Structural adaptations of the cold-active citrate synthase from an Antarctic bacterium

Background: The structural basis of adaptation of enzymes to low temperature is poorly understood, Dimeric citrate synthase has been used as a model enzyme to study the structural basis of thermostability, the structure of the enzyme from organisms living in habitats at 55 degrees C and 100 degrees...

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Main Authors: Russell, R J M, Gerike, U, Danson, M J, Hough, D W, Taylor, G L
Format: Article in Journal/Newspaper
Language:English
Published: 1998
Subjects:
citrate synthase
cold-active
cold denaturation
thermostability
PROTEIN-STRUCTURE
CRYSTALLOGRAPHIC REFINEMENT
THERMOPLASMA-ACIDOPHILUM
PYROCOCCUS-FURIOSUS
CRYSTAL-STRUCTURES
ALPHA-AMYLASE
STABILITY
RESOLUTION
SEQUENCE
MODELS
Antarc*
Antarctic
Online Access:https://research-portal.st-andrews.ac.uk/en/researchoutput/structural-adaptations-of-the-coldactive-citrate-synthase-from-an-antarctic-bacterium(e4bf2d2a-a2b4-4865-9b47-bc33028752bd).html
id ftunstandrewcris:oai:research-portal.st-andrews.ac.uk:publications/e4bf2d2a-a2b4-4865-9b47-bc33028752bd
record_format openpolar
spelling ftunstandrewcris:oai:research-portal.st-andrews.ac.uk:publications/e4bf2d2a-a2b4-4865-9b47-bc33028752bd 2024-09-15T17:46:28+00:00 Structural adaptations of the cold-active citrate synthase from an Antarctic bacterium Russell, R J M Gerike, U Danson, M J Hough, D W Taylor, G L 1998-03-15 https://research-portal.st-andrews.ac.uk/en/researchoutput/structural-adaptations-of-the-coldactive-citrate-synthase-from-an-antarctic-bacterium(e4bf2d2a-a2b4-4865-9b47-bc33028752bd).html eng eng https://research-portal.st-andrews.ac.uk/en/researchoutput/structural-adaptations-of-the-coldactive-citrate-synthase-from-an-antarctic-bacterium(e4bf2d2a-a2b4-4865-9b47-bc33028752bd).html info:eu-repo/semantics/restrictedAccess Russell , R J M , Gerike , U , Danson , M J , Hough , D W & Taylor , G L 1998 , ' Structural adaptations of the cold-active citrate synthase from an Antarctic bacterium ' , Structure , vol. 6 , no. 3 , pp. 351-361 . citrate synthase cold-active cold denaturation thermostability PROTEIN-STRUCTURE CRYSTALLOGRAPHIC REFINEMENT THERMOPLASMA-ACIDOPHILUM PYROCOCCUS-FURIOSUS CRYSTAL-STRUCTURES ALPHA-AMYLASE STABILITY RESOLUTION SEQUENCE MODELS article 1998 ftunstandrewcris 2024-08-21T23:46:11Z Background: The structural basis of adaptation of enzymes to low temperature is poorly understood, Dimeric citrate synthase has been used as a model enzyme to study the structural basis of thermostability, the structure of the enzyme from organisms living in habitats at 55 degrees C and 100 degrees C having previously been determined, Here the study is extended to include a citrate synthase from an Antarctic bacterium, allowing us to explore the structural basis of cold activity and thermostability across the whole temperature range over which life is known to exist. Results: We report here the first crystal structure of a cold-active enzyme, citrate synthase, isolated from an Antarctic bacterium, at a resolution of 2.09 Angstrom. In comparison with the same enzyme from a hyperthermophilic host, the cold-active enzyme has a much more accessible active site, an unusual electrostatic potential distribution and an increased relative flexibility of the small domain compared to the large domain, Several other features of the cold-active enzyme were also identified: reduced subunit interface interactions with no intersubunit ion-pair networks; loops of increased length carrying more charge and fewer proline residues; an increase in solvent-exposed hydrophobic residues; and an increase in intramolecular ion pairs. Conclusions: Enzymes from organisms living at the temperature extremes of life need to avoid hot or cold denaturation yet maintain sufficient structural integrity to allow catalytic efficiency, For hyperthermophiles, thermal denaturation of the citrate synthase dimer appears to be resisted by complex networks of ion pairs at the dimer interface, a feature common to other hyperthermophilic proteins. For the cold-active citrate synthase, cold denaturation appears to be resisted by an increase in intramolecular ion pairs compared to the hyperthermophilic enzyme, Catalytic efficiency of the cold-active enzyme appears to be achieved by a more accessible active site and by an increase in the relative flexibility of ... Article in Journal/Newspaper Antarc* Antarctic University of St Andrews: Research Portal
institution Open Polar
collection University of St Andrews: Research Portal
op_collection_id ftunstandrewcris
language English
topic citrate synthase
cold-active
cold denaturation
thermostability
PROTEIN-STRUCTURE
CRYSTALLOGRAPHIC REFINEMENT
THERMOPLASMA-ACIDOPHILUM
PYROCOCCUS-FURIOSUS
CRYSTAL-STRUCTURES
ALPHA-AMYLASE
STABILITY
RESOLUTION
SEQUENCE
MODELS
spellingShingle citrate synthase
cold-active
cold denaturation
thermostability
PROTEIN-STRUCTURE
CRYSTALLOGRAPHIC REFINEMENT
THERMOPLASMA-ACIDOPHILUM
PYROCOCCUS-FURIOSUS
CRYSTAL-STRUCTURES
ALPHA-AMYLASE
STABILITY
RESOLUTION
SEQUENCE
MODELS
Russell, R J M
Gerike, U
Danson, M J
Hough, D W
Taylor, G L
Structural adaptations of the cold-active citrate synthase from an Antarctic bacterium
topic_facet citrate synthase
cold-active
cold denaturation
thermostability
PROTEIN-STRUCTURE
CRYSTALLOGRAPHIC REFINEMENT
THERMOPLASMA-ACIDOPHILUM
PYROCOCCUS-FURIOSUS
CRYSTAL-STRUCTURES
ALPHA-AMYLASE
STABILITY
RESOLUTION
SEQUENCE
MODELS
description Background: The structural basis of adaptation of enzymes to low temperature is poorly understood, Dimeric citrate synthase has been used as a model enzyme to study the structural basis of thermostability, the structure of the enzyme from organisms living in habitats at 55 degrees C and 100 degrees C having previously been determined, Here the study is extended to include a citrate synthase from an Antarctic bacterium, allowing us to explore the structural basis of cold activity and thermostability across the whole temperature range over which life is known to exist. Results: We report here the first crystal structure of a cold-active enzyme, citrate synthase, isolated from an Antarctic bacterium, at a resolution of 2.09 Angstrom. In comparison with the same enzyme from a hyperthermophilic host, the cold-active enzyme has a much more accessible active site, an unusual electrostatic potential distribution and an increased relative flexibility of the small domain compared to the large domain, Several other features of the cold-active enzyme were also identified: reduced subunit interface interactions with no intersubunit ion-pair networks; loops of increased length carrying more charge and fewer proline residues; an increase in solvent-exposed hydrophobic residues; and an increase in intramolecular ion pairs. Conclusions: Enzymes from organisms living at the temperature extremes of life need to avoid hot or cold denaturation yet maintain sufficient structural integrity to allow catalytic efficiency, For hyperthermophiles, thermal denaturation of the citrate synthase dimer appears to be resisted by complex networks of ion pairs at the dimer interface, a feature common to other hyperthermophilic proteins. For the cold-active citrate synthase, cold denaturation appears to be resisted by an increase in intramolecular ion pairs compared to the hyperthermophilic enzyme, Catalytic efficiency of the cold-active enzyme appears to be achieved by a more accessible active site and by an increase in the relative flexibility of ...
format Article in Journal/Newspaper
author Russell, R J M
Gerike, U
Danson, M J
Hough, D W
Taylor, G L
author_facet Russell, R J M
Gerike, U
Danson, M J
Hough, D W
Taylor, G L
author_sort Russell, R J M
title Structural adaptations of the cold-active citrate synthase from an Antarctic bacterium
title_short Structural adaptations of the cold-active citrate synthase from an Antarctic bacterium
title_full Structural adaptations of the cold-active citrate synthase from an Antarctic bacterium
title_fullStr Structural adaptations of the cold-active citrate synthase from an Antarctic bacterium
title_full_unstemmed Structural adaptations of the cold-active citrate synthase from an Antarctic bacterium
title_sort structural adaptations of the cold-active citrate synthase from an antarctic bacterium
publishDate 1998
url https://research-portal.st-andrews.ac.uk/en/researchoutput/structural-adaptations-of-the-coldactive-citrate-synthase-from-an-antarctic-bacterium(e4bf2d2a-a2b4-4865-9b47-bc33028752bd).html
genre Antarc*
Antarctic
genre_facet Antarc*
Antarctic
op_source Russell , R J M , Gerike , U , Danson , M J , Hough , D W & Taylor , G L 1998 , ' Structural adaptations of the cold-active citrate synthase from an Antarctic bacterium ' , Structure , vol. 6 , no. 3 , pp. 351-361 .
op_relation https://research-portal.st-andrews.ac.uk/en/researchoutput/structural-adaptations-of-the-coldactive-citrate-synthase-from-an-antarctic-bacterium(e4bf2d2a-a2b4-4865-9b47-bc33028752bd).html
op_rights info:eu-repo/semantics/restrictedAccess
_version_ 1810494616456134656

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