Increasing the thermal stability of euphauserase: A cold-active and multifunctional serine protease from Antarctic krill

David C. Benjamin; Sigrídur Kristjánsdóttir; Ágústa Gudmundsdóttir

doi:10.1046/j.1432-1327.2001.01857.x

Increasing the thermal stability of euphauserase: A cold-active and multifunctional serine protease from Antarctic krill

David C. Benjamin
, Sigrídur Kristjánsdóttir
, Ágústa Gudmundsdóttir

Faculty of Food Science and Nutrition

University of Iceland

Research output: Contribution to journal › Article › peer-review

Abstract

A molecular model of Antarctic krill euphauserase based on the known crystal structure of its fiddler crab analog, collagenase I, indicates that the core structure of these enzymes is almost identical. Euphauserase is a cold-active and thermally sensitive enzyme with a high affinity for Lys, Arg and large hydrophobic amino acids. Residue Phe137 in euphauserase, localized in loop D (autolysis loop), is highly exposed on the surface of the molecule. Therefore, it appeared to be an easy target for autolysis. The broadly specific euphauserase has a low affinity for negatively charged residues. In order to increase the stability of the enzyme, two mutants were created in which residue Phe137 was replaced by a Glu and an Asp residue. Both mutations resulted in increased stability of the recombinant euphauserase towards thermal inactivation.

Original language	English
Pages (from-to)	127-131
Number of pages	5
Journal	European Journal of Biochemistry
Volume	268
Issue number	1
DOIs	https://doi.org/10.1046/j.1432-1327.2001.01857.x
Publication status	Published - 2001

Other keywords

Brachyurin
Mutations
Serine protease
Similarity modeling

Access to Document

10.1046/j.1432-1327.2001.01857.x

Cite this

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title = "Increasing the thermal stability of euphauserase: A cold-active and multifunctional serine protease from Antarctic krill",

abstract = "A molecular model of Antarctic krill euphauserase based on the known crystal structure of its fiddler crab analog, collagenase I, indicates that the core structure of these enzymes is almost identical. Euphauserase is a cold-active and thermally sensitive enzyme with a high affinity for Lys, Arg and large hydrophobic amino acids. Residue Phe137 in euphauserase, localized in loop D (autolysis loop), is highly exposed on the surface of the molecule. Therefore, it appeared to be an easy target for autolysis. The broadly specific euphauserase has a low affinity for negatively charged residues. In order to increase the stability of the enzyme, two mutants were created in which residue Phe137 was replaced by a Glu and an Asp residue. Both mutations resulted in increased stability of the recombinant euphauserase towards thermal inactivation.",

keywords = "Brachyurin, Mutations, Serine protease, Similarity modeling",

author = "Benjamin, \{David C.\} and Sigr{\'i}dur Kristj{\'a}nsd{\'o}ttir and {\'A}g{\'u}sta Gudmundsd{\'o}ttir",

year = "2001",

doi = "10.1046/j.1432-1327.2001.01857.x",

language = "English",

volume = "268",

pages = "127--131",

journal = "European Journal of Biochemistry",

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TY - JOUR

T1 - Increasing the thermal stability of euphauserase

T2 - A cold-active and multifunctional serine protease from Antarctic krill

AU - Benjamin, David C.

AU - Kristjánsdóttir, Sigrídur

AU - Gudmundsdóttir, Ágústa

PY - 2001

Y1 - 2001

N2 - A molecular model of Antarctic krill euphauserase based on the known crystal structure of its fiddler crab analog, collagenase I, indicates that the core structure of these enzymes is almost identical. Euphauserase is a cold-active and thermally sensitive enzyme with a high affinity for Lys, Arg and large hydrophobic amino acids. Residue Phe137 in euphauserase, localized in loop D (autolysis loop), is highly exposed on the surface of the molecule. Therefore, it appeared to be an easy target for autolysis. The broadly specific euphauserase has a low affinity for negatively charged residues. In order to increase the stability of the enzyme, two mutants were created in which residue Phe137 was replaced by a Glu and an Asp residue. Both mutations resulted in increased stability of the recombinant euphauserase towards thermal inactivation.

AB - A molecular model of Antarctic krill euphauserase based on the known crystal structure of its fiddler crab analog, collagenase I, indicates that the core structure of these enzymes is almost identical. Euphauserase is a cold-active and thermally sensitive enzyme with a high affinity for Lys, Arg and large hydrophobic amino acids. Residue Phe137 in euphauserase, localized in loop D (autolysis loop), is highly exposed on the surface of the molecule. Therefore, it appeared to be an easy target for autolysis. The broadly specific euphauserase has a low affinity for negatively charged residues. In order to increase the stability of the enzyme, two mutants were created in which residue Phe137 was replaced by a Glu and an Asp residue. Both mutations resulted in increased stability of the recombinant euphauserase towards thermal inactivation.

KW - Brachyurin

KW - Mutations

KW - Serine protease

KW - Similarity modeling

UR - https://www.scopus.com/pages/publications/0035161999

U2 - 10.1046/j.1432-1327.2001.01857.x

DO - 10.1046/j.1432-1327.2001.01857.x

M3 - Article

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SN - 0014-2956

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JO - European Journal of Biochemistry

JF - European Journal of Biochemistry

IS - 1

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Increasing the thermal stability of euphauserase: A cold-active and multifunctional serine protease from Antarctic krill

Abstract

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