IRIS publication 43335413
Characterization of ApuB, an extracellular type II amylopullulanase from Bifidobacterium breve UCC2003
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TY - JOUR - Motherway, MO,Fitzgerald, GF,Neirynck, S,Ryan, S,Steidler, L,van Sinderen, D - 2008 - August - Applied and Environmental Microbiology - Characterization of ApuB, an extracellular type II amylopullulanase from Bifidobacterium breve UCC2003 - Validated - () - COMPLETE GENOME SEQUENCE DIFFERENT ACTIVE-SITES LACTOCOCCUS-LACTIS LACTOBACILLUS-ACIDOPHILUS ALKALINE AMYLOPULLULANASE SUBSTRATE-SPECIFICITY PYROCOCCUS-FURIOSUS GENE-EXPRESSION ALPHA-AMYLASE IDENTIFICATION - 74 - 6271 - 6279 - The apuB gene of Bifidobacterium breve UCC2003 was shown to encode an extracellular amylopullulanase. ApuB is composed of a distinct N-terminally located alpha-amylase-containing domain which hydrolyzes alpha-1,4-glucosidic linkages in starch and related polysaccharides and a C-terminally located pullulanase-containing domain which hydrolyzes alpha-1,6 linkages in pullulan, allowing the classification of this enzyme as a bifunctional class II pullulanase. A knockout mutation of the apuB gene in B. breve UCC2003 rendered the resulting mutant incapable of growth in medium containing starch, amylopectin, glycogen, or pullulan as the sole carbon and energy source, confirming the crucial physiological role of this gene in starch metabolism. - DOI 10.1128/AEM.01169-08 DA - 2008/08 ER -
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@article{V43335413, = {Motherway, MO and Fitzgerald, GF and Neirynck, S and Ryan, S and Steidler, L and van Sinderen, D }, = {2008}, = {August}, = {Applied and Environmental Microbiology}, = {Characterization of ApuB, an extracellular type II amylopullulanase from Bifidobacterium breve UCC2003}, = {Validated}, = {()}, = {COMPLETE GENOME SEQUENCE DIFFERENT ACTIVE-SITES LACTOCOCCUS-LACTIS LACTOBACILLUS-ACIDOPHILUS ALKALINE AMYLOPULLULANASE SUBSTRATE-SPECIFICITY PYROCOCCUS-FURIOSUS GENE-EXPRESSION ALPHA-AMYLASE IDENTIFICATION}, = {74}, pages = {6271--6279}, = {{The apuB gene of Bifidobacterium breve UCC2003 was shown to encode an extracellular amylopullulanase. ApuB is composed of a distinct N-terminally located alpha-amylase-containing domain which hydrolyzes alpha-1,4-glucosidic linkages in starch and related polysaccharides and a C-terminally located pullulanase-containing domain which hydrolyzes alpha-1,6 linkages in pullulan, allowing the classification of this enzyme as a bifunctional class II pullulanase. A knockout mutation of the apuB gene in B. breve UCC2003 rendered the resulting mutant incapable of growth in medium containing starch, amylopectin, glycogen, or pullulan as the sole carbon and energy source, confirming the crucial physiological role of this gene in starch metabolism.}}, = {DOI 10.1128/AEM.01169-08}, source = {IRIS} }
Data as stored in IRIS
AUTHORS | Motherway, MO,Fitzgerald, GF,Neirynck, S,Ryan, S,Steidler, L,van Sinderen, D | ||
YEAR | 2008 | ||
MONTH | August | ||
JOURNAL_CODE | Applied and Environmental Microbiology | ||
TITLE | Characterization of ApuB, an extracellular type II amylopullulanase from Bifidobacterium breve UCC2003 | ||
STATUS | Validated | ||
TIMES_CITED | () | ||
SEARCH_KEYWORD | COMPLETE GENOME SEQUENCE DIFFERENT ACTIVE-SITES LACTOCOCCUS-LACTIS LACTOBACILLUS-ACIDOPHILUS ALKALINE AMYLOPULLULANASE SUBSTRATE-SPECIFICITY PYROCOCCUS-FURIOSUS GENE-EXPRESSION ALPHA-AMYLASE IDENTIFICATION | ||
VOLUME | 74 | ||
ISSUE | |||
START_PAGE | 6271 | ||
END_PAGE | 6279 | ||
ABSTRACT | The apuB gene of Bifidobacterium breve UCC2003 was shown to encode an extracellular amylopullulanase. ApuB is composed of a distinct N-terminally located alpha-amylase-containing domain which hydrolyzes alpha-1,4-glucosidic linkages in starch and related polysaccharides and a C-terminally located pullulanase-containing domain which hydrolyzes alpha-1,6 linkages in pullulan, allowing the classification of this enzyme as a bifunctional class II pullulanase. A knockout mutation of the apuB gene in B. breve UCC2003 rendered the resulting mutant incapable of growth in medium containing starch, amylopectin, glycogen, or pullulan as the sole carbon and energy source, confirming the crucial physiological role of this gene in starch metabolism. | ||
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DOI_LINK | DOI 10.1128/AEM.01169-08 | ||
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