Genome-Based Examination of Chlorophyll and Carotenoid Biosynthesis in Chlamydomonas reinhardtii

Martin Lohr ^*, Chung-Soon Im , and Arthur R. Grossman

Institut für Allgemeine Botanik Johannes Gutenberg-Universität, 55099 Mainz, Germany
The Carnegie Institution Department of Plant Biology, Stanford, California 84305

^* Corresponding author; email: lohr{at}uni-mainz.de.

The unicellular green alga Chlamydomonas reinhardtii is a particularlyimportant model organism for the study of photosynthesis sincethis alga can grow heterotrophically, and mutants in photosynthesisare therefore conditional rather than lethal. The recently developedtools for genomic analyses of this organism have allowed usto identify most of the genes required for chlorophyll and carotenoidbiosynthesis and to examine their phylogenetic relationshipswith homologous genes from vascular plants, other algae, andcyanobacteria. Comparative genome analyses revealed some intriguingfeatures associated with pigment biosynthesis in C. reinhardtii;in some cases, there are additional conserved domains in thealgal and plant but not the cyanobacterial proteins that maydirectly influence their activity, assembly, or regulation.For some steps in the chlorophyll biosynthetic pathway, we foundmultiple gene copies encoding putative isozymes. Phylogeneticstudies, theoretical evaluation of gene expression through analysisof expressed sequence tag data and codon bias of each gene,enabled us to generate hypotheses concerning the function andregulation of the individual genes, and to propose targets forfuture research. We have also used quantitative polymerase chainreaction to examine the effect of low fluence light on the levelof mRNA accumulation encoding key proteins of the biosyntheticpathways and examined differential expression of those genesencoding isozymes that function in the pathways. This work isdirecting us toward the exploration of the role of specificphotoreceptors in the biosynthesis of pigments and the coordinationof pigment biosynthesis with the synthesis of proteins of thephotosynthetic apparatus.

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