Publikation: The cauliflower Or encodes a DnaJ cysteine-rich domain-containing protein that mediates high-levels of beta-carotene accumulation
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2006
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Lu, Shan
Van Eck, Joyce
Zhou, Xiangjun
Lopez, Alex B.
O’Halloran, Diana M.
Cosman, Kelly M.
Conlin, Brian J.
Paolillo, Dominick J.
Garvin, David F.
Vrebalov, Julia
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THE PLANT CELL ONLINE. 2006, 18(12), pp. 3594-3605. ISSN 1040-4651. Available under: doi: 10.1105/tpc.106.046417
Zusammenfassung
Despite recent progress in our understanding of carotenogenesis in plants, the mechanisms that govern overall carotenoid accumulation remain largely unknown. The Orange (Or) gene mutation in cauliflower (Brassica oleracea var botrytis) confers the accumulation of high levels of b-carotene in various tissues normally devoid of carotenoids. Using positional cloning, we isolated the gene representing Or and verified it by functional complementation in wild-type cauliflower. Or encodes a plastidassociated protein containing a DnaJ Cys-rich domain. The Or gene mutation is due to the insertion of a long terminal repeat retrotransposon in the Or allele. Or appears to be plant specific and is highly conserved among divergent plant species. Analyses of the gene, the gene product, and the cytological effects of the Or transgene suggest that the functional role of Or is associated with a cellular process that triggers the differentiation of proplastids or other noncolored plastids into chromoplasts for carotenoid accumulation. Moreover,wedemonstrate that Or can be used as a novel genetic tool to induce carotenoid accumulation in a major staple food crop. We show here that controlling the formation of chromoplasts is an important mechanism by which carotenoid accumulation is regulated in plants.
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LU, Shan, Joyce VAN ECK, Xiangjun ZHOU, Alex B. LOPEZ, Diana M. O’HALLORAN, Kelly M. COSMAN, Brian J. CONLIN, Dominick J. PAOLILLO, David F. GARVIN, Julia VREBALOV, Leon V. KOCHIAN, Hendrik KÜPPER, Elizabeth D. EARLE, Jun CAO, Li LI, 2006. The cauliflower Or encodes a DnaJ cysteine-rich domain-containing protein that mediates high-levels of beta-carotene accumulation. In: THE PLANT CELL ONLINE. 2006, 18(12), pp. 3594-3605. ISSN 1040-4651. Available under: doi: 10.1105/tpc.106.046417BibTex
@article{Lu2006-12cauli-15525,
year={2006},
doi={10.1105/tpc.106.046417},
title={The cauliflower Or encodes a DnaJ cysteine-rich domain-containing protein that mediates high-levels of beta-carotene accumulation},
number={12},
volume={18},
issn={1040-4651},
journal={THE PLANT CELL ONLINE},
pages={3594--3605},
author={Lu, Shan and Van Eck, Joyce and Zhou, Xiangjun and Lopez, Alex B. and O’Halloran, Diana M. and Cosman, Kelly M. and Conlin, Brian J. and Paolillo, Dominick J. and Garvin, David F. and Vrebalov, Julia and Kochian, Leon V. and Küpper, Hendrik and Earle, Elizabeth D. and Cao, Jun and Li, Li}
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<dcterms:abstract xml:lang="eng">Despite recent progress in our understanding of carotenogenesis in plants, the mechanisms that govern overall carotenoid accumulation remain largely unknown. The Orange (Or) gene mutation in cauliflower (Brassica oleracea var botrytis) confers the accumulation of high levels of b-carotene in various tissues normally devoid of carotenoids. Using positional cloning, we isolated the gene representing Or and verified it by functional complementation in wild-type cauliflower. Or encodes a plastidassociated protein containing a DnaJ Cys-rich domain. The Or gene mutation is due to the insertion of a long terminal repeat retrotransposon in the Or allele. Or appears to be plant specific and is highly conserved among divergent plant species. Analyses of the gene, the gene product, and the cytological effects of the Or transgene suggest that the functional role of Or is associated with a cellular process that triggers the differentiation of proplastids or other noncolored plastids into chromoplasts for carotenoid accumulation. Moreover,wedemonstrate that Or can be used as a novel genetic tool to induce carotenoid accumulation in a major staple food crop. We show here that controlling the formation of chromoplasts is an important mechanism by which carotenoid accumulation is regulated in plants.</dcterms:abstract>
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