Nucleotide Sequence Diversity at the Methionine Synthase Locus in Endangered Dunnia sinensis (Rubiaceae): An Evaluation of the Positive Selection Hypothesis

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Molecular Biology and Evolution 19:1367-1375 (2002)
© 2002 Society for Molecular Biology and Evolution

Nucleotide Sequence Diversity at the Methionine Synthase Locus in Endangered Dunnia sinensis (Rubiaceae): An Evaluation of the Positive Selection Hypothesis

Yu-Chung Chiang^*, Xue-Jun Ge, Chang-Hung Chou, Wen-Lung Wu and Tzen-Yuh Chiang

*Department of Biology, Taiwan Normal University, Taipei, Taiwan, ROC;
${dagger}$ South China Institute of Botany, Chinese Academy of Sciences, Guangzhou, People's Republic of China;
${ddagger}$ Institute of Botany, Academia Sinica, Taipei, Taiwan, ROC;
$§$ Department of Biology, Cheng-Kung University, Tainan, Taiwan, ROC

Methionine synthase is a key enzyme for the synthesis of theaspartate-derived methionine, the immediate precursor of S-adenosyl-methionine,which has been illustrated to be associated with plant growthand pathogen interactions. In this study we tested the positiveselection hypothesis of molecular evolution of the methioninesynthase gene in Dunnia sinensis. In the entire sample of 87sequences, 22 haplotypes of introns and 16 haplotypes of exonswere identified. An excess of polymorphism over the neutralexpectation for the class of unique nucleotide polymorphismswas observed in both exon and intron sequences. Ten replacementsubstitutions versus six synonymous substitutions among lineages,although nonsignificant, revealed that some advantageous mutantsmight have been favored. The distribution of d_N/d_S > 1 atnodes between closely related haplotypes in the gene networkalso indicated weak and variable positive selection. Nevertheless,low levels of genetic diversity in exons ( ${theta}$ = 0.0052) and introns( ${theta}$ = 0.0070) of the methionine synthase gene of the outcrossingDunnia were also attributed to the endangered status of thespecies. The atpB-rbcL intergenic spacer of cpDNA and the ribosomalinternal transcribed spacer of mtDNA were used to discern therelative effectiveness of natural selection from intrinsic evolutionaryforces. The low levels of nucleotide polymorphisms in both organellespacers and the significant population differentiation reflectedthe effect of population-species history and demography. Twomajor lineages of the methionine synthase gene genealogy wererecovered corresponding to two geographic regions, a resultthat was consistent with organelle phylogenies. Both past fragmentationand recent habitat disturbance causing complete bottlenecksmay have resulted in population decline and geographic isolationand may have led to the depletion of genetic variation at lociin nuclear and organelle genomes.

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