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PIF3 is a repressor of chloroplast development

PIF3 is a repressor of chloroplast development
PIF3 is a repressor of chloroplast development
The phytochrome-interacting factor PIF3 has been proposed to act as a positive regulator of chloroplast development. Here, we show that the pif3 mutant has a phenotype that is similar to the pif1 mutant, lacking the repressor of chloroplast development PIF1, and that a pif1pif3 double mutant has an additive phenotype in all respects. The pif mutants showed elevated protochlorophyllide levels in the dark, and etioplasts of pif mutants contained smaller prolamellar bodies and more prothylakoid membranes than corresponding wild-type seedlings, similar to previous reports of constitutive photomorphogenic mutants. Consistent with this observation, pif1, pif3, and pif1pif3 showed reduced hypocotyl elongation and increased cotyledon opening in the dark. Transfer of 4-d-old dark-grown seedlings to white light resulted in more chlorophyll synthesis in pif mutants over the first 2 h, and analysis of gene expression in dark-grown pif mutants indicated that key tetrapyrrole regulatory genes such as HEMA1 encoding the rate-limiting step in tetrapyrrole synthesis were already elevated 2 d after germination. Circadian regulation of HEMA1 in the dark also showed reduced amplitude and a shorter, variable period in the pif mutants, whereas expression of the core clock components TOC1, CCA1, and LHY was largely unaffected. Expression of both PIF1 and PIF3 was circadian regulated in dark-grown seedlings. PIF1 and PIF3 are proposed to be negative regulators that function to integrate light and circadian control in the regulation of chloroplast development
0027-8424
7654-9
Stephenson, Patrick G.
56112c33-db67-41cb-ac94-a993a3b76d5a
Fankhauser, Christian
7cf5dd33-8988-4bd9-a891-aa98ac9966a5
Terry, Matthew J.
a8c2cd6b-8d35-4053-8d77-3841c2427c3b
Stephenson, Patrick G.
56112c33-db67-41cb-ac94-a993a3b76d5a
Fankhauser, Christian
7cf5dd33-8988-4bd9-a891-aa98ac9966a5
Terry, Matthew J.
a8c2cd6b-8d35-4053-8d77-3841c2427c3b

Stephenson, Patrick G., Fankhauser, Christian and Terry, Matthew J. (2009) PIF3 is a repressor of chloroplast development. Proceedings of the National Academy of Sciences of the United States of America, 106 (18), 7654-9. (doi:10.1073/pnas.0811684106).

Record type: Article

Abstract

The phytochrome-interacting factor PIF3 has been proposed to act as a positive regulator of chloroplast development. Here, we show that the pif3 mutant has a phenotype that is similar to the pif1 mutant, lacking the repressor of chloroplast development PIF1, and that a pif1pif3 double mutant has an additive phenotype in all respects. The pif mutants showed elevated protochlorophyllide levels in the dark, and etioplasts of pif mutants contained smaller prolamellar bodies and more prothylakoid membranes than corresponding wild-type seedlings, similar to previous reports of constitutive photomorphogenic mutants. Consistent with this observation, pif1, pif3, and pif1pif3 showed reduced hypocotyl elongation and increased cotyledon opening in the dark. Transfer of 4-d-old dark-grown seedlings to white light resulted in more chlorophyll synthesis in pif mutants over the first 2 h, and analysis of gene expression in dark-grown pif mutants indicated that key tetrapyrrole regulatory genes such as HEMA1 encoding the rate-limiting step in tetrapyrrole synthesis were already elevated 2 d after germination. Circadian regulation of HEMA1 in the dark also showed reduced amplitude and a shorter, variable period in the pif mutants, whereas expression of the core clock components TOC1, CCA1, and LHY was largely unaffected. Expression of both PIF1 and PIF3 was circadian regulated in dark-grown seedlings. PIF1 and PIF3 are proposed to be negative regulators that function to integrate light and circadian control in the regulation of chloroplast development

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Published date: 5 May 2009
Organisations: Biological Sciences
Learn more about Biological Sciences research

Identifiers

Local EPrints ID: 142270
URI: http://eprints.soton.ac.uk/id/eprint/142270
DOI: doi:10.1073/pnas.0811684106
ISSN: 0027-8424
PURE UUID: 8bba80d6-e67f-4d42-b015-4db3123c2d32
ORCID for Matthew J. Terry: ORCID iD orcid.org/0000-0001-5002-2708

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Date deposited: 01 Apr 2010 14:49
Last modified: 14 Mar 2024 02:39

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Contributors

Author: Patrick G. Stephenson
Author: Christian Fankhauser
Author: Matthew J. Terry ORCID iD

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