2017
DOI: 10.1098/rspb.2017.0431
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Flightin maintains myofilament lattice organization required for optimal flight power and courtship song quality inDrosophila

Abstract: The indirect flight muscles (IFMs) of Drosophila and other insects with asynchronous flight muscles are characterized by a crystalline myofilament lattice structure. The high-order lattice regularity is considered an adaptation for enhanced power output, but supporting evidence for this claim is lacking. We show that IFMs from transgenic flies expressing flightin with a deletion of its poorly conserved N-terminal domain ( fln DN62 ) have reduced interthick filament spacing and a less regular lattice. This resu… Show more

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Cited by 10 publications
(8 citation statements)
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“…A shared myosin coiled-coil binding region raises The estimated mass of the red density is less than the mass of flightin [3]. Mutant Drosophila flightin lacking the N-terminal 62 amino acid region [21,22] or the C-terminal 44 amino acid region [23] are incorporated into the fiber, indicating that the region between amino acids 63 and 138, encompassing the conserved WYR domain [24], harbors an essential myosin binding site. We hypothesize that the red density is mostly or exclusively WYR, further supported by the predicted unstructured nature of the larger N-terminal region [25].…”
Section: Materials Methods and Resultsmentioning
confidence: 99%
“…A shared myosin coiled-coil binding region raises The estimated mass of the red density is less than the mass of flightin [3]. Mutant Drosophila flightin lacking the N-terminal 62 amino acid region [21,22] or the C-terminal 44 amino acid region [23] are incorporated into the fiber, indicating that the region between amino acids 63 and 138, encompassing the conserved WYR domain [24], harbors an essential myosin binding site. We hypothesize that the red density is mostly or exclusively WYR, further supported by the predicted unstructured nature of the larger N-terminal region [25].…”
Section: Materials Methods and Resultsmentioning
confidence: 99%
“…The analyses of flightin mutants in D. melanogaster have revealed its important role in flight and courtship, two behaviors that underscore the evolutionary success and prolific speciation of insects [7,12,13]. Specifically, mutants that express a truncated flightin missing the C-terminal region (fln ∆C44 ) are incapable of generating a courtship song or a wing beat to propel flight, similar to the flightin null mutant, (fln 0 ).…”
Section: Introductionmentioning
confidence: 99%
“…Specifically, mutants that express a truncated flightin missing the C-terminal region (fln ∆C44 ) are incapable of generating a courtship song or a wing beat to propel flight, similar to the flightin null mutant, (fln 0 ). In contrast, mutants that express a truncated flightin missing the N-terminal region (fln ∆N62 ) have impaired flight mechanics and produce an abnormal courtship song that lessens the male's mating success [12]. Despite the truncations, the mutant flightin variants remain integral components of the fiber indicating that neither the N-terminal nor C-terminal region is necessary for flightin incorporation into the thick filament.…”
Section: Introductionmentioning
confidence: 99%
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