代表论著
1. Guo, X.J., Yu, Q.Q., Chen, D.F., Wei, J.N., Yang, P.C., Yu, J., Wang*, X.H., and Kang*, L. 2020. 4-Vinylanisole is an aggregation pheromone in locusts. Nature, https:// doi.org/10.1038/s41586-020-2610-4. [PDF]
2. Tong, X.W., Wang, Y.D., Yang P.C., Wang, C.S., and Kang*, L. 2020. Tryptamine accumulation caused by deletion of MrMao-1 in Metarhizum genome significantly enhances insecticidal virulence. PLoS Genetics, 16(4): e1008675.[PDF]
3. Zhang, X., Xu, Y.N., Chen, B., Kang*, L. 2020. Long noncoding RNA PAHAL modulates locust behavioral plasticity through the feedback regulation of dopamine biosynthesis. PLoS Genetics, 16(4): e1008771.[PDF]
4. Guo, W., Juan Song, J., Yang, P.C., Chen, X.Y., Chen, D.F., Ren, D.N., Kang*, L., Wang, X.H., 2020. Juvenile hormone suppresses aggregation behavior through influencing antennal gene expression in locusts. PLoS Genetics, 16(4): e1008762.[PDF]
5. Yang, M.L., Wang, Y.L., Liu, Q., Liu, Z.K., Jiang, F., Wang, H.M., Guo, X.J., Zhang*, J.Z., and Kang*, L. 2018. A β-carotene-binding protein carrying a red pigment regulates body-color transition between green and black in locusts. eLife, 7:e41362.[PDF]
6. Wei, J.N., Shao, W.B., Cao, M.M., Ge, J., Yang, P.C., Chen, L., Wang, X.H., Kang*, L. 2019. Phenylacetonitrile in locusts facilitates an antipredator defense by acting as an olfactory aposematic signal and cyanide precursor. Science Advances, 5(1): 1-13. [PDF].
7. Guo, X.J., Ma, Z.Y., Du, B.Z., Li, T., Li, W.D., Xu, L.L., He, J., and Kang*, L. 2018. Dop1 enhances conspecific olfactory attraction by inhibiting miR-9a maturation in locusts. Nature Communications, 9(1): 1193.[PDF]
8. Ding, D., Liu, G.J., Hou, L., Gui, W.Y., Chen*, B., and Kang*, L. 2018. Genetic variation in PTPN1 contributes to metabolic adaptation to high-altitude hypoxia in Tibetan migratory locusts. Nature Communications. 9(1):p.4991. [PDF]
9. Hou L., Yang P.C., Jiang F., Liu Q. Wang X.H., Kang L. 2017. The neuropeptide F/nitric oxide pathway is essential for shaping locomotor plasticity underlying locust phase transition. eLife, DOI:10.7554/eLife.22526 [PDF]
10. Chen B., Zhang B., Xu L.L., Li Q., Jiang F., Yang P.C., Xu Y.N., Kang L., 2017. Transposable Element-Mediated Balancing Selection at Hsp90 Underlies Embryo Developmental Variation. Molecular Biology and Evolution. doi:10.1093/molbev/msx062 [PDF]
11. Jiang F., Liu Q., Wang Y.L., Zhang J., Wang H.M., Song T.Q., Yang M.L., Wang X.H., Kang L. 2017. Comparative genomic analysis of SET-domain family reveals the origin, expansion, and putative function of the arthropod-specific SmydA genes as histone modifiers in insects. GigaScience, DOI: 10.1093/gigascience/gix031 [PDF]
12. He, J., Chen, Q.Q., Wei, Y.Y., Jiang, F., Yang, M.L., Hao, S.G., Guo, X.J., Chen, D.F., Kang, L. 2016. MicroRNA-276 promotes egg hat ching synchrony by upregulating brm in locusts. Proceeding of the National Academy of Sciences of the USA, 113:584-589. [PDF]
13. Yang M.L., Wang Y.L., Jiang F., Song T.Q., Wang H.M., Liu Q, Zhang J., Zhang J.Z., Kang L., 2016. miR-71 and miR-263 Jointly Regulate Target Genes Chitin synthase and Chitinase to Control Locust Molting. PLoS Genetics 12:e1006257. [PDF]
14. Wang,X.H., Kang,L. 2014.Molecular mechanisms of phase change in locusts. Annual Review of Entomology, 59:225-43. [PDF]
15. Wang, X.H., Fang, X.D., Yang, P.C., Jiang, X.T., Jiang, F.,….. Kang, L., 2014. Locust genome sequence provides insight into swarm formation and long-distance flight. Nature Communications, 10.1038/ncomms3957. [PDF]
16. Yang, M.L., Wei, Y.Y., Jiang, F., Wang, Y.L., Guo, X.J., He, J., Kang, L. 2014. MicroRNA-133 Inhibits Behavioral Aggregation by Controlling Dopamine Synthesis in Locusts. PLoS Genetics,10(2): e1004206. doi:10.1371/journal.pgen.1004206 [PDF]
17. Wang, Y.D., Yang, P.C., Cui, F., Kang, L. 2013. Altered Immunity in Crowded Locust Reduced Fungal (Metarhizium anisopliae) Pathogenesis. PLoS Pathogens, DOI:10.1371/journal.ppat.1003102. [PDF]
18. Wei, J.N, Yang, L.H, Ren, Q, Li, CY, Ge, F., Kang, L.2013. Antagonism between plant odors and trichomes affects tritrophic interactions. Plant Cell & Environment, 36, 315-327. [PDF]
19. Cease, AJ, Elser, JJ, Ford, CF, Hao, S., Kang, L, Harrison*, JF. 2012. Heavy livestock grazing promotes locust outbreaks by lowering plant nitrogen content. Science, 335, 467-469. [PDF]
20. Wu, R., Wu, Z.M., Wang, X.H., Yang, P.C., Yu, D., Zhao, C.X., Xu, G.W., and Kang, L. 2012. Metabolomic analysis reveals that carnitines are key regulatory metabolites in phase transition of the locusts. Proceedings of National Academy of Sciences(USA), 109, 3259-3263. [PDF]
21. Ma, ZY, Guo, XJ, Guo, W, Wang, XH, Kang, L. 2011. Modulation of behavioral phase changes of the migratory locust by the catecholamine metabolic pathway. Proceedings of National Academy of Sciences (USA), 108: 3882-3887. [PDF]
22. Guo, W, Wang, XH, Ma, Z.Y., Xue, L., Han, J.Y., Yu, D., and Kang, L. 2011. CSP and takeout genes modulate the switch between attraction and repulsion during behavioral phase change in the migratory locust. PLoS Genetics, 7(2): e1001291, 1-13. [PDF]
23. Wei, J.N., Wang, L.Z., Zhao, J.H., Li, C.Y., Ge, F. and Kang, L., 2011. Ecological trade-offs between jasmonic acid-dependent direct and indirect plant defences in tritrophic interactions. New phytologist, 189: 557–567. [PDF]
24. Zhang, Y., Wang, X.H., and Kang, L., 2011. A k-mer scheme to predict piRNAs and characterize locust piRNAs. Bioinformatics, 27(6)771–776. [PDF]
25. Kang, L., Chen, B., Wei, J.N. and Liu, T.X., 2009. Roles of Thermal Adaptation and Chemical Ecology in Liriomyza Distribution and Control. Annual Review of Entomology, 54:127-145. [PDF]
26. Wei, Y.Y., Chen, S., Yang P.C., Kang, L., 2009. Characterization and transcriptomes of small RNAs in two phases of locust. Genome Biology, 10:R6l (doi:10.1186/gb-2009-10-1-r6). [PDF]
27. Kang, L., Han, X.G., Zhang, Z.B. and Sun, O. J., 2007, Grassland ecosystems in China: Review of current knowledge and research advancement. Philos. Trans. Roy. Soc., 362:997-1008. [PDF]
28. Kang, L., Chen, X.Y., Zhou, Y., Zheng, W., Li R.Q., Wang, J. and Yu, J. 2004. The analysis of large-scale gene expression correlated to the phase changes of the migratory locust.Proceeding of the National Academy of Sciences of the USA, 101: 17611-17615. [PDF]
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