The iron-sulfur cluster biosynthesis protein SUFB is required for chlorophyll synthesis, but not phytochrome signaling
The iron-sulfur cluster biosynthesis protein SUFB is required for chlorophyll synthesis, but not phytochrome signaling
Proteins that contain iron-sulfur clusters play pivotal roles in various metabolic processes, such as photosynthesis and redox metabolism. Among the proteins involved in the biosynthesis of iron-sulfur clusters in plants, the SUFB subunit of the SUFBCD complex appears unique because SUFB has been reported to be involved in chlorophyll metabolism and phytochrome-mediated signaling. To gain insights into the function of the SUFB protein, we analyzed the phenotypes of two SUFB mutants, laf6 and hmc1, and RNAi lines with reduced SUFB expression. When grown in the light, the laf6 and hmc1 mutants and the SUFB RNAi lines accumulated higher levels of the chlorophyll biosynthesis intermediate, Mg-protoporphyrin IX monomethylester (Mg-proto MME) consistent with the impairment of Mg-proto MME cyclase activity. Both SUFC- and SUFD-deficient RNAi lines accumulated the same intermediate suggesting that inhibition of Fe-S cluster synthesis is the primary cause of this impairment. Dark-grown laf6 seedlings also showed an increase in protoporphyrin IX (Proto IX), Mg-proto, Mg-proto MME and 3,8-divinyl protochlorophyllide a (DV-Pchlide) levels, but this was not observed in hmc1 or the SUFB RNAi lines, nor was it complemented by SUFB overexpression. In addition, the long hypocotyl in far-red light phenotype of the laf6 mutant could not be rescued by SUFB overexpression and segregated from the pale-green SUFB-deficient phenotype indicating it is not caused by mutation at the SUFB locus. These results demonstrate that Fe-S cluster biosynthesis is important for chlorophyll biosynthesis, but that the laf6 phenotype is not due to a SUFB mutation.
1184–1194
Hu, Xueyun
414009ed-3459-49c5-a15c-9bfa5ff4948f
Page, Mike T.
c248f4b0-79ae-4ab3-a094-8713e947ec9d
Sumida, Akihiro
52958969-fc94-4f58-80bc-8c159d317561
Tanaka, Ayumi
c6b9971b-0ea7-45df-ba8e-7cfe0e2de2d6
Terry, Matthew J.
a8c2cd6b-8d35-4053-8d77-3841c2427c3b
Tanaka, Ryouichi
1be49435-d20a-4855-9eed-71a718143340
8 February 2017
Hu, Xueyun
414009ed-3459-49c5-a15c-9bfa5ff4948f
Page, Mike T.
c248f4b0-79ae-4ab3-a094-8713e947ec9d
Sumida, Akihiro
52958969-fc94-4f58-80bc-8c159d317561
Tanaka, Ayumi
c6b9971b-0ea7-45df-ba8e-7cfe0e2de2d6
Terry, Matthew J.
a8c2cd6b-8d35-4053-8d77-3841c2427c3b
Tanaka, Ryouichi
1be49435-d20a-4855-9eed-71a718143340
Hu, Xueyun, Page, Mike T., Sumida, Akihiro, Tanaka, Ayumi, Terry, Matthew J. and Tanaka, Ryouichi
(2017)
The iron-sulfur cluster biosynthesis protein SUFB is required for chlorophyll synthesis, but not phytochrome signaling.
The Plant Journal, 89 (6), .
(doi:10.1111/tpj.13455).
Abstract
Proteins that contain iron-sulfur clusters play pivotal roles in various metabolic processes, such as photosynthesis and redox metabolism. Among the proteins involved in the biosynthesis of iron-sulfur clusters in plants, the SUFB subunit of the SUFBCD complex appears unique because SUFB has been reported to be involved in chlorophyll metabolism and phytochrome-mediated signaling. To gain insights into the function of the SUFB protein, we analyzed the phenotypes of two SUFB mutants, laf6 and hmc1, and RNAi lines with reduced SUFB expression. When grown in the light, the laf6 and hmc1 mutants and the SUFB RNAi lines accumulated higher levels of the chlorophyll biosynthesis intermediate, Mg-protoporphyrin IX monomethylester (Mg-proto MME) consistent with the impairment of Mg-proto MME cyclase activity. Both SUFC- and SUFD-deficient RNAi lines accumulated the same intermediate suggesting that inhibition of Fe-S cluster synthesis is the primary cause of this impairment. Dark-grown laf6 seedlings also showed an increase in protoporphyrin IX (Proto IX), Mg-proto, Mg-proto MME and 3,8-divinyl protochlorophyllide a (DV-Pchlide) levels, but this was not observed in hmc1 or the SUFB RNAi lines, nor was it complemented by SUFB overexpression. In addition, the long hypocotyl in far-red light phenotype of the laf6 mutant could not be rescued by SUFB overexpression and segregated from the pale-green SUFB-deficient phenotype indicating it is not caused by mutation at the SUFB locus. These results demonstrate that Fe-S cluster biosynthesis is important for chlorophyll biosynthesis, but that the laf6 phenotype is not due to a SUFB mutation.
Text
tpj13455.pdf
- Accepted Manuscript
Text
Hu_et_al-2017-The_Plant_Journal
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Accepted/In Press date: 9 December 2016
e-pub ahead of print date: 22 December 2016
Published date: 8 February 2017
Organisations:
Environmental
Identifiers
Local EPrints ID: 404318
URI: http://eprints.soton.ac.uk/id/eprint/404318
ISSN: 0960-7412
PURE UUID: d7b257b7-3e69-4b56-bed4-1a2c2726178b
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Date deposited: 05 Jan 2017 12:17
Last modified: 16 Mar 2024 02:52
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Author:
Xueyun Hu
Author:
Mike T. Page
Author:
Akihiro Sumida
Author:
Ayumi Tanaka
Author:
Ryouichi Tanaka
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