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• W2014473664 abstract "The flight muscle of Culex tarsalis and other Diptera is asynchronous fibrillar muscle. Ultrastructurally, we found that it resembles flight muscle described in other insects, except that it contains more glycogen than has been reported for other species. Profound ultrastructural changes occur in relation to age. Newly emerged mosquitoes have fewer glycogen deposits than older individuals. Glycogen in the young mosquito is in the form of beta particles, 25 nm in diameter, and flight muscle mitochondria of newly emerged individuals are smaller and have fewer cristae than those in older mosquitoes. Three-day-old mosquitoes (the age of all mosquitoes is expressed in days after eclosion) exhibit an abundance of glycogen, some of which exists as a dense aggregation along the M-line (intrafibrillar glycogen). Mitochondria in 3-day-old mosquitoes (i.e. 3 days after eclosion) are more dense than in newly emerged individuals, and about twice as large. In mosquitoes aged 42 days, intrafibrillar glycogen still exists as beta particles, but extrafibrillar glycogen is primarily of the alpha or rosette type. Mitochondria in individuals of this age group are present in two morphological forms. Most are similar in morphology to mitochondria of 3-day-old mosquitoes. A few, however, exhibit fewer cristae, some of which may be tubular, and a less dense matrix. Most glycogen has disappeared from both the intrafibrillar and extrafibrillar locations, in 84-day-old (after eclosion) mosquitoes. Mitochondria are present in two morphological types, as they were in insects, 42 days after eclosion." @default.
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• W2014473664 date "1972-12-01" @default.
• W2014473664 modified "2023-09-26" @default.
• W2014473664 title "Age-related ultrastructural changes in the flight muscle of the mosquito, Culex tarsalis" @default.
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• W2014473664 doi "https://doi.org/10.1016/0022-1910(72)90182-5" @default.
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