Ploidy levels and DNA synthesis in fat body cells of the adult mosquito, Aedes aegypti: The role of juvenile hormone

Abstract

AbstractAdult females of the mosquito Aedes aegypti showed two cycles of DNA replication in the fat body based on microspectrophotometric measurement of changes in nuclear DNA. The first cycle began after emergence and resulted in 80% of diploid fat body cells becoming tetraploid and 20% becoming octoploid by the end of the third day. The second replication cycle occurred 48–72 h after a blood meal and resulted in an increase in octoploid nuclei to 67% Topical application of juvenile hormone or methoprene to abdomens isolated at emergence stimulated an increase in ploidy levels above that normally seen in situ. Synthesis of DNA, estimated by incorporation of injected [3H]‐thymidine, rose after emergence and remained high for 2 days. Synthesis increased again after a blood meal, reached a peak by 6 h, and returned to low levels by 24 h after the meal. The timing of DNA synthesis and a measurable increase in ploidy were temporally separated. The ploidy increase, but not DNA synthesis, was correlated with increases in juvenile hormone levels.