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Publications
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Peer-Reviewed

Quevedo IM, Hladky LJ, Bolaños BT, Hasegawa DK. First Report of Impatiens Necrotic Spot Virus (INSV) Infecting Lettuce in Mexico. Plant Disease. 2024. [Online]

Zhang S, Hladky LJ, Hasegawa DK. Rapid detection of Impatiens necrotic spot virus from thrips vectors using reverse transcription-recombinase polymerase amplification. Scientific Reports. 14:21946. 2024. [Online] [pdf]

Richardson KL, Nayak S, Hasegawa DK, Eriksen RL. Evaluation of lettuce germplasm for resistance to impatiens necrotic spot virus. Euphytica. 220, 33. 2024. [Online] [pdf]

Simko I, Hasegawa DK, Peng H, Zhao R. Genetic and physiological determinants of lettuce partial resistance to Impatiens necrotic spot virus. Frontiers in Plant Science. 14:1163683. 2023. [Online] [pdf]

Yun SH, Jang HS, Ahn SJ, Price BE, Hasegawa DK, Choi MY. Identification and characterisation of PRXamide peptides in the western flower thrips, Frankliniella occidentalis. Insect Mol Biol. 32(6):603-614. 2023. [Online] [pdf]

Hasegawa DK and Del Pozo-Valdivia AI. Epidemiology and economic impact of impatiens necrotic spot virus: a resurging pathogen affecting lettuce in the Salinas Valley of California. Plant Disease. 107:1192-1201. 2023. [Online] [pdf]

Hasegawa DK, Hladky LJ, Wintermantel WM, Putman AI, Barman A, Slinski S, Palumbo J, Poudel-Ward, B. First Report of Impatiens Necrotic Spot Virus Infecting Lettuce in Arizona and Southern Desert Regions of California. Plant Disease. 106(8):2274. 2022. [Online] [pdf]

Hasegawa DK, Shamimuzzaman M, Chen W, Simmons AM, Fei Z, Ling K-S. Deep sequencing of small RNAs in the whitefly, Bemisia tabaci revealed novel microRNAs potentially associated with begomovirus acquisition and transmission. Insects. 11(9):562. 2020. [Online] [pdf]

Hasegawa DK, Zhang P, Turnbull MW. Intracellular dynamics of polydnavirus innexin homologues. Insect Molecular Biology. 29(5):477-489. 2020. [Online] [pdf]

Shamimuzzaman M., Hasegawa DK, Chen W, Simmons AM, Fei Z, Ling K-S. Genome-wide profiling of piRNAs in the whitefly Bemisia tabaci reveals cluster distribution and association with begomovirus transmission. PLoS One. 14(3):e0213149. 2019. [Online] [pdf]

Chen W, Wosula EN, Hasegawa DK, Casinga C, Shirima RR, Fiaboe KKM, Hanna R, Fosto A, Goergen G, Tamò M, Mahuku G, Murithi HM, Tripathi L, Mware B, Kumar LP, Ntawuruhunga P, Moyo C, Yomeni M, Boahen S, Edet M, Awoyale W, Wintermantel WM, Ling K-S, Legg JP, Fei Z. Genome of the African cassava whitefly Bemisia tabaci and distribution and genetic diversity of cassava-colonizing whiteflies in Africa. Insect Biochemistry and Molecular Biology. 110:112-120. 2019. [Online] [pdf]

Keinath AP, Ling K-S, Adkins S, Hasegawa DK, Simmons AM, Hoak S, Mellinger HC, Kousik CS. First Report of Cucurbit Leaf Crumple Virus Infecting Three Cucurbit Crops in South Carolina. Plant Health Progress. 19:322-323. 2018. [Online] [pdf]

Hasegawa DK, Chen W, Zheng Y, Kaur N, Wintermantel WM, Simmons AM, Fei Z, Ling KS. Comparative transcriptome analysis reveals networks of genes activated in the whitefly, Bemisia tabaci when fed on tomato plants infected with Tomato yellow leaf curl virus. VirologyJan; 513: 52-64. 2018. [Online] [pdf]

Gundersen-Rindal DE, Adrianos SL, Allen ML, Becnel JJ, Chen YP, Choi MY, Estep A, Evans JD, Garczynski SF, Geib SM, Ghosh SKB, Handler AM, Hasegawa DK, Heerman MC, Hull JJ, Hunter WB, Kaur N, Li J, Li W, Ling KS, Nayduch D, Oppert BS, Perera OP, Perkin LC, Sanscrainte ND, Sim SB, Sparks ME, Temeyer KB, Vander Meer RK, Wintermantel WM, James RR, Hackett KJ, Coates BS. Arthropod genomics research in the United States Department of Agriculture, Agricultural Research Service: Applications of RNA interference and CRISPR gene-editing technologies in pest control. Trends in Entomology, 13: 109-137. 2017. [pdf]

Kaur N, Chen W, Zheng Y, Hasegawa DK, Ling KS, Fei Z, Wintermantel WM. Transcriptome analysis of the whitefly, Bemisia tabaci MEAM1 during feeding on tomato infected with the crinivirus, Tomato chlorosis virus, identifies a temporal shift in gene expression and differential regulation of novel orphan genes. BMC Genomics. May 18:370. 2017. [Online] [pdf]

Hasegawa DK, Erickson SL, Hersh BM, Turnbull MW. Virus innexins induce alterations in insect cell and tissue function. Journal of Insect Physiology. Apr; 98:173-181. 2017. [Online] [pdf]

Chen W, Hasegawa DK, Kaur N, Kliot A, Pinheiro PV, Luan J, Stensmyr MC, Zheng Y, Liu W, Sun H, Xu Y, Luo Y, Kruse A, Yang X, Kontsedalov S, Lebedev G, Fisher TW, Nelson DR, Hunter WB, Brown JK, Jander G, Cilia M, Douglas AE, Ghanim M, Simmons AM, Wintermantel WM, Ling K-S, Fei Z. The draft genome of whitefly Bemisia tabaci MEAM1, a global crop pest, provides novel insights into virus transmission, host adaptation, and insecticide resistance. BMC Biology. Dec 14:110. 2016. [Online] [pdf]

Kaur N, Hasegawa DK, Ling KS, Wintermantel WM. Application of genomics for understanding plant virus-insect vector interactions and insect vector control. Phytopathology. Oct; 106(10):1213-1222. 2016. [Online] [pdf]

Luan JB, Chen W, Hasegawa DK, Simmons AM, Wintermantel WM, Ling K-S, Fei Z, Liu SS, Douglas AE. Metabolic Coevolution in the Bacterial Symbiosis of Whiteflies and Related Plant Sap-Feeding Insects. Genome Biology and Evolution. 7(9):2635-47. 2015. [Online] [pdf]

Chen W, Hasegawa DK, Arumuganathan K, Simmons AM, Wintermantel WM, Fei Z, Ling K-S. Estimation of the whitefly Bemisia tabaci genome size based on k-mer and flow cytometric analyses. Insects. 6(3):704-15. 2014. [Online] [pdf]

Kwauk KJ, Hasegawa DK, Lehnert MS, Beard CE, Gerard PD, Kornev KG, Adler PH. Drinking with an unsealed tube: fluid uptake along the butterfly proboscis. Annals of the Entomological Society of America. 107(4):886-892. 2014. [Online] [pdf]

Hasegawa DK and Turnbull MW. Recent findings in evolution and function of insect innexins. FEBS Letters. 588(8):1403-10. 2014. [Online] [pdf]

Marziano NK, Hasegawa DKPhelan P, and Turnbull MW. Functional interactions between polydnavirus and host cellular innexins. Journal of Virology. 85(19):10222-9. 2011. [Online] [pdf]