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E2412

Pullulanase microbial

Name: Pullulanase microbial
Brand: SIGMA

Synonyme(s) :

Pullulanase microbial, Promozyme^® D2

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A propos de cet article

Numéro CAS:

9075-68-7

UNSPSC Code:

12352204

NACRES:

NA.54

Numéro CE :

3.2.1.41 (BRENDA, IUBMB)

MDL number:

MFCD00081941

Specific activity:

≥1000 NPUN/g

Recombinant:

expressed in Bacillus subtilis

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Propriétés

recombinant

expressed in Bacillus subtilis

Quality Level

200

form

aqueous solution

specific activity

≥1000 NPUN/g

storage temp.

2-8°C

Description

Application

Pullulanase is a glucanase that degrades pullulan. It is commonly used for starch-debranching as well as to study polysaccharide utilization.

Biochem/physiol Actions

Type I pullulanases specifically hydrolyse α-1,6 linkages, while type II pullulanases are also able to hydrolyse α-1,4 linkages.

Other Notes

View more information on enzymes for complex carbohydrate analysis at www.sigma-aldrich.com/enzymeexplorer

Legal Information

A product of Novozymes Corp.

Novozym is a registered trademark of Novozymes A/S

Promozyme is a trademark of Novozymes Corp.

Classe de stockage

12 - Non Combustible Liquids

wgk

WGK 1

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Certificats d'analyse (COA)

Lot/Batch Number

0000528323

0000489804

0000373134

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Physical and Enzymatic Hydrolysis Modifications of Potato Starch Granules.

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In this work, a valorization of the starch stemming from downgraded potatoes was approached through the preparation of starch nanoparticles using different physical methods, namely liquid and supercritical carbon dioxide, high energy ball milling (HEBM), and ultrasonication on the one

Simultaneous saccharification and ethanologenic fermentation (SSF) of waste bread by an amylolytic Parageobacillus thermoglucosidasius strain TM333.

Christopher C Ibenegbu et al.

Microbial cell factories, 21(1), 251-251 (2022-11-30)

The starch in waste bread (WB) from industrial sandwich production was directly converted to ethanol by an amylolytic, ethanologenic thermophile (Parageobacillus thermoglucosidasius strain TM333) under 5 different simultaneous saccharification and fermentation (SSF) regimes. Crude α-amylase from TM333 was used alone

Cell-associated pullulanase from Bacteroides thetaiotaomicron: cloning, characterization, and insertional mutagenesis to determine role in pullulan utilization.

K A Smith et al.

Journal of bacteriology, 171(4), 2116-2123 (1989-04-01)

We have cloned a pullulanase gene from Bacteroides thetaiotaomicron. The pullulanase expressed from this clone in Escherichia coli was cell associated and soluble and had a molecular mass of 72 kilodaltons by gel filtration. Maxicell analysis of proteins coded by

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