Roles of multiple surface sites, long substrate binding clefts, and carbohydrate binding modules in the action of amylolytic enzymes on polysaccharide substrates

M. M. Nielsen; E. S. Seo; A. Dilokpimol; J. Andersen; M. Abou Hachem; H. Naested; Martin Willemoës; S. Bozonnet; L. Kandra; G. Gymnt; R. Haser; N. Aghajari; B. Svensson

doi:10.1080/10242420701789528

Roles of multiple surface sites, long substrate binding clefts, and carbohydrate binding modules in the action of amylolytic enzymes on polysaccharide substrates

M. M. Nielsen, E. S. Seo, A. Dilokpimol, J. Andersen, M. Abou Hachem, H. Naested, Martin Willemoës, S. Bozonnet, L. Kandra, G. Gymnt, R. Haser, N. Aghajari, B. Svensson

Bioinformatik og RNA Biologi

3 Citationer (Scopus)

Abstract

Udgivelsesdato: January 2008

Originalsprog	Engelsk
Tidsskrift	Biocatalysis and Biotransformation
Vol/bind	26
Udgave nummer	1 & 2
Sider (fra-til)	59-67
ISSN	1024-2422
DOI	https://doi.org/10.1080/10242420701789528
Status	Udgivet - 2008

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10.1080/10242420701789528

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Nielsen, M. M., Seo, E. S., Dilokpimol, A., Andersen, J., Hachem, M. A., Naested, H., Willemoës, M., Bozonnet, S., Kandra, L., Gymnt, G., Haser, R., Aghajari, N., & Svensson, B. (2008). Roles of multiple surface sites, long substrate binding clefts, and carbohydrate binding modules in the action of amylolytic enzymes on polysaccharide substrates. Biocatalysis and Biotransformation, 26(1 & 2), 59-67. https://doi.org/10.1080/10242420701789528

Roles of multiple surface sites, long substrate binding clefts, and carbohydrate binding modules in the action of amylolytic enzymes on polysaccharide substrates. / Nielsen, M. M.; Seo, E. S.; Dilokpimol, A. et al.

I: Biocatalysis and Biotransformation, Bind 26, Nr. 1 & 2, 2008, s. 59-67.

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

Nielsen, MM, Seo, ES, Dilokpimol, A, Andersen, J, Hachem, MA, Naested, H, Willemoës, M, Bozonnet, S, Kandra, L, Gymnt, G, Haser, R, Aghajari, N & Svensson, B 2008, 'Roles of multiple surface sites, long substrate binding clefts, and carbohydrate binding modules in the action of amylolytic enzymes on polysaccharide substrates', Biocatalysis and Biotransformation, bind 26, nr. 1 & 2, s. 59-67. https://doi.org/10.1080/10242420701789528

@article{f4a29e606f9211de8bc9000ea68e967b,

title = "Roles of multiple surface sites, long substrate binding clefts, and carbohydrate binding modules in the action of amylolytic enzymes on polysaccharide substrates",

abstract = "Germinating barley seeds contain multiple forms of -amylase, which are subject to both differential gene expression and differential degradation as part of the repertoire of starch-degrading enzymes. The -amylases are endo-acting and possess a long substrate binding cleft with a characteristic subsite binding energy profile around the catalytic site. Furthermore, several amylolytic enzymes that facilitate attack on the natural substrate, i.e. the endosperm starch granules, have secondary sugar binding sites either situated on the surface of the protein domain or structural unit that contains the catalytic site or belonging to a separate starch binding domain. The role of surface sites in the function of barley -amylase 1 has been investigated by using mutational analysis in conjunction with carbohydrate binding analyses and crystallography. The ability to bind starch depends on the surface sites and varies for starch granules of different genotypes and botanical origin. The surface sites, moreover, are candidates for being involved in degradation of polysaccharides by a multiple attack mechanism. Future studies of the molecular nature of the multivalent enzyme-substrate interactions will address surface sites in both barley -amylase 1 and in the related isozyme 2.",

author = "Nielsen, {M. M.} and Seo, {E. S.} and A. Dilokpimol and J. Andersen and Hachem, {M. Abou} and H. Naested and Martin Willemo{\"e}s and S. Bozonnet and L. Kandra and G. Gymnt and R. Haser and N. Aghajari and B. Svensson",

note = "Keywords: Multiple -amylase forms; polysaccharide substrates; subsites and secondary binding sites; starch granules; surface plasmon resonance; crystal structures",

year = "2008",

doi = "10.1080/10242420701789528",

language = "English",

volume = "26",

pages = "59--67",

journal = "Biocatalysis and Biotransformation",

issn = "1024-2422",

publisher = "Taylor & Francis",

number = "1 & 2",

}

TY - JOUR

T1 - Roles of multiple surface sites, long substrate binding clefts, and carbohydrate binding modules in the action of amylolytic enzymes on polysaccharide substrates

AU - Nielsen, M. M.

AU - Seo, E. S.

AU - Dilokpimol, A.

AU - Andersen, J.

AU - Hachem, M. Abou

AU - Naested, H.

AU - Willemoës, Martin

AU - Bozonnet, S.

AU - Kandra, L.

AU - Gymnt, G.

AU - Haser, R.

AU - Aghajari, N.

AU - Svensson, B.

N1 - Keywords: Multiple -amylase forms; polysaccharide substrates; subsites and secondary binding sites; starch granules; surface plasmon resonance; crystal structures

PY - 2008

Y1 - 2008

N2 - Germinating barley seeds contain multiple forms of -amylase, which are subject to both differential gene expression and differential degradation as part of the repertoire of starch-degrading enzymes. The -amylases are endo-acting and possess a long substrate binding cleft with a characteristic subsite binding energy profile around the catalytic site. Furthermore, several amylolytic enzymes that facilitate attack on the natural substrate, i.e. the endosperm starch granules, have secondary sugar binding sites either situated on the surface of the protein domain or structural unit that contains the catalytic site or belonging to a separate starch binding domain. The role of surface sites in the function of barley -amylase 1 has been investigated by using mutational analysis in conjunction with carbohydrate binding analyses and crystallography. The ability to bind starch depends on the surface sites and varies for starch granules of different genotypes and botanical origin. The surface sites, moreover, are candidates for being involved in degradation of polysaccharides by a multiple attack mechanism. Future studies of the molecular nature of the multivalent enzyme-substrate interactions will address surface sites in both barley -amylase 1 and in the related isozyme 2.

AB - Germinating barley seeds contain multiple forms of -amylase, which are subject to both differential gene expression and differential degradation as part of the repertoire of starch-degrading enzymes. The -amylases are endo-acting and possess a long substrate binding cleft with a characteristic subsite binding energy profile around the catalytic site. Furthermore, several amylolytic enzymes that facilitate attack on the natural substrate, i.e. the endosperm starch granules, have secondary sugar binding sites either situated on the surface of the protein domain or structural unit that contains the catalytic site or belonging to a separate starch binding domain. The role of surface sites in the function of barley -amylase 1 has been investigated by using mutational analysis in conjunction with carbohydrate binding analyses and crystallography. The ability to bind starch depends on the surface sites and varies for starch granules of different genotypes and botanical origin. The surface sites, moreover, are candidates for being involved in degradation of polysaccharides by a multiple attack mechanism. Future studies of the molecular nature of the multivalent enzyme-substrate interactions will address surface sites in both barley -amylase 1 and in the related isozyme 2.

U2 - 10.1080/10242420701789528

DO - 10.1080/10242420701789528

M3 - Journal article

SN - 1024-2422

VL - 26

SP - 59

EP - 67

JO - Biocatalysis and Biotransformation

JF - Biocatalysis and Biotransformation

IS - 1 & 2

ER -

Roles of multiple surface sites, long substrate binding clefts, and carbohydrate binding modules in the action of amylolytic enzymes on polysaccharide substrates

Abstract

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