@article{dhammi_krestchmar_zhu_ponnusamy_gould_reisig_kurtz_roe_2022, title={Impact of Caterpillar Increased Feeding Rates on Reduction of Bt Susceptibility}, volume={23}, ISSN={["1422-0067"]}, url={https://www.mdpi.com/1422-0067/23/23/14856}, DOI={10.3390/ijms232314856}, abstractNote={The use of insect-resistant transgenic crops producing Bacillus thuringiensis protein Cry toxins (Bt) to control caterpillars is wide-spread. Development of a mechanism to prevent Bt from reaching its target site in the digestive system could result in Bt resistance and resistance to other insecticides active per os. Increased feeding rates by increasing temperature in tobacco budworms, Chloridea virescens, and bollworms, Helicoverpa zea, decreased Bt Cry1Ac susceptibility and mortality. The same was found in C. virescens for Bollgard II plant extract containing Bt Cry1Ac and Cry2Ab2 toxins. Furthermore, H. zea from the same inbred laboratory colony that fed faster independent of temperature manipulation were less susceptible to Bt intoxication. A laboratory derived C. virescens Bt resistant strain demonstrated a higher feeding rate on non-Bt artificial diet than the parental, Bt susceptible strain. A laboratory-reared Bt resistant fall armyworm, Spodoptera frugiperda, strain also fed faster on non-Bt diet compared to Bt susceptible caterpillars of the same species, both originally collected from corn. The studies in toto and the literature reviewed support the hypothesis that increased feeding rate is a behavioral mechanism for reducing caterpillar susceptibility to Bt. Its possible role in resistance needs further study.}, number={23}, journal={INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES}, author={Dhammi, Anirudh and Krestchmar, Jaap B. and Zhu, Jiwei and Ponnusamy, Loganathan and Gould, Fred and Reisig, Dominic and Kurtz, Ryan W. and Roe, R. Michael}, year={2022}, month={Dec} }
 @article{deguenon_dhammi_ponnusamy_travanty_cave_lawrie_mott_reisig_kurtz_roe_2021, title={Bacterial Microbiota of Field-Collected Helicoverpa zea (Lepidoptera: Noctuidae) from Transgenic Bt and Non-Bt Cotton}, volume={9}, ISSN={["2076-2607"]}, url={https://www.mdpi.com/2076-2607/9/4/878}, DOI={10.3390/microorganisms9040878}, abstractNote={The bollworm, Helicoverpa zea (Boddie) (Lepidoptera: Noctuidae), is an important agricultural pest in U.S. cotton and is managed using transgenic hybrids that produce insecticidal proteins from the bacterium, Bacillus thuringiensis (Bt). The reduced efficacy against H. zea caterpillars of Bt plants expressing Cry toxins is increasing in the field. In a first step towards understanding Bt cotton–bollworm–microbiota interactions, we investigated the internal bacterial microbiota of second–third stadium H. zea collected in the field from non-Bt versus Bt (WideStrike) cotton in close proximity (in North Carolina, USA). The bacterial populations were analyzed using culture-dependent and -independent molecular approaches. We found that WideStrike samples had a higher bacterial density and diversity per larva than insects collected from non-Bt cotton over two field seasons: 8.42 ± 0.23 and 5.36 ± 0.75 (log10 colony forming units per insect) for WideStrike compared to 6.82 ± 0.20 and 4.30 ± 0.56 for non-Bt cotton for seasons 1 and 2, respectively. Fifteen phyla, 103 families, and 229 genera were identified after performing Illumina sequencing of the 16S rRNA. At the family level, Enterobacteriaceae and Enterococcaceae were the most abundant taxa. The Enterococcaceae family was comprised mostly of Enterococcus species (E. casseliflavus and another Enterococcus sp.). Members of the Enterococcus genus can acidify their environment and can potentially reduce the alkaline activation of some Bt toxins. These findings argue for more research to better understand the role of cotton–bollworm–bacteria interactions and the impact on Bt toxin caterpillar susceptibility.}, number={4}, journal={MICROORGANISMS}, publisher={MDPI AG}, author={Deguenon, Jean M. and Dhammi, Anirudh and Ponnusamy, Loganathan and Travanty, Nicholas V and Cave, Grayson and Lawrie, Roger and Mott, Dan and Reisig, Dominic and Kurtz, Ryan and Roe, R. Michael}, year={2021}, month={Apr} }
 @article{lawrie_mitchell_dhammi_wallace_hodgson_roe_2020, title={Role of long non-coding RNA in DEET- and fipronil-mediated alteration of transcripts associated with Phase I and Phase II xenobiotic metabolism in human primary hepatocytes}, volume={167}, ISSN={["1095-9939"]}, DOI={10.1016/j.pestbp.2020.104607}, abstractNote={Human exposure to environmental chemicals both individually and in combination occurs frequently world-wide most often with unknown consequences. Use of molecular approaches to aide in the assessment of risk involved in chemical exposure is a growing field in toxicology. In this study, we examined the impact of two environmental chemicals used in and around homes, the insect repellent DEET (N,N-diethyl-m-toluamide) and the phenylpyrazole insecticide fipronil (fluocyanobenpyrazole) on transcript levels of enzymes potentially involved in xenobiotic metabolism and on long non-coding RNAs (lncRNAs). Primary human hepatocytes were treated with these two chemicals both individually and in combination. Using RNA-Seq, we found that 10 major enzyme categories involved in phase 1 and phase 2 xenobiotic metabolism were significantly (α = 0.05) up- and down-regulated (i.e., 100 μM DEET–19 transcripts, 89% up and 11% down; 10 μM fipronil–52 transcripts, 53% up and 47% down; and 100 μM DEET +10 μM fipronil–69 transcripts, 43% up and 57% down). The altered genes were then mapped to the human genome and their proximity (within 1,000,000 bp) to lncRNAs examined. Unique proximities were discovered between altered lncRNA and altered P450s (CYP) and other enzymes (DEET, 2 CYP; Fipronil, 6 CYP and 15 other; and DEET + fipronil, 7 CYP and 21 other). Many of the altered P450 transcripts were in multiple clusters in the genome with proximal altered lncRNAs, suggesting a regulator function for the lncRNA. At the gene level there was high percent identity for lncRNAs near P450 clusters, but this relationship was not found at the transcript level. The role of these altered lncRNAs associated with xenobiotic induction, human diseases and chemical mixtures is discussed.}, journal={PESTICIDE BIOCHEMISTRY AND PHYSIOLOGY}, author={Lawrie, Roger D. and Mitchell, Robert D., III and Dhammi, Anirudh and Wallace, Andrew and Hodgson, Ernest and Roe, R. Michael}, year={2020}, month={Jul} }
 @article{mitchell_zhu_carr_dhammi_cave_sonenshine_roe_2017, title={Infrared light detection by the hailer's organ of adult american dog ticks, Dermacentor variabilis (Ixodida: Ixodidae)}, volume={8}, ISSN={["1877-9603"]}, DOI={10.1016/j.ttbdis.2017.06.001}, abstractNote={The Haller's organ (HO), unique to ticks and mites, is found only on the first tarsus of the front pair of legs. The organ has an unusual morphology consisting of an anterior pit (AP) with protruding sensilla and a posterior capsule (Cp). The current thinking is that the HO's main function is chemosensation analogous to the insect antennae, but the functionality of its atypical structure (exclusive to the Acari) is unexplained. We provide the first evidence that the HO allows the American dog tick, Dermacentor variabilis, to respond to infrared (IR) light. Unfed D. variabilis adults with their HOs present were positively phototactic to IR. However, when the HOs were removed, no IR response was detected. Ticks in these experiments were also attracted to white light with and without the HOs, but were only positively phototactic to white light when the ocelli (primitive eyes) were unobstructed. Covering the eyes did not prevent IR attraction. A putative TRPA1 receptor was characterized from a D. variabilis-specific HO transcriptome we constructed. This receptor was homologous to transient receptor potential cation channel, subfamily A, member 1 (TRPA1) from the pit organ of the pit viper, python, and boa families of snakes, the only receptor identified so far for IR detection. HO scanning electron microscopy (SEM) studies in the American dog tick showed the AP and Cp but also novel structures not previously described; the potential role of these structures in IR detection is discussed. The ability of ticks to use IR for host finding is consistent with their obligatory hematophagy and has practical applications in tick trapping and the development of new repellents.}, number={5}, journal={TICKS AND TICK-BORNE DISEASES}, author={Mitchell, Robert D., III and Zhu, Jiwei and Carr, Ann L. and Dhammi, Anirudh and Cave, Grayson and Sonenshine, Daniel E. and Roe, R. Michael}, year={2017}, pages={764–771} }
 @article{carr_mitchell_dhammi_bissinger_sonenshine_roe_2017, title={Tick Haller's Organ, a New Paradigm for Arthropod Olfaction: How Ticks Differ from Insects}, volume={18}, ISSN={["1422-0067"]}, DOI={10.3390/ijms18071563}, abstractNote={Ticks are the vector of many human and animal diseases; and host detection is critical to this process. Ticks have a unique sensory structure located exclusively on the 1st pairs of legs; the fore-tarsal Haller’s organ, not found in any other animals, presumed to function like the insect antennae in chemosensation but morphologically very different. The mechanism of tick chemoreception is unknown. Utilizing next-generation sequencing and comparative transcriptomics between the 1st and 4th legs (the latter without the Haller’s organ), we characterized 1st leg specific and putative Haller’s organ specific transcripts from adult American dog ticks, Dermacentor variabilis. The analysis suggested that the Haller’s organ is involved in olfaction, not gustation. No known odorant binding proteins like those found in insects, chemosensory lipocalins or typical insect olfactory mechanisms were identified; with the transcriptomic data only supporting a possible olfactory G-protein coupled receptor (GPCR) signal cascade unique to the Haller’s organ. Each component of the olfactory GPCR signal cascade was identified and characterized. The expression of GPCR, Gαo and β-arrestin transcripts identified exclusively in the 1st leg transcriptome, and putatively Haller’s organ specific, were examined in unfed and blood-fed adult female and male D. variabilis. Blood feeding to repletion in adult females down-regulated the expression of all three chemosensory transcripts in females but not in males; consistent with differences in post-feeding tick behavior between sexes and an expected reduced chemosensory function in females as they leave the host. Data are presented for the first time of the potential hormonal regulation of tick chemosensation; behavioral assays confirmed the role of the Haller’s organ in N,N-diethyl-meta-toluamide (DEET) repellency but showed no role for the Haller’s organ in host attachment. Further research is needed to understand the potential role of the GPCR cascade in olfaction.}, number={7}, journal={INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES}, author={Carr, Ann L. and Mitchell, Robert D., III and Dhammi, Anirudh and Bissinger, Brooke W. and Sonenshine, Daniel E. and Roe, R. Michael}, year={2017}, month={Jul} }
 @article{dhammi_krestchmar_ponnusamy_bacheler_reisig_herbert_del pozo-valdivia_roe_2016, title={Biology, pest status, microbiome and control of kudzu bug (Hemiptera: Heteroptera: Plataspidae): a new invasive pest in the U.S.}, volume={17}, ISSN={["1422-0067"]}, url={http://dx.doi.org/10.3390/ijms17091570}, DOI={10.3390/ijms17091570}, abstractNote={Soybean is an important food crop, and insect integrated pest management (IPM) is critical to the sustainability of this production system. In recent years, the introduction into the United States of the kudzu bug currently identified as Megacopta cribraria (F.), poses a threat to soybean production. The kudzu bug was first discovered in the state of Georgia, U.S. in 2009 and since then has spread to most of the southeastern states. Because it was not found in the North American subcontinent before this time, much of our knowledge of this insect comes from research done in its native habitat. However, since the U.S. introduction, studies have been undertaken to improve our understanding of the kudzu bug basic biology, microbiome, migration patterns, host selection and management in its expanding new range. Researchers are not only looking at developing IPM strategies for the kudzu bug in soybean, but also at its unique relationship with symbiotic bacteria. Adult females deposit bacterial packets with their eggs, and the neonates feed on these packets to acquire the bacteria, Candidatus Ishikawaella capsulata. The kudzu bug should be an informative model to study the co-evolution of insect function and behavior with that of a single bacteria species. We review kudzu bug trapping and survey methods, the development of bioassays for insecticide susceptibility, insecticide efficacy, host preferences, impact of the pest on urban environments, population expansion, and the occurrence of natural enemies. The identity of the kudzu bug in the U.S. is not clear. We propose that the kudzu bug currently accepted as M. cribraria in the U.S. is actually Megacopta punctatissima, with more work needed to confirm this hypothesis.}, number={9}, journal={Int. J. Mol. Sci}, publisher={MDPI AG}, author={Dhammi, Anirudh and Krestchmar, Jaap B. and Ponnusamy, Loganathan and Bacheler, Jack S. and Reisig, Dominic D. and Herbert, Ames and Del Pozo-Valdivia, Alejandro I. and Roe, R. Michael}, year={2016} }
 @article{mitchell_dhammi_wallace_hodgson_roe_2016, title={Impact of Environmental Chemicals on the Transcriptome of Primary Human Hepatocytes: Potential for Health Effects}, volume={30}, ISSN={1095-6670}, url={http://dx.doi.org/10.1002/JBT.21801}, DOI={10.1002/jbt.21801}, abstractNote={New paradigms for human health risk assessment of environmental chemicals emphasize the use of molecular methods and human‐derived cell lines. In this study, we examined the effects of the insect repellent DEET (N,N‐diethyl‐m‐toluamide) and the phenylpyrazole insecticide fipronil (fluocyanobenpyrazole) on transcript levels in primary human hepatocytes. These chemicals were tested individually and as a mixture. RNA‐Seq showed that 100 μM DEET significantly increased transcript levels (α = 0.05) for 108 genes and lowered transcript levels for 64 genes and fipronil at 10 μM increased the levels of 2246 transcripts and decreased the levels for 1428 transcripts. Fipronil was 21‐times more effective than DEET in eliciting changes, even though the treatment concentration was 10‐fold lower for fipronil versus DEET. The mixture of DEET and fipronil produced a more than additive effect (levels increased for 3017 transcripts and decreased for 2087 transcripts). The transcripts affected for all chemical treatments were classified by GO analysis and mapped to chromosomes. The overall treatment responses, specific pathways, and individual transcripts affected were discussed at different levels of fold‐change. Changes found in transcript levels in response to treatments will require further research to understand their importance in overall cellular, organ, and organismic function.}, number={8}, journal={Journal of Biochemical and Molecular Toxicology}, publisher={Wiley}, author={Mitchell, Robert D., III and Dhammi, Anirudh and Wallace, Andrew and Hodgson, Ernest and Roe, R. Michael}, year={2016}, month={Apr}, pages={375–395} }