The Relationship Between Third-Codon Position Nucleotide Content, Codon Bias, mRNA Secondary Structure and Gene Expression in the Drosophilid Alcohol Dehydrogenase Genes Adh and Adhr

The Relationship Between Third-Codon Position Nucleotide Content, Codon Bias, mRNA Secondary Structure and Gene Expression in the Drosophilid Alcohol Dehydrogenase Genes Adh and Adhr

David B. Carlini^a, Ying Chen^a, and Wolfgang Stephan^b
^a Department of Biology, University of Rochester, Rochester, New York 14627
^b Department of Evolutionary Biology, University of Munich, 80333 Munich, Germany

Corresponding author: Wolfgang Stephan, Department of Evolutionary Biology, University of Munich, 80333 Munich, Germany., stephan{at}zi.biologie.uni-muenchen.de (E-mail)

Communicating editor: J. HEIN

To gain insights into the relationship between codon bias, mRNAsecondary structure, third-codon position nucleotide distribution,and gene expression, we predicted secondary structures in tworelated drosophilid genes, Adh and Adhr, which differ in degreeof codon bias and level of gene expression. Individual structuralelements (helices) were inferred using the comparative method.For each gene, four types of randomization simulations wereperformed to maintain/remove codon bias and/or to maintain oralter third-codon position nucleotide composition (N3). In theweakly expressed, weakly biased gene Adhr, the potential forsecondary structure formation was found to be much strongerthan in the highly expressed, highly biased gene Adh. This isconsistent with the observation of approximately equal G andC percentages in Adhr ( $~$ 31% across species), whereas in Adh theN3 distribution is shifted toward C (42% across species). Perturbingthe N3 distribution to approximately equal amounts of A, G,C, and T increases the potential for secondary structure formationin Adh, but decreases it in Adhr. On the other hand, simulationsthat reduce codon bias without changing N3 content indicatethat codon bias per se has only a weak effect on the formationof secondary structures. These results suggest that, for thesetwo drosophilid genes, secondary structure is a relatively independent,negative regulator of gene expression. Whereas the degree ofcodon bias is positively correlated with level of gene expression,strong individual secondary structural elements may be selectedfor to retard mRNA translation and to decrease gene expression.

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