The repetitive region of the circadian clock gene period in Drosophila pseudoobscura consists predominantly of a pentapeptide sequence whose consensus is NSGAD. In D. melanogaster, this region is replaced by a dipeptide Thr-Gly repeat, which plays a role in the thermal stability of the circadian phenotype. The Thr-Gly repeat has been shown to form a type II or III beta-turn, whose conformational monomer is (Thr-Gly)3. Here we report, using conformational analyses, that both an NSGAD pentapeptide, and a polymer of the same sequence, form type II beta-turns. Thus two peptide sequences, whose amino-acid composition is very different, nevertheless form the same secondary structure. The implications of these structures for clock function are discussed.
Different period gene repeats take 'turns' at fine-tuning the circadian clock
ZORDAN, MAURO AGOSTINO;COSTA, RODOLFO;
1999
Abstract
The repetitive region of the circadian clock gene period in Drosophila pseudoobscura consists predominantly of a pentapeptide sequence whose consensus is NSGAD. In D. melanogaster, this region is replaced by a dipeptide Thr-Gly repeat, which plays a role in the thermal stability of the circadian phenotype. The Thr-Gly repeat has been shown to form a type II or III beta-turn, whose conformational monomer is (Thr-Gly)3. Here we report, using conformational analyses, that both an NSGAD pentapeptide, and a polymer of the same sequence, form type II beta-turns. Thus two peptide sequences, whose amino-acid composition is very different, nevertheless form the same secondary structure. The implications of these structures for clock function are discussed.Pubblicazioni consigliate
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