1995
DOI: 10.1016/0922-338x(95)90605-y
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Purification and properties of cellobiose phosphorylase from Clostridium thermocellum

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Cited by 21 publications
(21 citation statements)
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“…Because the phosphorylation uses inorganic phosphate as a donor, the phosphorolytic mechanism is an ATP-saving mechanism more often associated with some cellulolytic bacteria (5,12,15,20). All known cellobiose phosphorylases are cytoplasmic, as they lack signal peptides, and experimental data support this notion (1,19).…”
supporting
confidence: 54%
“…Because the phosphorylation uses inorganic phosphate as a donor, the phosphorolytic mechanism is an ATP-saving mechanism more often associated with some cellulolytic bacteria (5,12,15,20). All known cellobiose phosphorylases are cytoplasmic, as they lack signal peptides, and experimental data support this notion (1,19).…”
supporting
confidence: 54%
“…CbP is widely distributed in cellobiose-utilizing bacteria, both anaerobic (9,10,23,249,667,738,740) and aerobic (600), and the enzyme has even been found in the hyperthermophile Thermotoga neopolitana (769). The CbP from Cellvibrio gilvus is particularly interesting in that its wide glucosyl acceptor specificity has permitted the in vitro synthesis of numerous unusual di-and trisaccharides (670).…”
Section: Physiology Of Cellulolytic Microorganismsmentioning
confidence: 99%
“…C. thermocellum was described as a cellulose-hydrolysing bacterium, which grows on cellulose and cellodextrins, but not on pentoses and moreover, does not even readily grow on glucose. It was discussed that the uptake of oligocellodextrins is energetically favourable, because (1) energy is consumed for only one transportation event for more glucose residues, and (2) oligodextrins are degraded by intracellular cellobiose-and cellodextrin-phosphorylases producing glucose 1-phosphate (Tanaka et al, 1995;Reichenbecher et al, 1997;Lynd et al, 2002). It is not known if cellobiose or cellodextrin phosphorylases hydrolyse b-1,3-oligodextrins.…”
Section: Discussionmentioning
confidence: 99%