Comprehensive survey of redox sensitive starch metabolising enzymes in Arabidopsis thaliana

Mikkel Andreas Glaring; Katsiaryna Skryhan; Oliver Kötting; Samuel C. Zeeman; Per Gunnar Andreas Blennow

doi:10.1016/j.plaphy.2012.06.017

Comprehensive survey of redox sensitive starch metabolising enzymes in Arabidopsis thaliana

Mikkel Andreas Glaring, Katsiaryna Skryhan, Oliver Kötting, Samuel C. Zeeman, Per Gunnar Andreas Blennow

50 Citations (Scopus)

Abstract

In chloroplasts, the ferredoxin/thioredoxin pathway regulates enzyme activity in response to light by reduction of regulatory disulfides in target enzymes, ensuring coordination between photosynthesis and diurnal metabolism. Although earlier studies have suggested that many starch metabolic enzymes are similarly regulated, redox regulation has only been verified for a few of these in vitro. Using zymograms and enzyme assays, we performed a comprehensive analysis of the redox sensitivity of known starch metabolising enzymes in extracts of . Arabidopsis thaliana. Manipulation of redox potentials revealed that several enzymatic activities where activated by reduction at physiologically relevant potentials. Among these where the isoamylase complex . AtISA1/. AtISA2, the limit dextrinase . AtLDA, starch synthases . AtSS1 and . AtSS3, and the starch branching enzyme . AtBE2. The reversibility of the redox reaction was confirmed by enzyme assays for . AtLDA, . AtSS1 and . AtSS3. Analysis of an . AtBAM1 knock-out mutant identified an additional redox sensitive β-amylase activity, which was most likely . AtBAM3. A similar requirement for reducing conditions was observed for recombinant chloroplastic α-amylase (. AtAMY3) activity. This study adds further candidates to the list of reductively activated starch metabolising enzymes and supports the view that redox regulation plays a role in starch metabolism.

Original language	English
Journal	Plant Physiology and Biochemistry
Volume	58
Pages (from-to)	89-97
Number of pages	9
ISSN	0981-9428
DOIs	https://doi.org/10.1016/j.plaphy.2012.06.017
Publication status	Published - Sept 2012

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@article{c6a97803f2534a5fbf5fbd7d9bc369d1,

title = "Comprehensive survey of redox sensitive starch metabolising enzymes in Arabidopsis thaliana",

abstract = "In chloroplasts, the ferredoxin/thioredoxin pathway regulates enzyme activity in response to light by reduction of regulatory disulfides in target enzymes, ensuring coordination between photosynthesis and diurnal metabolism. Although earlier studies have suggested that many starch metabolic enzymes are similarly regulated, redox regulation has only been verified for a few of these in vitro. Using zymograms and enzyme assays, we performed a comprehensive analysis of the redox sensitivity of known starch metabolising enzymes in extracts of . Arabidopsis thaliana. Manipulation of redox potentials revealed that several enzymatic activities where activated by reduction at physiologically relevant potentials. Among these where the isoamylase complex . AtISA1/. AtISA2, the limit dextrinase . AtLDA, starch synthases . AtSS1 and . AtSS3, and the starch branching enzyme . AtBE2. The reversibility of the redox reaction was confirmed by enzyme assays for . AtLDA, . AtSS1 and . AtSS3. Analysis of an . AtBAM1 knock-out mutant identified an additional redox sensitive β-amylase activity, which was most likely . AtBAM3. A similar requirement for reducing conditions was observed for recombinant chloroplastic α-amylase (. AtAMY3) activity. This study adds further candidates to the list of reductively activated starch metabolising enzymes and supports the view that redox regulation plays a role in starch metabolism.",

author = "Glaring, {Mikkel Andreas} and Katsiaryna Skryhan and Oliver K{\"o}tting and Zeeman, {Samuel C.} and Blennow, {Per Gunnar Andreas}",

year = "2012",

month = sep,

doi = "10.1016/j.plaphy.2012.06.017",

language = "English",

volume = "58",

pages = "89--97",

journal = "Plant Physiology and Biochemistry",

issn = "0981-9428",

publisher = "Elsevier Masson",

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TY - JOUR

T1 - Comprehensive survey of redox sensitive starch metabolising enzymes in Arabidopsis thaliana

AU - Glaring, Mikkel Andreas

AU - Skryhan, Katsiaryna

AU - Kötting, Oliver

AU - Zeeman, Samuel C.

AU - Blennow, Per Gunnar Andreas

PY - 2012/9

Y1 - 2012/9

N2 - In chloroplasts, the ferredoxin/thioredoxin pathway regulates enzyme activity in response to light by reduction of regulatory disulfides in target enzymes, ensuring coordination between photosynthesis and diurnal metabolism. Although earlier studies have suggested that many starch metabolic enzymes are similarly regulated, redox regulation has only been verified for a few of these in vitro. Using zymograms and enzyme assays, we performed a comprehensive analysis of the redox sensitivity of known starch metabolising enzymes in extracts of . Arabidopsis thaliana. Manipulation of redox potentials revealed that several enzymatic activities where activated by reduction at physiologically relevant potentials. Among these where the isoamylase complex . AtISA1/. AtISA2, the limit dextrinase . AtLDA, starch synthases . AtSS1 and . AtSS3, and the starch branching enzyme . AtBE2. The reversibility of the redox reaction was confirmed by enzyme assays for . AtLDA, . AtSS1 and . AtSS3. Analysis of an . AtBAM1 knock-out mutant identified an additional redox sensitive β-amylase activity, which was most likely . AtBAM3. A similar requirement for reducing conditions was observed for recombinant chloroplastic α-amylase (. AtAMY3) activity. This study adds further candidates to the list of reductively activated starch metabolising enzymes and supports the view that redox regulation plays a role in starch metabolism.

AB - In chloroplasts, the ferredoxin/thioredoxin pathway regulates enzyme activity in response to light by reduction of regulatory disulfides in target enzymes, ensuring coordination between photosynthesis and diurnal metabolism. Although earlier studies have suggested that many starch metabolic enzymes are similarly regulated, redox regulation has only been verified for a few of these in vitro. Using zymograms and enzyme assays, we performed a comprehensive analysis of the redox sensitivity of known starch metabolising enzymes in extracts of . Arabidopsis thaliana. Manipulation of redox potentials revealed that several enzymatic activities where activated by reduction at physiologically relevant potentials. Among these where the isoamylase complex . AtISA1/. AtISA2, the limit dextrinase . AtLDA, starch synthases . AtSS1 and . AtSS3, and the starch branching enzyme . AtBE2. The reversibility of the redox reaction was confirmed by enzyme assays for . AtLDA, . AtSS1 and . AtSS3. Analysis of an . AtBAM1 knock-out mutant identified an additional redox sensitive β-amylase activity, which was most likely . AtBAM3. A similar requirement for reducing conditions was observed for recombinant chloroplastic α-amylase (. AtAMY3) activity. This study adds further candidates to the list of reductively activated starch metabolising enzymes and supports the view that redox regulation plays a role in starch metabolism.

U2 - 10.1016/j.plaphy.2012.06.017

DO - 10.1016/j.plaphy.2012.06.017

M3 - Journal article

SN - 0981-9428

VL - 58

SP - 89

EP - 97

JO - Plant Physiology and Biochemistry

JF - Plant Physiology and Biochemistry

ER -

Comprehensive survey of redox sensitive starch metabolising enzymes in Arabidopsis thaliana

Abstract

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