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	Authors Year Title Journal
14338	Narváez, M., G. Nic-Matos, and C. Oropeza. 2022 In vitro transmission of 16SrIV phytoplasmas to coconut plants by Haplaxius crudus in Yucatan, Mexico. 3 Biotech 12: 5; 1-11. https://doi.org/10.1007/s13205-021-03069-z.
2303	Hughes, G.L., P. Allsopp, S. Brumbley, K. N. Johnson. and S.L. O'Neill. 2008 In Vitro Rearing of Perkinsiella saccharicida and the Use of Leaf Segments to Assay Fiji disease virus Transmission. Phytopathology 98(7): 810-814. pdf
11969	Shao, Ensi, Chen Chen, Hanze Chen, Sijun Liu, Li Lin, Yaomin Wang, Xiong Guan and Zhipeng Huang. 2018 In vitro hydrolysis of Bacillus thuringiensis Cry1Ac toxin by gut proteases of Nilaparvata lugens (Stal) and binding assays of Cry1Ac toxin with brush border membrane of N. lugens midgut. Biocontrol Science & Technology 28(5): 446–458 https://doi.org/10.1080/09583157.2018.1455170.
13902	Shori, A., D.K. Rana, M.G. Sable, and P. Kumari. 2017 In vitro evaluation of rice genotypes for brown plant hopper (Nilaparvata lugens Stal.) resistance. International Journal of Current Microbiology and Applied Sciences 6(3): 2547-2553. https://doi.org/10.20546/ijcmas.2017.603.288.
3229	Miyata, T., T. Saito, T; Kassaiand K. Ozaki. 1989 In vitro degradation of malathion by the small brown planthopper, Laodelphax striatellus (Fallen), and the brown rice planthopper, Nilaparvata lugens (Stal) (Hemiptera: Delphacidae). Applied Entomology and Zoology 24(2): 240-241. pdf
8053	Miyata, T., T. Saito, T; Kassai, and K. Ozaki. 1983 In vitro degradation of malathion by organophosphate resistant and susceptible strains of brown planthoppers, Nilaparvata lugens Stal. Journal of Pesticide Science 8(1): 27-31. pdf
7685	Ning, S.P., H.R. Huang, and X.L. Wang. 2005 In situ localization of the MAPK3 gene induced by brown planthopper in rice sheath. Journal of Tropical and Subtropical Botany 13(5): 381-385 pdf
5961	Weng, Q., Z. Huang, X. Wang, L. Zhu, and G. He. 2003 In situ localization of proteinase inhibitor mRNA in rice plant challenged by brown planthopper. Chinese Science Bulletin 48(10): 979-982. pdf
13868	Premachandran, K., T.S. Srinivasan, and C.R.W. Alphonse. 2021 In silico approach on sequential and structural variability in oryzacystatin and its interaction with cysteine protease enzymes of insect. Phytochemistry 186: 112728. https://doi.org/10.1016/j.phytochem.2021.112728. [Nilaparvata lugens]
14416	Castrosanto, M.A., A.J.N. Clemente, A.E. Whitfield, and K.B. Alviar. 2023 In silico analysis of the predicted protein-protein interaction of syntaxin-18, a putative receptor of Peregrinus maidis Ashmead (Hemiptera: Delphacidae) with Maize mosaic virus glycoprotein. Journal of Biomolecular Structure and Dynamics 41(9): 3956–396. https://doi.org/10.1080/07391102.2022.2059569. [ePub ahead of print 2022]
14992	Clemente, A.J.N. and K.B. Alviar. 2022 In silico analysis of Peregrinus maidis Ashmead syntaxin 18 with maize mosaic virus glycoprotein supports neurotropic route by which the virus can spread through the insect vector. Philippine Entomologist 36(2): 31-56. pdf
14570	Viraktamath, C.A. 2022 In search of insect vectors of phytoplasmas with a note on vectors of Xylella fastidiosa. Indian Journal of Entomology (2022): e22033; 1-22. https://doi.org/10.55446/IJE.2022.454. [Redarator bimaculatus, Nilaparvata lugens, Proutista moesta] pdf
6398	Emeljanov A.F. and I.M. Kerzhner. 1981 In memory of M.M. Loginova (1926-1979). Entomologicheskoe Obozrenie 60(1): 219-223. [in Russian] pdf
13318	Zryanin, M.V., Mokrousov, and A.V. Mukhanov. 2017 In memory of Georgiy A. Anufriev (19.11.1943–13.05.2017). Nature Conservation Research 2(Suppl. 2): 92-104. https://doi.org/110.24189/ncr.2017.037. [Russian] [Bibliography] pdf
2197	Holzinger, W.E., R. Achtziger R., H. Nickel H. and W. Witsack. 2009 In memorian Prof. Dr. Reinhard Remane. Cicadina 10: 3-14. pdf
12378	Galinichev, A. V., V. M. Gnezdilov, A. F. Emeljanov, D. Yu. Tishechkin. 2017 In Memoriam: G. A. Anufriev (1943—2017). Entomologicheskoe Obozrenie 96(4): 877–885. (In Russian). pdf
10556	Mühlethaler, R. and A. Wessel. 2014 In memoriam Prof. Dr. rer. Nat. Hildegard Strübing (8.5.1922 - 18.5.2013), with a complete bibliography. Cicadina 14: 1-12. pdf
12653	Malenovský, I. 2019 In memoriam of RNDr. Pavel Lauterer (1933 – 2016). Cicadina 18: 59-70. pdf
11166	Chudzicka, E. and C. Gebiçki. 2003 In memoriam Janusz Nast (1908 - 1991). Beiträge zur Zikadenkunde 6: 1-4. pdf
14159	ALBERTO, Alberto Leonel and Tong Min MOU 2016 Improving the resistance to brown planthopper of a rice restorer line Chenghui 727 by molecular-assisted selection. Asian Journal of Science and Technology 7(2): 2358-2363. pdf
11065	Korinsak, S., M. Siangliw, J. Kotcharerk, J. Jairin, J.L. Siangliw, B. Jongdee, G. Pantuwan, N. Sidthiwong, and T. Toojinda. 2016 Improvement of the submergence tolerance and the brown planthopper resistance of the Thai jasmine rice cultivar KDML105 by pyramiding Sub1 and Qbph12. Fields Crops Research 188: 105-112. DOI: 110.1016/j.fcr.2015.1010.1025.
8462	Nettasana, S. 1996 Improvement of rice: RD7 variety for brown planthopper resistance through immature embryo culture and colchicine treatment. Mater’s thesis. Kasetsart University, Bangkok, Thailand. thesis
5603	Chen, Y.Z., Q. Chen, R.K Sun, L. Yang, F.K. Huang, D.H. Huang, S.M. Wei, Y.X. Zhang, P.Q. Liu, and R.B. Li. 2010 Improvement of rice resistance to brown planthoppers. Southwest China Journal of Agricultural Sciences 23(4): 1099-1106.
12700	CHEN, Qiuhong, Gai ZENG, Ming HAO, Haoyu JIANG, and Yinghui XIAO. 2020 Improvement of rice blast and brown planthopper resistance of PTGMS line C815S in two-line hybrid rice through marker-assisted selection. Molecular Breeding 40(2): 21; 1-13. (ePub article#21, 13 pp.) [Nilaparvata lugens]
7552	Zhang, A.H. 2009 Improvement of investigation methods for rice planthopper egg. Jiangsu Agricultural Sciences 2009(1): 132.

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