Identification of sex-specific markers based on gene expression in adult Colorado potato beetles.

The Colorado potato beetle, Leptinotarsa decemlineata, (Coleoptera: Chrysomelidae) is an economically important pest insect of potatoes. Understanding how the mechanisms driving its invasiveness vary between sexes will be critical for developing modern control methods. However, the currently available methods for sexing adult Colorado potato beetles are either inefficient or unsuitable for projects that require RNA as an input, like those measuring gene expression. Therefore, the development of simple molecular tools that are tailored to these studies is important. In this study, we used publicly available RNA-seq data to select 5 candidate genes for sex-specific markers in adult Colorado potato beetles. We confirmed that our 5 marker candidates exhibit a sex-specific expression pattern and can be used as PCR markers for sex determination. This method of sex detection will allow researchers to distinguish the sex of the individual with a simple PCR reaction using cDNA as the template and assign sex to RNA-seq samples post hoc.

Multi-year survival of sugarbeet root maggot (Tetanops myopaeformis) larvae in cold storage.

To test the hypothesis that long-term survival of sugarbeet root maggot in storage is facilitated by larvae undergoing prolonged diapause, respiration and gene expression patterns of field-collected diapausing larvae were compared with those of 1-, 2-, and 5-year laboratory-stored larvae. Additional assessments were made on post-storage survival, emergence, and reproductive fitness of stored larvae. Respirometry, carried out at 5 and 20 degrees C revealed no differences among respiration rates of initially diapausing and long-term stored larvae. A 15 degrees increase in temperature elevated respiration in both diapausing and stored larvae, with levels of CO2 release ranging between 8- and 14-fold higher at 20 degrees C than at 5 degrees C. Similarly, 6-10-fold increases in O2 consumption levels were observed at the higher temperature. A transcript with sequence similarity to the fat body protein 2 (Fbp2) gene was highly expressed in diapausing larvae, and trace levels were expressed in some samples of 1-year stored larvae. However, no expression was detected in 2- and 5-year stored larvae. Survival and emergence studies of stored larvae revealed mixed populations of diapausing (i.e., the 5-17% of larvae that did not pupate) and post-diapausing (62-84% of larvae pupated) insects, with a high incidence of pupation (62%) and emergence (47%), even after 4 years in cold storage. Therefore, extended survival of Tetanops myopaeformis larvae in long-term cold storage is facilitated by two mechanisms, with a majority of larvae in post-diapause quiescence and a smaller fraction in a state of prolonged diapause.