A7005
β-Amylase from sweet potato
Type I-B, ammonium sulfate suspension, ≥750 units/mg protein (E1%/280)
Synonym(s):
1,4-α-D-Glucan maltohydrolase
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About This Item
CAS Number:
UNSPSC Code:
12352204
NACRES:
NA.54
EC Number:
232-566-1
MDL number:
Specific activity:
≥750 units/mg protein (E1%/280)
Biological source:
sweet potato
Concentration:
≥7.0 mg/mL
biological source
sweet potato
type
Type I-B
form
ammonium sulfate suspension
specific activity
≥750 units/mg protein (E1%/280)
greener alternative product score
old score: 57
new score: 1
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concentration
≥7.0 mg/mL
greener alternative category
storage temp.
2-8°C
Quality Level
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Application
β -Amylase is used to hydrolyze α bonds of α-linked polysaccharides, such as starch and glycogen. β -Amylase, from Sigma, has been used in various plant studies, such as carbon starvation studies in Populus tremuloides. β-amylase from sweet potato has been used to examine the utility of the enzyme in inhibiting and removing Staphylococcus aureus biofilms. The enzyme has also been used to prepare β-limit dextrin from waxy maize starch.
β-Amylase from sweet potato has been used:
- in the hydrolysis of starch and starch-pectin combinations
- for comparing amylases from different sources in Staphylococcus aureus SH1000 biofilm inhibition and reduction assay
- for selenium speciation in samples
Biochem/physiol Actions
β-Amylase hydrolyzes the α-(1,4) glucan linkages in polysaccharides of three or more α-(1,4) linked D-glucose units. Natural substrates such as starch and glycogen are broken down into glucose and maltose. β-amylase from sweet potato is a tetramer of identical subunits, which are arranged to exhibit 222 molecular symmetry.
β-Amylases plays a major role in examining enzymatic promiscuity among glycosidases.
General description
β-Amylases belongs to the class of amylolytic enzymes.
We are committed to bringing you Greener Alternative Products, which adhere to one of the four categories of Greener Alternatives . This product belongs to category of Re-engineered products, showing key improvements in Green Chemistry Principles “Waste Prevention”, “Safer Solvents and Auxiliaries” and “Enhanced Energy Efficiency”. Click here to view its DOZN scorecard.
We are committed to bringing you Greener Alternative Products, which adhere to one or more of The 12 Principles of Greener Chemistry. This product has been enhanced for energy efficiency and waste prevention when used in starch ethanol research. For more information see the article in biofiles.
Other Notes
One unit will liberate 1.0 mg of maltose from starch in 3 min at pH 4.8 at 20 °C.
View more information on enzymes for complex carbohydrate analysis at www.sigma-aldrich.com/enzymeexplorer
Physical form
Crystalline suspension in 2.3 M (NH4)2SO4
signalword
Danger
hcodes
pcodes
Hazard Classifications
Resp. Sens. 1
Storage Class
11 - Combustible Solids
wgk
WGK 3
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Mechanisms of enzymatic glycosyl transfer
Comprehensive Natural Products II (2010)
Effect of cross-linking on the resistance to enzymatic hydrolysis of waxy maize starch and low-methoxy pectin
Khondkar D, et al.
Food Hydrocolloids, 23(2), 387-393 (2009)
Xin Qi et al.
Journal of pharmacy & pharmaceutical sciences : a publication of the Canadian Society for Pharmaceutical Sciences, Societe canadienne des sciences pharmaceutiques, 14(1), 60-66 (2011-04-20)
β-Limit dextrin has been studied for many years as a means to investigate the internal structures of amylose and amylopectin. However its role as an excipient in the pharmaceutical industry has never been reported. This paper is the first one
C G Cheong et al.
Proteins, 21(2), 105-117 (1995-02-01)
Sweet potato beta-amylase is a tetramer of identical subunits, which are arranged to exhibit 222 molecular symmetry. Its subunit consists of 498 amino acid residues (Mr 55,880). It has been crystallized at room temperature using polyethylene glycol 1500 as precipitant.
William R L Anderegg et al.
Plant physiology, 159(4), 1866-1874 (2012-06-06)
Drought impacts on forests, including widespread die-off, are likely to increase with future climate change, although the physiological responses of trees to lethal drought are poorly understood. In particular, in situ examinations of carbon starvation and its interactions with and
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