Comparative Population Biology and Related Gene Expression in the Beta-Cypermethrin-Resistant Strains of Bactrocera dorsalis (Hendel).

Diptera and Lepidoptera species have the highest levels of insecticide resistance, and the mechanism of drug resistance has been studied in detoxification metabolism genes such as P450, GST, EST, and ABC. Since Bactrocera dorsalis are resistant to a variety of chemicals, the pattern and mechanism of resistance in Bactrocera dorsalis have been investigated from a variety of aspects such as detoxification metabolism genes, detoxification enzymes, intestinal symbiotic bacteria, and synergists in the world. In this study, 51 species and 149 detoxification metabolism genes were annotated in the Suppression Subtractive Hybridization (SSH) library, and 12 candidate genes related to beta-cypermethrin resistance were screened and quantitatively expressed in this library. Two genes were found to be upregulated in the egg stage, three genes in the larval stage, one gene in the pupal stage, and five genes in the adult stage, and four genes were found to be upregulated in the midgut and the malacca ducts in the midgut. The expression of cyp6g1, cyp6a22, GST-Epsilon9, and Trypsin-4 genes was upregulated in resistant strains, with the most obvious upregulation occurring in the midgut and the Malpighian tubules. These results provide new insights into the study of pesticide resistance in quarantine insects.

Perceptual spatial position induces the attentional enhancement of prepulse inhibition and its neural mechanism.

Prepulse inhibition (PPI) is a sensorimotor gating process that reduces the startling response when a weaker sensory stimulus precedes a sudden startling stimulus. Perceptual spatial separation (PSS) between the prepulse and the background noise was found to enhance PPI compared to perceptual spatial co-location (PSC). However, little is known about the perceptual characteristics of prepulses in the PSS that induce more inhibition of the startling response and the associated neural mechanism. The dorsocentral striatum (DCS) was the convergence of spatial information from the cortical and thalamic circuits. Our study investigated whether the perceptual spatial position of prepulses induced spatial attentional modulation of PPI. In addition, whether the DCS was involved in spatial attentional modulation's neural circuits of PPI. In our study, the relative perceptual image positions of the prepulse and masker were controlled by the playback time difference between the two loudspeakers, i.e., PSS and PSC. The specific spatial attention of the prepulse was conditioned by foot shock. The results revealed that PPI was generally enhanced after fear conditioning/conditioning-control manipulation across all rats. Further enhancement of PPI in the PSS condition occurred only in the fear conditioning position, not in the conditioning-control position. We first found that PPI did not show specific spatial enhancement in the drug-blocking bilateral DCS rats with 2 mM kynurenic acid. These results demonstrated that the perceptual spatial position modulated the spatial attention of prepulse and improved PPI. DCS was involved in the attentional modulation neural circuits of PPI and processed spatial information of prepulse.

Association between changes in reproductive activity and D-glucose metabolism in the tephritid fruit fly, Bactrocera dorsalis (Hendel).

Reproduction is an important life process in insects; however, few studies have attempted to demonstrate the association between reproductive activity and energy metabolism. To address this problem, we focused on the reproductive changes in Bactrocera dorsalis males. We analyzed B. dorsalis male gene expression profiles during mating (DM), 3 h after mating (A3HM) and 12 h after mating (A12HM). Gene annotation and pathway analyses of differentially expressed genes show that galactose metabolism and the starch and sucrose metabolism pathway activities were significantly higher in A12HM group. Moreover, the maltase D gene was the most strongly up-regulated gene. The D-glucose levels were significantly higher in A12HM group. Maltase D expression level was significantly higher in males reared with sucrose. Body weights of the males reared with D-glucose and sucrose were significantly higher than those of the males reared with yeast extract. We observed more mated males from the groups fed sucrose and D-glucose than from those fed yeast extract. The D-glucose levels in individual males were highest at 18:00 h, when flies exhibit the most active mating behavior. This study shows that the maltase D gene and D-glucose are the critical gene and substrate, respectively, in male B. dorsalis mating process.