A-Seralose without intramolecular crosslinking in either. The immobilized preparations of glycoenzymes exhibited high yield of immobilization and eta value. About 90 and 85% covalent coupling could be observed in invertase and HRP at pH 7.0 respectively, as determined by treatment with 0.5 M methyl alpha-D-mannopyranoside. All immobilized glycoenzyme preparations exhibited marked stabilization towards thermal inactivation.
Biochem Mol Biol Int 1995 Jul
PMID:Covalent immobilization of invertase and horseradish peroxidase on concanavalin A-Seralose via carbohydrate moieties. 754 67

The chloramphenicol-resistance transposon Tn4451 undergoes precise conjugative deletion from its parent plasmid plP401 in Clostridium perfringens and precise spontaneous excision from multicopy plasmids in Escherichia coli. The complete nucleotide sequence of the 6338 bp transposon was determined and it was found to encode six genes. Genetic analysis demonstrated that the largest Tn4451-encoded gene, tnpX, was required for the spontaneous excision of the transposon in both E. coli and C. perfringens, since a Tn4451 derivative that lacked a functional tnpX gene was completely stable in both organisms. Because the ability of this derivative to excise was restored by providing the tnpX gene on a compatible plasmid, it was concluded that this gene encoded a trans-acting site-specific recombinase. Allelic exchange was used to introduce the tnpX delta 1 allele onto plP401 and it was shown that TnpX was also required for the conjugative excision of Tn4451 in C. perfringens. It was also shown by hybridization and polymerase chain reaction (PCR) studies that TnpX-mediated transposon excision resulted in the formation of a circular form of the transposon. The TnpX recombinase was unique because it potentially contained the motifs of two independent site-specific recombinase families, namely the resolvase/invertase and integrase families. Sequence analysis indicated that the resolvase/invertase domain of TnpX was likely to be involved in the excision process by catalysing the formation of a 2 bp staggered nick on either side of the GA dinucleotide located at the ends of the transposon and at the junction of the circular form. The other Tn4451-encoded genes include tnpZ, which appears to encode a second potential site-specific recombinase. This protein has similarity to plasmid-encoded Mob/Pre proteins, which are involved in plasmid mobilization and multimer formation. Located upstream of the tnpZ gene was a region with similarity to the site of interaction of these mobilization proteins.
Mol Microbiol 1995 May
PMID:Molecular genetics of the chloramphenicol-resistance transposon Tn4451 from Clostridium perfringens: the TnpX site-specific recombinase excises a circular transposon molecule. 756 13

alpha 1,3 mannosyltransferase (Mnn1p) is a type II integral membrane protein that is localized to the yeast Golgi complex. We have examined the signals within Mnn1p that mediate Golgi localization by expression of fusion proteins comprised of Mnn1p and the secreted protein invertase. The N-terminal transmembrane domain (TMD) of Mnn1p is sufficient to localize invertase to the Golgi complex by a mechanism that is not saturable by approximately 15-20 fold overexpression. Furthermore, the TMD-mediated localization mechanism is clathrin dependent, as an invertase fusion protein bearing only the Mnn1p TMD is mislocalized to the plasma membrane of a clathrin heavy chain mutant. The Mnn1-invertase fusion proteins are not retained in the Golgi complex as efficiently as Mnn1p, suggesting that other signals may be present in the wild-type protein. Indeed, the Mnn1p lumenal domain (Mnn1-s) is also localized to the Golgi complex when expressed as a functional, soluble protein by exchanging its TMD for a cleavable signal sequence. In contrast to the Mnn1-invertase fusion proteins, overexpression of Mnn1-s saturates its retention mechanism, and results in the partial secretion of this protein. These data indicate that Mnn1p has separable Golgi localization signals within both its transmembrane and lumenal domains.
Mol Biol Cell 1995 Jul
PMID:Sorting of yeast alpha 1,3 mannosyltransferase is mediated by a lumenal domain interaction, and a transmembrane domain signal that can confer clathrin-dependent Golgi localization to a secreted protein. 757 96

A method for analysing microgram amounts of microvillar membranes by two-dimensional electrophoresis (protein mapping) is described, and has been used to characterize the microvillar proteins of the small intestine of German shepherd, corgi, and beagle dogs. Detergent-solubilized microvillar membranes were radiolabelled with 14C and separated by isoelectric focussing followed by SDS-PAGE. Proteins were detected fluorographically and glycoproteins by lectin-affinity staining. The microvillar hydrolases alkaline phosphatase and dipeptidyl aminopeptidase IV were identified by active-site labelling and aminopeptidase N by immunoprecipitation. Changes following pancreatic duct diversion were consistent with accumulation of pro-sucrase-isomaltase and diminished expression of the sucrase and isomaltase subunits. Cytoskeletal proteins were concentrated in the core fraction remaining after extraction of microvillar membranes with Triton X-100. There were no consistent differences between dogs of different breed, and the canine protein maps were similar to the human.
Comp Biochem Physiol B Biochem Mol Biol 1995 Mar
PMID:Characterization of microvillar membrane proteins of dog small intestine by two-dimensional electrophoresis. 758 24

Site-specific recombinases of the resolvase and DNA invertase family all contain a tyrosine residue close to the N-terminus, and four residues away from a serine that has been implicated in catalysis of DNA strand breakage and reunion. To examine the role of this tyrosine in recombination, we have constructed a mutant of gamma delta resolvase in which the tyrosine (residue 6) is replaced by phenylalanine. Characterization of the Y6F mutant protein in vitro indicated that although it was highly defective in recombination, it could cleave DNA at the cross-over site, form a covalent resolvase-DNA complex and rejoin the cleaved cross-over site (usually restoring the parental site). These data rule out a direct role of the Tyr-6 hydroxyl as the nucleophile in the DNA cleavage reaction and strengthen the conclusion that this nucleophile is the nearby invariant serine residue, Ser-10. We conclude that Tyr-6 is essential for fully co-ordinated strand cleavage and exchange, but is dispensable for individual strand cleavage and religation reactions.
Mol Microbiol 1995 Mar
PMID:The tyrosine-6 hydroxyl of gamma delta resolvase is not required for the DNA cleavage and rejoining reactions. 759 88

A yeast strain deficient in secreted invertase but expressing a cytoplasmic sucrose synthase has been used to select for potato genes that enable growth on sucrose as the sole carbon source by suppressing the sucrose uptake deficiency. Besides the already known sucrose transporter gene (StSUT1), ten different suppressor clones were identified and characterized. One of these cDNAs (PCP1) enabled efficient growth of the mutant yeast strain and mediated uptake of radiolabeled sucrose. The cDNA encodes a protein of 509 amino acids which is highly hydrophilic and thus does not seem to represent a transporter. Sequence comparisons show that the protein contains zinc finger motifs and shares weak homologies with the Drosophila couch potato gene, which serves as a transcriptional regulator, indicating that PCP1 activates a silent endogenous sucrose uptake system. The other suppressor clones encode either putative transcriptional regulators, protein kinases or enzymes involved in thiamine biosynthesis, ferredoxin reduction or glutamyl tRNA reduction and suppress the phenotype by unknown mechanisms.
Mol Gen Genet 1995 Jun 25
PMID:A novel zinc finger protein encoded by a couch potato homologue from Solanum tuberosum enables a sucrose transport-deficient yeast strain to grow on sucrose. 761 68

Riboflavin is known to generate superoxide anion upon photoillumination and in the presence of Cu(II) causes fragmentation of DNA. In the present study we examined the effect of riboflavin and Cu(II) on bovine serum albumin, invertase and lysozyme. Using fluorescence quenching experiments, it is shown that riboflavin binds to protein and causes fragmentation which in the presence of Cu(II) is enhanced. Using neocuproine as the Cu(I) sequestering reagent, it has also been shown that Cu(I) is an essential intermediate in the protein fragmentation reaction. Results obtained with various scavengers of active oxygen species strongly suggest that the species predominantly responsible for protein breakage is hydroxyl radical.
Biochem Mol Biol Int 1994 Nov
PMID:Enhanced protein degradation by photoilluminated riboflavin in the presence of Cu(II). 770 5

Three genomic clones (Inv*Dc1, Inv*Dc2 and Inv*Dc3) were isolated by using the cDNA for carrot cell wall beta-fructofuranosidase as a probe. The expression patterns of the three genes differed markedly. High levels of Inv*Dc1 transcripts were found in leaves and roots of young carrot, whereas in plants with developing tap roots no transcripts were detected. A high level of mRNA of Inv*Dc1 was also present in suspension-cultured cells. In developing reproductive organs, only low levels of transcripts of Inv*Dc1 were found in flower buds and flowers and none at later stages of development. In contrast, Inv*Dc2 and Inv*Dc3 were not expressed in vegetative plant organs. Invb1*Dc1 was exclusively and strongly expressed in flower buds, and Inv*Dc3 at a very low level in suspension-cultured cells.
Plant Mol Biol 1995 Apr
PMID:Structural organization and differential expression of carrot beta-fructofuranosidase genes: identification of a gene coding for a flower bud-specific isozyme. 778 83

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


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