α-Amylases:Interaction with Polysaccharide Substrates, Proteinaceous Inhibitors and Regulatory Proteins

A novel strategy for inhibition of α-amylases: yellow meal worm α-amylase in complex with the Ragi bifunctional inhibitor at 2.5 å resolution

Strobl, Stefan
Maskos, Klaus
Wiegand, Georg
Huber, Robert
Gomis-Rüth, F Xavier
Glockshuber, Rudi

July 1998

AbstractBackground: α-Amylases catalyze the hydrolysis of α-D-(1,4)-glucan linkages in starch and re...

An overview of the microbial α-amylase family

N. S. Reddy
Annapoorna Nimmagadda
K. R. S. Sambasiva Rao

December 2003

Amylases are enzymes which hydrolyze the starch molecules into polymers composed of glucose units. α...

Dissecting the catalytic mechanism of a plant beta-D-glucan glucohydrolase through structural biology using inhibitors and substrate analogues

Hrmova, M.
Fincher, G.

January 2007

Higher plant, family GH3 β-d-glucan glucohydrolases exhibit exo-hydrolytic and retaining (e→e) mecha...

α-Amylases:Interaction with Polysaccharide Substrates, Proteinaceous Inhibitors and Regulatory Proteins

Seo, E. S.
Nielsen, M. M.
Andersen, J. M.
Vester-Christensen, M. B.
Jensen, J. M.
Christiansen, C.
Dilokpimol, Adiphol
Hachem, M. Abou
Hägglund, P.
Maedal, K.
Finnie, C.
Blennow, A.
Svensson, B.

September 2008

α-Amylases occur widely in plants, animals, and microorganisms. They often act in synergy with other...

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, Adiphol
Andersen, J.
Hachem, M. Abou
Naested, H.
Willemoës, M.
Bozonnet, S.
Kandra, L.
Gyemant, G.
Haser, R.
Aghajari, N.
Svensson, B.

January 2008

Germinating barley seeds contain multiple forms of α-amylase, which are subject to both differential...

Multi-site substrate binding and interplay in barley α-amylase 1

Nielsen, Morten Munch
Seo, Eun-Seong
Bozonnet, Sophie
Aghajari, Nushin
Robert, Xavier
Haser, Richard
Svensson, Birte

July 2008

AbstractCertain starch hydrolases possess secondary carbohydrate binding sites outside of the active...

Two secondary carbohydrate binding sites on the surface of barley alpha-amylase 1 have distinct functions and display synergy in hydrolysis of starch granules

Nielsen, Morten M
Bozonnet, Sophie
Seo, Eun-Seong
Mótyán, János A
Andersen, Joakim M
Dilokpimol, Adiphol
Abou Hachem, Maher
Gyémánt, Gyöngyi
Naested, Henrik
Kandra, Lili
Sigurskjold, Bent W
Svensson, Birte

August 2009

Some polysaccharide processing enzymes possess secondary carbohydrate binding sites situated on the ...

Substrate mimicry in the active center of a mammalian α amylase: structural analysis of an enzyme–inhibitor complex

Bompard-Gilles, Coralie
Rousseau, Patrice
Rougé, Pierre
Payan, Françeoise

December 1996

AbstractBackground α-Amylases catalyze the hydrolysis of glycosidic linkages in starch and other rel...

Sugar Tongs Get a Grip on the Starch Granule in Barley α-Amylase 1

Geiger, James H.

August 2003

AbstractA novel polysaccharide binding site is identified in domain C of barley α-amylase 1 from the...

The Structure of Barley α-Amylase Isozyme 1 Reveals a Novel Role of Domain C in Substrate Recognition and Binding A Pair of Sugar Tongs

Robert, Xavier
Haser, Richard
Gottschalk, Tine E
Ratajczak, Fabien
Driguez, Hugues
Svensson, Birte
Aghajari, Nushin

August 2003

AbstractThough the three-dimensional structures of barley α-amylase isozymes AMY1 and AMY2 are very ...

Structural biology of starch-degrading enzymes and their regulation

Møller, Marie Sofie
Svensson, Birte

October 2016

Starch is a major energy source for all domains of life. Recent advances in structures of starch-deg...

Characterization of the starch surface binding site on Bacillus paralicheniformis α-amylase

Božić, Nataša
Rozeboom, Henriëtte J
Lončar, Nikola
Slavić, Marinela Šokarda
Janssen, Dick B
Vujčić, Zoran

December 2020

α-Amylase from Bacillus paralicheniformis (BliAmy), belonging to GH13_5 subfamily of glycoside hydro...

Tyrosine 105 and threonine 212 at outermost substrate binding subsites –6 and +4 control substrate specificity, oligosaccharide cleavage patterns, and multiple binding modes of barley α-amylase 1

Bak-Jensen, Kristian Sass
André, Gwenaëlle
Gottschalk, Tine E.
Paës, Gabriel
Tran, Vinh
Svensson, Birte

January 2004

The role in activity of outer regions in the substrate binding cleft in α-amylases is illustrated by...

Mapping of barley α-amylases and outer subsite mutants reveals dynamic high-affinity subsites and barriers in the long substrate binding cleft

Kandra, Lili
Hachem, Maher Abou
Gyémánt, Gyöngyi
Kramhøft, Birte
Svensson, Birte

September 2006

AbstractSubsite affinity maps of long substrate binding clefts in barley α-amylases, obtained using ...

Solution structure of the granular starch binding domain of Aspergillus niger glucoamylase bound to β-cyclodextrin

Sorimachi, Kay
Gal-Coëffet, Marie-Françoise Le
Williamson, Gary
Archer, David B
Williamson, Michael P

May 1997

AbstractBackground: Carbohydrate-binding domains are usually small and physically separate from the ...

A novel strategy for inhibition of α-amylases: yellow meal worm α-amylase in complex with the Ragi bifunctional inhibitor at 2.5 å resolution

Strobl, Stefan
Maskos, Klaus
Wiegand, Georg
Huber, Robert
Gomis-Rüth, F Xavier
Glockshuber, Rudi

July 1998

AbstractBackground: α-Amylases catalyze the hydrolysis of α-D-(1,4)-glucan linkages in starch and re...

An overview of the microbial α-amylase family

N. S. Reddy
Annapoorna Nimmagadda
K. R. S. Sambasiva Rao

December 2003

Amylases are enzymes which hydrolyze the starch molecules into polymers composed of glucose units. α...

Dissecting the catalytic mechanism of a plant beta-D-glucan glucohydrolase through structural biology using inhibitors and substrate analogues

Hrmova, M.
Fincher, G.

January 2007

Higher plant, family GH3 β-d-glucan glucohydrolases exhibit exo-hydrolytic and retaining (e→e) mecha...

α-Amylases:Interaction with Polysaccharide Substrates, Proteinaceous Inhibitors and Regulatory Proteins

Seo, E. S.
Nielsen, M. M.
Andersen, J. M.
Vester-Christensen, M. B.
Jensen, J. M.
Christiansen, C.
Dilokpimol, Adiphol
Hachem, M. Abou
Hägglund, P.
Maedal, K.
Finnie, C.
Blennow, A.
Svensson, B.

September 2008

α-Amylases occur widely in plants, animals, and microorganisms. They often act in synergy with other...

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, Adiphol
Andersen, J.
Hachem, M. Abou
Naested, H.
Willemoës, M.
Bozonnet, S.
Kandra, L.
Gyemant, G.
Haser, R.
Aghajari, N.
Svensson, B.

January 2008

Germinating barley seeds contain multiple forms of α-amylase, which are subject to both differential...

Multi-site substrate binding and interplay in barley α-amylase 1

Nielsen, Morten Munch
Seo, Eun-Seong
Bozonnet, Sophie
Aghajari, Nushin
Robert, Xavier
Haser, Richard
Svensson, Birte

July 2008

AbstractCertain starch hydrolases possess secondary carbohydrate binding sites outside of the active...

Two secondary carbohydrate binding sites on the surface of barley alpha-amylase 1 have distinct functions and display synergy in hydrolysis of starch granules

Nielsen, Morten M
Bozonnet, Sophie
Seo, Eun-Seong
Mótyán, János A
Andersen, Joakim M
Dilokpimol, Adiphol
Abou Hachem, Maher
Gyémánt, Gyöngyi
Naested, Henrik
Kandra, Lili
Sigurskjold, Bent W
Svensson, Birte

August 2009

Some polysaccharide processing enzymes possess secondary carbohydrate binding sites situated on the ...

Substrate mimicry in the active center of a mammalian α amylase: structural analysis of an enzyme–inhibitor complex

Bompard-Gilles, Coralie
Rousseau, Patrice
Rougé, Pierre
Payan, Françeoise

December 1996

AbstractBackground α-Amylases catalyze the hydrolysis of glycosidic linkages in starch and other rel...

Sugar Tongs Get a Grip on the Starch Granule in Barley α-Amylase 1

Geiger, James H.

August 2003

AbstractA novel polysaccharide binding site is identified in domain C of barley α-amylase 1 from the...

The Structure of Barley α-Amylase Isozyme 1 Reveals a Novel Role of Domain C in Substrate Recognition and Binding A Pair of Sugar Tongs

Robert, Xavier
Haser, Richard
Gottschalk, Tine E
Ratajczak, Fabien
Driguez, Hugues
Svensson, Birte
Aghajari, Nushin

August 2003

AbstractThough the three-dimensional structures of barley α-amylase isozymes AMY1 and AMY2 are very ...

Structural biology of starch-degrading enzymes and their regulation

Møller, Marie Sofie
Svensson, Birte

October 2016

Starch is a major energy source for all domains of life. Recent advances in structures of starch-deg...

Characterization of the starch surface binding site on Bacillus paralicheniformis α-amylase

Božić, Nataša
Rozeboom, Henriëtte J
Lončar, Nikola
Slavić, Marinela Šokarda
Janssen, Dick B
Vujčić, Zoran

December 2020

α-Amylase from Bacillus paralicheniformis (BliAmy), belonging to GH13_5 subfamily of glycoside hydro...

Tyrosine 105 and threonine 212 at outermost substrate binding subsites –6 and +4 control substrate specificity, oligosaccharide cleavage patterns, and multiple binding modes of barley α-amylase 1

Bak-Jensen, Kristian Sass
André, Gwenaëlle
Gottschalk, Tine E.
Paës, Gabriel
Tran, Vinh
Svensson, Birte

January 2004

The role in activity of outer regions in the substrate binding cleft in α-amylases is illustrated by...

Mapping of barley α-amylases and outer subsite mutants reveals dynamic high-affinity subsites and barriers in the long substrate binding cleft

Kandra, Lili
Hachem, Maher Abou
Gyémánt, Gyöngyi
Kramhøft, Birte
Svensson, Birte

September 2006

AbstractSubsite affinity maps of long substrate binding clefts in barley α-amylases, obtained using ...

Solution structure of the granular starch binding domain of Aspergillus niger glucoamylase bound to β-cyclodextrin

Sorimachi, Kay
Gal-Coëffet, Marie-Françoise Le
Williamson, Gary
Archer, David B
Williamson, Michael P

May 1997

AbstractBackground: Carbohydrate-binding domains are usually small and physically separate from the ...

A novel strategy for inhibition of α-amylases: yellow meal worm α-amylase in complex with the Ragi bifunctional inhibitor at 2.5 å resolution

Strobl, Stefan
Maskos, Klaus
Wiegand, Georg
Huber, Robert
Gomis-Rüth, F Xavier
Glockshuber, Rudi

July 1998

AbstractBackground: α-Amylases catalyze the hydrolysis of α-D-(1,4)-glucan linkages in starch and re...

An overview of the microbial α-amylase family

N. S. Reddy
Annapoorna Nimmagadda
K. R. S. Sambasiva Rao

December 2003

Amylases are enzymes which hydrolyze the starch molecules into polymers composed of glucose units. α...

Dissecting the catalytic mechanism of a plant beta-D-glucan glucohydrolase through structural biology using inhibitors and substrate analogues

Hrmova, M.
Fincher, G.

January 2007

Higher plant, family GH3 β-d-glucan glucohydrolases exhibit exo-hydrolytic and retaining (e→e) mecha...

α-Amylases:Interaction with Polysaccharide Substrates, Proteinaceous Inhibitors and Regulatory Proteins

Abstract

Extracted data

α-Amylases:Interaction with Polysaccharide Substrates, Proteinaceous Inhibitors and Regulatory Proteins

Abstract

Extracted data

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