Molecular Biology and Evolution, Vol 16, 1037-1045, Copyright © 1999 by Society for Molecular Biology and Evolution
AL Lawton-Rauh, ES Buckler 4th and MD Purugganan
The plant MADS-box regulatory gene family includes several loci that
control different aspects of inflorescence and floral development.
Orthologs to the Arabidopsis thaliana MADS-box floral meristem genes
APETALA1 and CAULIFLOWER and the floral organ identity genes APETALA3 and
PISTILLATA were isolated from the congeneric species Arabidopsis lyrata.
Analysis of these loci between these two Arabidopsis species, as well as
three other more distantly related taxa, reveal contrasting dynamics of
molecular evolution between these paralogous floral regulatory genes. Among
the four loci, the CAL locus evolves at a significantly faster rate, which
may be associated with the evolution of genetic redundancy between CAL and
AP1. Moreover, there are significant differences in the distribution of
replacement and synonymous substitutions between the functional gene
domains of different floral homeotic loci. These results indicate that
divergence in developmental function among paralogous members of regulatory
gene families is accompanied by changes in rate and pattern of sequence
evolution among loci.
ORIGINAL ARTICLE
Patterns of molecular evolution among paralogous floral homeotic genes
Department of Genetics, North Carolina State University, Raleigh 27695, USA.
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