Interspecific sequence comparison of the Muscle-myosin heavy-chain genes from Drosophila hydei and Drosophila melanogaster

The muscle-myosin heavy-chain (mMHC) gene of Drosophila hydei has been sequenced completely (size 23.3 kb). The sequence comparison with the D. melanogaster mMHC gene revealed that the exon-intron pattern is identical. The protein coding regions show a high degree of conservation (97%). The alternat...

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Bibliographic Details
Published inJournal of molecular evolution Vol. 39; no. 4; pp. 357 - 368
Main Authors Miedema, K, Harhangi, H, Mentzel, S, Wilbrink, M, Akhmanova, A, Hooiveld, M, Bindels, P, Hennig, W
Format Journal Article
LanguageEnglish
Published Germany 01.10.1994
Subjects
alternative exons
alternative splicing
Amino Acid Sequence
amino acid sequences
amino acid substitutions
Animals
Base Sequence
Biological Evolution
common exons
DNA Probes
Drosophila - genetics
Drosophila hydei
Drosophila melanogaster
Drosophila melanogaster - genetics
evolution
exons
genbank/x77570
genes
introns
Introns - genetics
Molecular Sequence Data
myosin
Myosins - genetics
nucleotide sequences
Sequence Alignment
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Summary:The muscle-myosin heavy-chain (mMHC) gene of Drosophila hydei has been sequenced completely (size 23.3 kb). The sequence comparison with the D. melanogaster mMHC gene revealed that the exon-intron pattern is identical. The protein coding regions show a high degree of conservation (97%). The alternatively spliced exons (3a-b, 7a-d, 9a-c, 11a-e, and 15a-b) display more variations in the number of nonsynonymous and synonymous substitutions than the common exons (2, 4, 5, 6, 8, 10, 12, 13, 14, 16, 17, and 19). The base composition at synonymous sites of fourfold degenerate codons (third position) is not biased in the alternative exons. In the common exons there exists a bias for C and against A. These findings imply that the alternative exons of the Drosophila MMHC gene evolve at a different, in several cases higher, rate than the common ones. The 5' splice junctions and 5' and 3' untranslated regions show a high level of similarity, indicating a functional constraint on these sequences. The intron regions vary considerably in length within one species, but the corresponding introns are very similar in length between the two species and all contain stretches of sequence similarity. A particular example is the first intron, which contains multiple regions of similarity. In the conserved regions of intron 12 (head-tail border) sequences were found which have the potential to direct another smaller mMHC transcript.
ISSN:0022-2844
1432-1432
DOI:10.1007/BF00160268