Zobrazeno 1 - 10 of 13 pro vyhledávání: '"S A Robrish"'
1
6-phospho-alpha-D-glucosidase from Fusobacterium mortiferum: cloning, expression, and assignment to family 4 of the glycosylhydrolases
Autor: A Reizer, S A Robrish, J Thompson, J Reizer, C L Bouma
Publikováno v: Journal of Bacteriology. 179:4129-4137
The Fusobacterium mortiferum malH gene, encoding 6-phospho-alpha-glucosidase (maltose 6-phosphate hydrolase; EC 3.2.1.122), has been isolated, characterized, and expressed in Escherichia coli. The relative molecular weight of the polypeptide encoded
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::48400a3de06ea4600532ec758c716255
https://doi.org/10.1128/jb.179.13.4129-4137.1997
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2
Purification from Fusobacterium mortiferum ATCC 25557 of a 6-phosphoryl-O-alpha-D-glucopyranosyl:6-phosphoglucohydrolase that hydrolyzes maltose 6-phosphate and related phospho-alpha-D-glucosides
Autor: S A Robrish, J E Folk, John F. Thompson, N Y Nguyen, Claudia Gentry-Weeks
Publikováno v: Journal of Bacteriology. 177:2505-2512
6-Phosphoryl-O-alpha-D-glucopyranosyl:6-phosphoglucohydrolase (6-phospho-alpha-glucosidase) has been purified from Fusobacterium mortiferum ATCC 25557. p-Nitrophenyl-alpha-D-glucopyranoside 6-phosphate (pNP alpha Glc6P) served as the chromogenic subs
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::da5d5da3ef2c44fdf5998bef79860b67
https://doi.org/10.1128/jb.177.9.2505-2512.1995
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3
Sucrose fermentation by Fusobacterium mortiferum ATCC 25557: transport, catabolism, and products
Autor: S A Robrish, N Y Nguyen, John F. Thompson
Publikováno v: Journal of Bacteriology. 174:3227-3235
Studies of sucrose utilization by Fusobacterium mortiferum ATCC 25557 have provided the first definitive evidence for phosphoenolpyruvate-dependent sugar:phosphotransferase activity in the family Bacteroidaceae. The phosphoenolpyruvate-dependent sucr
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::e78ce39968de02cbcb7b62e36d55e335
https://doi.org/10.1128/jb.174.10.3227-3235.1992
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4
Metabolism of sucrose and its five linkage-isomeric alpha-D-glucosyl-D-fructoses by Klebsiella pneumoniae. Participation and properties of sucrose-6-phosphate hydrolase and phospho-alpha-glucosidase
Autor: J, Thompson, S A, Robrish, S, Immel, F W, Lichtenthaler, B G, Hall, A, Pikis
Publikováno v: The Journal of biological chemistry. 276(40)
Klebsiella pneumoniae is presently unique among bacterial species in its ability to metabolize not only sucrose but also its five linkage-isomeric alpha-d-glucosyl-d-fructoses: trehalulose, turanose, maltulose, leucrose, and palatinose. Growth on the
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=pmid________::ac6cf4c23930484597e840521c94985e
https://pubmed.ncbi.nlm.nih.gov/11473129
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5
Phospho-beta-glucosidase from Fusobacterium mortiferum: purification, cloning, and inactivation by 6-phosphoglucono-delta-lactone
Autor: Darón I. Freedberg, S A Robrish, J E Folk, John F. Thompson, C L Bouma
6-Phosphoryl-beta-D-glucopyranosyl:6-phosphoglucohydrolase (P-beta-glucosidase, EC 3.2.1.86) has been purified from Fusobacterium mortiferum. Assays for enzyme activity and results from Western immunoblots showed that P-beta-glucosidase (Mr, 53,000;
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::ca103e8197ad1b3203aa02900ad6702a
https://europepmc.org/articles/PMC178877/
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6
Phosphoenolpyruvate-dependent maltose:phosphotransferase activity in Fusobacterium mortiferum ATCC 25557: specificity, inducibility, and product analysis
Autor: H M Fales, John F. Thompson, S A Robrish, Claudia Gentry-Weeks
Publikováno v: Journal of bacteriology. 176(11)
Phosphoenolypyruvate-dependent maltose:phosphotransferase activity was induced in cells of Fusobacterium mortiferum ATCC 25557 during growth on maltose. The disaccharide was rapidly metabolized by washed cells maintained under anaerobic conditions, b
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::cd2fa8b43b5eb197d8d738a686925502
https://pubmed.ncbi.nlm.nih.gov/8195080
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7
Sugar metabolism by fusobacteria: regulation of transport, phosphorylation, and polymer formation by Fusobacterium mortiferum ATCC 25557
Autor: C Oliver, S A Robrish, J Thompson
Publikováno v: Infection and immunity. 59(12)
Strains of eight Fusobacterium species differed in the ability to use sugars as energy sources for growth. For Fusobacterium russii ATCC 25533, F. gonidiaformans ATCC 25563, and F. nucleatum ATCC 10953 (except for fructose), growth was marginal to po
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::cdc4e13564e55f7141c3fbe598ba498f
https://pubmed.ncbi.nlm.nih.gov/1937813
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8
Regulation of fructose metabolism and polymer synthesis by Fusobacterium nucleatum ATCC 10953
Autor: John F. Thompson, S A Robrish
Energy for the anaerobic growth of Fusobacterium nucleatum ATCC 10953 can be derived from the fermentation of sugar (fructose) or amino acid (glutamate). During growth on fructose, the cells formed large intracellular granules which after extraction
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::f344458c3e7f1c9274a8a446df6c2438
https://europepmc.org/articles/PMC526887/
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9
Amino acid-dependent transport of sugars by Fusobacterium nucleatum ATCC 10953
Autor: J Thompson, S A Robrish, C Oliver
Publikováno v: Journal of Bacteriology. 169:3891-3897
Resting cells of Fusobacterium nucleatum 10953 (grown previously in a medium containing glucose) failed to accumulate glucose under aerobic or anaerobic conditions. However, the addition of glutamic acid, lysine, or histidine to anaerobic suspensions
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=doi_dedup___::ed1d7b4c65c2fbaff2c98286eec3cf8c
https://doi.org/10.1128/jb.169.9.3891-3897.1987
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10
Viable and total cell masses in dental plaque as measured by bioluminescence methods
Autor: S A, Robrish, C W, Kemp, D E, Chopp, W H, Bowen
Publikováno v: Clinical chemistry. 25(9)
Bioluminescence methods have been applied to the measurement of the viable and total cell masses of small samples of dental plaque. The total adenine nucleotide content of dental plaque samples and of a pure culture of bacteria was determined and the
Externí odkaz: https://explore.openaire.eu/search/publication?articleId=pmid________::02202c59062a16f2c07298b9105a78c8
https://pubmed.ncbi.nlm.nih.gov/111878
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