Molecular Population Genetics of Redundant Floral-Regulatory Genes in Arabidopsis thaliana

doi:10.1093/molbev/msh261

MBE Advance Access originally published online on September 15, 2004
Molecular Biology and Evolution 2005 22(1):91-103; doi:10.1093/molbev/msh261

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Molecular Biology and Evolution vol. 22 no. 1 © Society for Molecular Biology and Evolution 2005; all rights reserved.

Research Article

Molecular Population Genetics of Redundant Floral-Regulatory Genes in Arabidopsis thaliana

Richard C. Moore^*, Sarah R. Grant and Michael D. Purugganan^*

^* Department of Genetics, North Carolina State University, Raleigh; and Department of Biology, University of North Carolina, Chapel Hill

E-mail: rcmoore{at}unity.ncsu.edu.

Functional redundancy between duplicated genes is predictedto be transitory, as one gene either loses its function or gainsa new function, or both genes accrue degenerative, yet complimentarymutations. Yet there are many examples where functional redundancyhas been maintained between gene duplicates. To determine whetherselection is acting on functionally redundant gene duplicates,we performed molecular evolution and population genetic analysesbetween two pairs of functionally redundant MADS-box genes fromthe model plant Arabidopsis thaliana: SEPALLATA1 (SEP1) andSEPALLATA2 (SEP2), involved in floral organ identity, and SHATTERPROOF1(SHP1) and SHATTERPROOF2 (SHP2), involved in seed shattering.We found evidence for purifying selection acting to constrainfunctional divergence between paralogous genes. The proteinevolution of both pairs of duplicate genes is functionally constrained,as evidenced by K_a/K_s ratios of 0.16 between paralogs. Thisfunctional constraint is stronger in the highly conserved DNA-bindingand protein-binding MIK region than in the C-terminal region.We also assayed the evolutionary forces acting between orthologsof the SEP and SHP genes in A. thaliana and the closely relatedspecies, Arabidopsis lyrata. Heterogeneity analyses of the polymorphism-to-divergenceratio indicate selective sweeps have occurred within the transcriptionalunit of SHP1 and the promoter of SHP2 in the A. thaliana lineage.Similar analyses identified a significant reduction in polymorphismwithin the SEP1 locus, spanning the 3' region of intron 1 toexon 3, that may represent an intragenic sweep within the SEP1locus. We discuss whether the evolutionary forces acting onSEP1 and SEP2 versus SHP1 and SHP2 vary according to their positionin the floral developmental pathway, as found with other floral-regulatorygenes.

Key Words: SEPALLATA • SHATTERPROOF • paralogs • functional redundancy • floral development

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