C C Karlik scite author profile

We compared the structure and function of the two Drosophila melanogaster tropomyosin genes. The most striking structural aspect was their size disparity. Codons 1 through 257 of gene 2 occupied 833 nucleotides and contained only one intron, whereas the corresponding region of gene 1 occupied 17.5 kilobases and was interrupted by eight introns. The intron-exon arrangement of gene 1 reflected evolutionary expansion of tropomyosin via 42-and 49-residue duplications, which are probably actin-binding domains. Functionally, gene 1 was considerably more complex than gene 2; it was active in both muscle and nonmuscle cell lineages, had at least five variable exons, and specified a minimum of five developmentally regulated isoforms. Two of these isoforms, which accumulated only in flight muscles, were unprecedented fusion proteins in which the tropomyosin sequence was joined to a carboxy-terminal proline-rich domain.

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An insertion within a variably spliced Drosophila tropomyosin gene blocks accumulation of only one encoded isoform

Karlik¹,

Fyrberg²

1985

Cell

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Organization of contractile protein genes within the 88F subdivision of the D. melanogaster third chromosome

Karlik

Mahaffey

Coutu

et al. 1984

Cell

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C C Karlik

Arthrin, a myofibrillar protein of insect flight muscle, is an actin-ubiquitin conjugate

Troponin of asynchronous flight muscle

Two Drosophila melanogaster tropomyosin genes: structural and functional aspects.

An insertion within a variably spliced Drosophila tropomyosin gene blocks accumulation of only one encoded isoform

Organization of contractile protein genes within the 88F subdivision of the D. melanogaster third chromosome

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