The role and regulation of sugar transporters in Arabidopsis
The role and regulation of sugar transporters in Arabidopsis
This thesis describes a number of different approaches to understand the role of sugar transporters in Arabidopsis thaliana. Insertion mutants from the Sainsbury Laboratory Arabidopsis dSpm Transposant (SLAT) collection were used to investigate the function of the sucrose transporters AtSUC1 and AtSUC2. Phenotypic analyses of these mutants demonstrate that AtSUC1 and AtSUC2 have substantially different roles in growth and development of Arabidopsis. The suc1-1 mutant was similar to wild-type (WT) plants in terms of general growth and development. In contrast, knocking out AtSUC2 had severe effects at all developmental stages. The suc2 mutants were severely retarded in their growth and, at maturity, were significantly smaller in height with fewer and smaller leaves and a reduced number of flowers. Siliques developed in some cases, but these were generally shorter in length and produced significantly smaller seed than in WT plants. Importantly, although previously isolated suc2 mutants were reported as sterile, those isolated in this study could produce viable seed although viability varied between individual plants. Exogenously supplied sucrose did not fully rescue the suc2 mutant phenotype.
An alternative approach to understanding gene function is to investigate the regulation of gene expression. This was undertaken for representation genes from two important sugar transporter families, the disaccharide transporter, AtSUC2 and the monosaccharide transporter, AtSTP4. Gene expression was investigated in Arabidopsis seedlings using RT-PCR and reporter gene technology concentrating on two potential regulators of sugar transporter gene expression, sugar availability and light. Both activate signalling pathways in plants and sugar transporters may be targets for regulation by these stimuli. Experiments using transgenic Arabidopsis plants containing promoter: GUS fusions demonstrated that AtSUC2 and AtSTP4 were both expressed in all organs with AtSUC2 expression concentrated in the vascular tissue. Neither AtSUC2 nor AtSTP4 expression was dramatically different in light- and dark-grown seedlings.
University of Southampton
Legge, Duncan James
7f010296-26a4-4839-ba18-82c3fa5d0dc3
2004
Legge, Duncan James
7f010296-26a4-4839-ba18-82c3fa5d0dc3
Terry, Matthew
a8c2cd6b-8d35-4053-8d77-3841c2427c3b
Legge, Duncan James
(2004)
The role and regulation of sugar transporters in Arabidopsis.
University of Southampton, Doctoral Thesis.
Record type:
Thesis
(Doctoral)
Abstract
This thesis describes a number of different approaches to understand the role of sugar transporters in Arabidopsis thaliana. Insertion mutants from the Sainsbury Laboratory Arabidopsis dSpm Transposant (SLAT) collection were used to investigate the function of the sucrose transporters AtSUC1 and AtSUC2. Phenotypic analyses of these mutants demonstrate that AtSUC1 and AtSUC2 have substantially different roles in growth and development of Arabidopsis. The suc1-1 mutant was similar to wild-type (WT) plants in terms of general growth and development. In contrast, knocking out AtSUC2 had severe effects at all developmental stages. The suc2 mutants were severely retarded in their growth and, at maturity, were significantly smaller in height with fewer and smaller leaves and a reduced number of flowers. Siliques developed in some cases, but these were generally shorter in length and produced significantly smaller seed than in WT plants. Importantly, although previously isolated suc2 mutants were reported as sterile, those isolated in this study could produce viable seed although viability varied between individual plants. Exogenously supplied sucrose did not fully rescue the suc2 mutant phenotype.
An alternative approach to understanding gene function is to investigate the regulation of gene expression. This was undertaken for representation genes from two important sugar transporter families, the disaccharide transporter, AtSUC2 and the monosaccharide transporter, AtSTP4. Gene expression was investigated in Arabidopsis seedlings using RT-PCR and reporter gene technology concentrating on two potential regulators of sugar transporter gene expression, sugar availability and light. Both activate signalling pathways in plants and sugar transporters may be targets for regulation by these stimuli. Experiments using transgenic Arabidopsis plants containing promoter: GUS fusions demonstrated that AtSUC2 and AtSTP4 were both expressed in all organs with AtSUC2 expression concentrated in the vascular tissue. Neither AtSUC2 nor AtSTP4 expression was dramatically different in light- and dark-grown seedlings.
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Published date: 2004
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Local EPrints ID: 465307
URI: http://eprints.soton.ac.uk/id/eprint/465307
PURE UUID: 1d7f4b3c-6bfe-49c6-a1a3-738e69d6f863
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Date deposited: 05 Jul 2022 00:37
Last modified: 17 Mar 2024 02:43
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Duncan James Legge
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