Molecular Evolution of the Phytochrome Gene Family in Sorghum: Changing Rates of Synonymous and Replacement Evolution

doi:10.1093/molbev/msh067

MBE Advance Access originally published online on February 12, 2004

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Mol. Biol. Evol. 21(4):716-723. 2004
DOI: 10.1093/molbev/msh067
© 2004 by the Society for Molecular Biology and Evolution. ISSN: 0737-4038

Molecular Evolution of the Phytochrome Gene Family in Sorghum: Changing Rates of Synonymous and Replacement Evolution

Gemma M. White^*, Martha T. Hamblin and Stephen Kresovich

^* Plant and Invertebrate Ecology Department, Institute of Arable Crops Research-Rothamsted, Harpenden, Hertfordshire, United Kingdom
Institute of Genomic Diversity, Cornell University

E-mail: sk20{at}cornell.edu.

The photoreceptor phytochromes, encoded by a small gene family,are responsible for controlling the expression of a number oflight-responsive genes and photomorphogenic events, includingagronomically important phenotypes such as flowering time andshade-avoidance behavior. The understanding and control of floweringtime are particularly important goals in sorghum cultivar developmentfor diverse environments, and naturally occurring variationin the phytochrome genes might prove useful in breeding programs.Also of interest is whether variation observed at the phytochromeloci in domesticated sorghum, or in particular races, is a resultof human selection. Population genetic studies can reveal evidenceof such selection in patterns of polymorphism and divergence.In this study we report a population genetic analysis of thePHY gene family in Sorghum bicolor (L.) Moench in a diversepanel including both cultivated and wild accessions. We showthat the level of nucleotide variation in all gene family membersis about half the average for this species, consistent withpurifying selection acting on these loci. However, the rateof amino acid substitution is accelerated at PHYC compared tothe other two loci. In comparisons to a closely related sorghumspecies, PHYC shows a pattern of intermediate frequency aminoacid changes that differ from the patterns observed in comparisonsacross longer evolutionary distances. There is also a departurefrom expected patterns of polymorphism and divergence at synonymoussites in PHYC, although the data do not fit a simple model ofdirectional or diversifying selection. Cultivated sorghum hasa level of variation similar to that of wild relatives (ssp.verticilliflorum), but many polymorphisms are subspecies-specific,including several amino acid variants.

Key Words: population genetics • selection • polymorphism • sorghum • phytochrome • evolution

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