Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: EC:2.4.1.18 (branching enzyme)
628 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. A morphological mutant of Neurospora crassa, smco 9, (R2508) that exhibits colonial morphology when grown on sucrose or on maltose, showed a partial reversal of this morphology toward that of the wild type when it was grown on potato starch or on isomaltose. 2. A common feature of both potato starch and isomaltose is the presence of alpha-1, 6 glucosidic linkages. This suggested that these morphological effects might be due to differences in alpha-1,4 glucan: alpha-1,4 glucan 6 glycosyltransferase, (EC 2.4.1.18) commonly known as "the branching enzyme". 3. The branching enzyme was purified from wild type, Neurospora crassa, and from the semicolonial mutant, R2508, both grown on sucrose or on potato starch. It has a molecular weight of 140,000 as estimated by gel filtration on a Bio Gel A 1.5 m column. This enzyme plus phosphorylase a in an unprimed reaction catalyzes the synthesis of a branched polysaccharide in vitro. 4. No branching enzyme activity was apparent in extracts of the mutant R2508, grown on potato starch until a thermolabile inhibitor was removed by fractionation on a DEAE column. 5. This inhibitor has a molecular weight greater than 100,000 as estimated on a P-100 polyacrylamide gel column. The specificity of the inhibitor is not absolute in that it inhibits glycogen synthetase in addition to the branching enzyme in Neurospora.
...
PMID:Differential inhibition of branching enzyme in a morphological mutant and in wild type Neurospora. Influence of carbon source in the growth medium. 12 59

The primary structure of the nucleic acid from the branching enzyme 1,4-alpha-D-glucan: 1,4-alpha-D-glucan 6-alpha-(1,4-alpha-glucano)-transferase (2.5-S RNA) isolated from rabbit muscles has been elucidated. The polyribonucleotide consists of 31 nucleotides; the unique features of the polyribonucleotide are the unusually high content of modified nucleotides (32%) and guanine residues (40%). Apparently 2.5-S RNA belongs to a class of nucleic acids unknown up to now. It is the first time that the structure of a nucleic acid component from a ribonucleoenzyme has been defined. This work is a preprequisite for gaining insight into the intimate activating effect of the poly-ribonucleotide on the enzyme action.
...
PMID:Primary structure of the nucleic acid from the 1,4-alpha-glucan branching enzyme. 45 79

The case of a 14-month-old Latin American girl with the diagnosis of Type IV glycogen-storage disease is reported. The diagnosis was reached on the basis of the typical clinical manifestations, the light- and electron-microscopic findings, and the demonstration of absence of the branching enzyme alpha-1,4-glucan:alpha-1,4-glucan 6-glucosyl transferase in the liver and in the cultured skin fibroblasts.
...
PMID:Type IV glycogen-storage disease. Light-microscopic, electron-microscopic, and enzymatic study. 106 51

Branching enzyme is involved in the synthesis of amylopectin in plant reserve starch. A cDNA coding for cassava (Manihot esculenta Crantz) branching enzyme was cloned from a lambda gt11 cDNA library using a potato cDNA probe. The cloned cDNA was partially sequenced. The sequence data confirmed the identity of the clone when compared to that of potato, the homology being ca. 80% at the nucleotide level and 85% at the amino acid level. Furthermore, the cloned cassava cDNA was able to restore branching enzyme activity in a branching enzyme deficient Escherichia coli mutant. Results of the Southern analysis suggested that there is a single gene for this particular branching enzyme in the cassava genome. Study of expression patterns by northern hybridization showed that the gene is highly expressed in tubers. The transcript is detectable in stem and petiole, but not in leaves. In roots, the mRNA is hardly present. The expression levels at different stages of tuber growth are similar with exception of very young tubers in which it is relatively low. It is also shown that there is a difference in the level of branching enzyme expression between different cassava genotypes.
...
PMID:Cloning, partial sequencing and expression of a cDNA coding for branching enzyme in cassava. 128 36

We have cloned the structural gene for the Bacillus caldolyticus glycogen branching enzyme (glgB) in Escherichia coli. The glgB gene consisted of a 1998 bp open reading frame (ORF) encoding a 78,087 Da protein, which was highly similar to the Bacillus stearothermophilus branching enzyme. The 5' end of a second gene that encoded a protein with extensive similarity to E. coli ADP-glucose pyrophosphorylase (ADPGP) partly overlapped the 3' end of the glgB gene. A putative promoter recognized by Bacillus subtilis RNA polymerase containing the sigma factor H (E-sigma H) preceded the genes. These data suggest that in contrast to the situation observed in B. stearothermophilus, the genes involved in glycogen synthesis in B. caldolyticus are clustered on the chromosome, and are presumably coordinately expressed during the early stages of sporulation. An incomplete third gene started upstream of B. caldolyticus glgB. This gene was highly similar to a gene found directly upstream of B. stearothermophilus glgB, which encodes a putative membrane protein with unknown function. The B. caldolyticus glgB gene was expressed in E. coli and B. subtilis. Surprisingly, the branching enzyme appeared to be thermolabile, the temperature of optimal activity being only 39 degrees C.
...
PMID:The glgB gene from the thermophile Bacillus caldolyticus encodes a thermolabile branching enzyme. 129 17

Glycogen storage disease type IV due to branching enzyme deficiency was found in an inbred family of Norwegian forest cats, an uncommon breed of domestic cats. Skeletal muscle, heart, and CNS degeneration were clinically apparent and histologically evident in affected cats older than 5 mo of age, but cirrhosis and hepatic failure, hallmarks of the human disorder, were absent. Beginning at or before birth, affected cats accumulated an abnormal glycogen in many tissues that was determined by histochemical, enzymatic, and spectral analysis to be a poorly branched alpha-1,4-D-glucan. Branching enzyme activity was less than 0.1 of normal in liver and muscle of affected cats and partially deficient (0.17-0.75 of normal) in muscle and leukocytes of the parents of affected cats. These data and pedigree analysis indicate that branching enzyme deficiency is a simple autosomal recessive trait in this family. This is the first reported animal model of human glycogen storage disease type IV. A breeding colony derived from a relative of the affected cats has been established.
...
PMID:Glycogen storage disease type IV: inherited deficiency of branching enzyme activity in cats. 133 88

The transglycosylation reaction catalyzed by neopullulanase was analyzed. Radioactive oligosaccharides were produced when the enzyme acted on maltotriose in the presence of [U-14C]glucose. Some of the radioactive oligosaccharides had only alpha-(1----4)-glucosidic linkages, but others were suggested to have alpha-(1----6)-glucosidic linkages. The existence of alpha-(1----6)-glucosidic linkages in the products from maltotriose with neopullulanase was proven by proton NMR spectroscopy and methylation analysis. We previously reported that the one active center of neopullulanase catalyzes the hydrolysis of alpha-(1----4)- and alpha-(1----6)-glucosidic linkages (Kuriki, T., Takata, H., Okada, S., and Imanaka, T. (1991) J. Bacteriol. 173,6147-6152). These facts proved that neopullulanase catalyzed all four types of reactions: hydrolysis of alpha-(1----4)-glucosidic linkage, hydrolysis of alpha-(1----6)-glucosidic linkage, transglycosylation to form alpha-(1----4)-glucosidic linkage, and transglycosylation to form alpha-(1----6)-glucosidic linkage. The four reactions are typically catalyzed by alpha-amylase, pullulanase, cyclomaltodextrin glucanotransferase, and 1,4-alpha-D-glucan branching enzyme, respectively. These four enzymes have some structural similarities to one other, but reactions catalyzed by the enzymes are considered to be distinctive: the four reactions are individually catalyzed by each of the enzymes. The experimental results obtained from the analysis of the reaction of the neopullulanase exhibited that the four reactions can be catalyzed in the same mechanism.
...
PMID:Action of neopullulanase. Neopullulanase catalyzes both hydrolysis and transglycosylation at alpha-(1----4)- and alpha-(1----6)-glucosidic linkages. 138 53

The body posterior to the ovary of Schistosoma haematobium females was investigated. Glycogen, glycogen phosphorylase a (EC 2.4.1.1) and glycogen branching enzyme (EC 2.4.1.18) activities were detected in the subtegumental muscle system, parenchyma and mature vitelline cells, whereas no activities were detected in the tegument and immature vitelline cells of the parasite. Administration of a single niridazole dose of 250 mg kg-1 to the pouched mouse (Saccostomus camestris) produced the following changes in S. haematobium females: a relatively rapid depletion of glycogen stores due to disruption of the absorptive surface of the parasite, and to an increase in the activity of glycogen phosphorylase a; a reduction in the phosphorylase a to phosphorylase b-conversion capacity of glycogen phosphorylase phosphatase (EC 3.1.3.17); a decrease in glycogen branching enzyme activity; and a relatively rapid degeneration of parasite cells possibly due to their loss of endogenous energy reserves.
...
PMID:Schistosoma haematobium: histochemistry of glycogen, glycogen phosphorylase a and glycogen branching enzyme in niridazole-treated females. 156 21

The yeast glycogen branching enzyme (EC 2.4.1.18) is shown to be induced in batch culture simultaneously with the onset of intracellular glycogen accumulation. The branching enzyme structural gene (GLC3) has been cloned. Its predicted amino acid sequence is very similar to procaryotic branching enzymes. Northern analysis indicates that GLC3 mRNA abundance increases in late exponential growth phase coincident with glycogen accumulation. Disruption of the branching enzyme structural gene establishes that branching enzyme activity is an absolute requirement for maximal glycogen synthesis.
...
PMID:Coordinate regulation of glycogen metabolism in the yeast Saccharomyces cerevisiae. Induction of glycogen branching enzyme. 163 52

A Mr 34,000 wall protein was isolated as a by-product of the purification of an endo-(1-3)-beta-glucanase from the culture filtrate of Candida albicans. The purified fraction contained no exo- or endo-beta-glucanase activity, and analysis by SDS poly-acrylamide gel electrophoresis (SDS-PAGE) showed one protein band at Mr 34,000. Analysis by gel filtration high performance liquid chromatography (HPLC) of reaction products from incubations of the protein fraction with laminarioligosaccharides of five glucosyl units or greater revealed a unique glucanosyl transferase activity. The enzyme specifically cleaved laminaribiaose (G2) from the reducing-end of a linear beta-(1-3)-glucan and transferred the remainder to another laminarioligosaccharide. The reaction with laminaripentaose (G5) produced G2 and a product eluting at the position of G8. Analysis of the latter transferase product by 13C- and 1H-nuclear magnetic resonance (NMR) spectroscopy shows it to be a branched molecule containing a beta-(1-3)-beta-(1-6)-branchpoint. It is suggested that the Mr 34,000 wall protein is a glucan branching enzyme, perhaps the key enzyme responsible for the transformation of the initial linear beta-(1-3)-glucan into the branched beta-(1-3)-beta-1-6)-glucan as found in the cell wall of C. albicans.
...
PMID:A secreted beta-glucan-branching enzyme from Candida albicans. 168 40


1 2 3 4 5 6 7 8 9 10 Next >>

---