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New Insight into Phaeodactylum tricornutum Fatty Acid Metabolism. Cloning and Functional Characterization of Plastidial and Microsomal Δ12-Fatty Acid Desaturases1[w]

Authors
Publisher
American Society of Plant Biologists
Publication Date
Source
PMC
Keywords
  • Research Article
Disciplines
  • Biology

Abstract

New Insight into Phaeodactylum tricornutum Fatty Acid Metabolism. Cloning and Functional Characterization of Plastidial and Microsomal Δ12-Fatty Acid Desaturases by Frédéric Domergue, Patricia Spiekermann, Jens Lerchl, Christoph Beckmann, Oliver Kilian, Peter G. Kroth, Wilhem Boland, Ulrich Zähringer, and Ernst Heinz Plantphysiol Volume 131(4):1648-1660 April 1, 2003 ©2003 by American Society of Plant Biologists Fatty acid composition of P. tricornutum. Domergue F et al. Plantphysiol 2003;131:1648-1660 ©2003 by American Society of Plant Biologists Amino acid sequences of PtFAD6 and PtFAD2 in comparison with the plastidial and microsomal homologs from rapeseed. Domergue F et al. Plantphysiol 2003;131:1648-1660 ©2003 by American Society of Plant Biologists Expression of the PtFAD6-EGFP fusion protein inP. tricornutum. Domergue F et al. Plantphysiol 2003;131:1648-1660 ©2003 by American Society of Plant Biologists Fatty acid profiles of transgenic yeast expressing microsomal (A) and plastidial (B) desaturases. Domergue F et al. Plantphysiol 2003;131:1648-1660 ©2003 by American Society of Plant Biologists Fatty acid profiles of transgenicSynechococcus expressing plastidial desaturases. Domergue F et al. Plantphysiol 2003;131:1648-1660 ©2003 by American Society of Plant Biologists Fatty acid composition of transgenicSynechococcus expressing plastidial desaturases in the presence or absence of different exogenous fatty acids. Domergue F et al. Plantphysiol 2003;131:1648-1660 ©2003 by American Society of Plant Biologists Phylogenetic tree of Δ12-desaturases from different organisms. Domergue F et al. Plantphysiol 2003;131:1648-1660 ©2003 by American Society of Plant Biologists Hypothetical compartmentalization of fatty acid metabolism in P. tricornutum cells. Domergue F et al. Plantphysiol 2003;131:1648-1660 ©2003 by American Society of Plant Biologists Fatty acid composition of P. tricornutum. P. tricornutum UTEX 646 was grown in brackish water medium with moderate shak

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