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StatusPageUserDate/TimeGO Term (Aspect)ReferenceEvidenceNotesLinks
acceptableRHORT:PNTAABchen22, beta22011-12-05 19:57:28 CSTGO:0008750 NAD(P)+ transhydrogenase (AB-specific) activity (F)PMID:8075801ECO:0000314 direct assay evidence used in manual assertion

Figure 6.

requireschangesCLOBU:MALQTjquinn, beta22011-12-01 12:04:45 CSTGO:0004134 4-alpha-glucanotransferase activity (F)PMID:9353929ECO:0000314 direct assay evidence used in manual assertion

See Figures 3 and 5.

Deletion subcloning of its recombinant plasmid indicated that the gene(s) responsible for amylose degradation was localized on a 1.8 kb NspHI-Scal fragment. This region was sequenced in its entirety and shown to encompass a large ORF capable of encoding a protein with a calculated molecular mass of 57,184 Da. Although the deduced amino acid sequence showed only weak similarity with known amylases, significant sequences identity was apparent with the 4-alpha-glucano-transferase enzymes of Streptococcus pneumoniae (46.9%), potato (42.9%) and E. coli (16.2%). The clostridial gene (designated maIQ) was followed by a second ORF which, through its homology to the equivalent enzymes of E. coli and S. pneumoniae, was deduced to encode maltodextrin phosphorylase (MaIP). The translation stop codon of MaIQ overlapped the translation start codon of the putative maIP gene, suggesting that the two genes may be both transcriptionally and translationally coupled. 4-alpha-Glucanotransferase catalyses a disproportionation reaction in which single or multiple glucose units from oligosaccharides are transferred to the 4-hydroxyl group of acceptor sugars. Characterization of the recombinant C. butyricum enzyme demonstrated that glucose, maltose and maltotriose could act as acceptor, whereas of the three only maltotriose could act as donor. The enzyme therefore shares properties with the E. coli MaIQ protein, but differs significantly from the glucanotransferase of Thermotoga maritima, which is unable to use maltotriose as donor or glucose as acceptor. Physiologically, the concerted action of 4-alpha-glucanotransferase and maltodextrin phosphorylase provides C. butyricum with a mechanism of utilizing amylose/maltodextrins with little drain on cellular ATP reserves

requireschangesCLOAB:Q9ANR5Tjquinn, beta22011-12-01 11:56:03 CSTGO:0004022 alcohol dehydrogenase (NAD) activity (F)PMID:11790753ECO:0000314 direct assay evidence used in manual assertion

See figures 1, 2, 5.

The adhE2 gene of Clostridium acetobutylicum ATCC 824, coding for an aldehyde/alcohol dehydrogenase (AADH), was characterized from molecular and biochemical points of view. The 2,577-bp adhE2 codes for a 94.4-kDa protein. adhE2 is expressed, as a monocistronic operon, in alcohologenic cultures and not in solventogenic cultures. Primer extension analysis identified two transcriptional start sites 160 and 215 bp upstream of the adhE2 start codon. The expression of adhE2 from a plasmid in the DG1 mutant of C. acetobutylicum, a mutant cured of the pSOL1 megaplasmid, restored butanol production and provided elevated activities of NADH-dependent butyraldehyde and butanol dehydrogenases. The recombinant AdhE2 protein expressed in E. coli as a Strep-tag fusion protein and purified to homogeneity also demonstrated NADH-dependent butyraldehyde and butanol dehydrogenase activities. This is the second AADH identified in C. acetobutylicum ATCC 824, and to our knowledge this is the first example of a bacterium with two AADHs. It is noteworthy that the two corresponding genes, adhE and adhE2, are carried by the pSOL1 megaplasmid of C. acetobutylicum ATCC 824.


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