近年来发表论文:
1. Shao JP*, Chen DY*, Ye QJ, Cui JL, Li YH, Li L. Tissue regeneration after injury in adult zebrafish: The regenerative potential of the caudal fin. Dev Dyn, 2011; Accepted. (* co-first authors).
2. Yao Y, Feng DF, Wu YP, Ye QJ, Li XX, Hou S, Yang YL, Wang C*, Li L*, Feng XZ*. Influence of block sequences in polymer vectors for gene transfection in vitro and toxicity assessment of zebrafish embryos in vivo. Journal of Material Chemistry, 2011; Accepted. (* co-corresponding authors).
3. Wang XK, Huang L, Ray J, Li L. Characterization of GFP-tagged GnRH containing terminalis neurons in transgenic zebrafish. J Cell Physiol, 2011; 226, 608-615. (Journal Highlight).
4. Huang L, Li L. Characterization of voltage-activated sodium and potassium currents in zebrafish terminalis neurons. Brain Res, 2011; 1367, 43-49.
5. Li L, Li Y, Chen D, Shao J, Li X, Xu C, Fishing for Age-Related Visual System Mutants: Behavioral Screening of Retinal Degeneration Genes in Zebrafish. Current Aging Science, 2010; 3: 43-45.
6. Li P, Chaurasia SS, Gao Y, Carr AL, Iuvone PM, Li L, CLOCK is required for maintaining the circadian rhythms of opsin mRNA expression in photoreceptor cells. J Biol Chem, 2008; 283: 31673-31678.
7. Li P, Shah S., Huang L, Carr, A.L., Gao, Y., Thisse, C., Thisse, B., Li L, Cloning and spatial and temporal expression of zebrafish dopamine D1 receptor. Dev Dyn, 2007; 236: 1339-1246. (Insert Artpit).
8. Yu CJ, Gao Y, Li, P. Li L, Synchronizing multiphasic circadian rhythms of rhodopsin promoter expression in rod photoreceptor cells. J Exp Biol, 2007; 210: 676-684.
9. Yu, CJ, Gao Y, Willis CL, Li P, Tiano JP, Nakamura PA, Hyde, DR, Li L, MAPK- and PKA-dependent regulation of rhodopsin promoter expression in zebrafish rod photoreceptor cells. J Neurosci Res, 2007; 85: 488-496. (Cover Photo).
10. Huang L, Li L, Differential expression of voltage- activated calcium currents in zebrafish retinal ganglion cells. J Neurosci Res, 2006; 84: 497-504.
11. Li L, Maaswinkel H. Visual sensitivity and signaling processing in teleosts. In: Sensory System Neuroscience (TJ Hara and BS Zielinski). 2006; 25: 179-241. Review.
12. Huang L, Maaswinkel H, Li L, Olfactoretinal centrifugal input modulates zebrafish retinal ganglion cell activity: A possible role for dopamine-mediated Ca2+ signaling pathways. J Physiol (Lond), 2005; 569: 939-948.
13. Yu CJ, Li L, Dopamine modulates voltage-activated potassium currents in zebrafish retinal ON bipolar cells. J Neurosci Res, 2005; 82: 368-376.
14. Maaswinkel H, Riesbeck LE, Riley ME, Carr AL, Mullin JP, Nakamoto A, Li L, Behavioral screening of night blindness mutants in zebrafish reveals three new loci that cause dominant photoreceptor cell degeneration. Mech Age Dev, 2005; 126: 1079-1089.
15. Gao Y, Li P, Li L, Transgenic zebrafish that express TH promoter in inner retinal cells. Dev Dyn, 2005; 233: 921-929.
16. Li P, Temple S, Gao Y, Haimberger TJ, Hawryshyn CW, Li L, Circadian rhythms of behavioral cone sensitivity and long wavelength opsin mRNA expression: A correlation study in zebrafish. J Exp Biol, 2005; 208: 497-504.
17. Ren JQ, Li L, A circadian clock regulates the process of ERG b- and d-wave dominance transition in dark-adapted zebrafish. Vision Res, 2004; 44: 2147-2152.
18. Puppala D, Maaswinkel H, Mason B, Legan SJ, Li L, An in vivo microdialysis study of light/dark-modulation of vitreal dopamine release in zebrafish. J Neurocytol, 2004; 33: 193-201.
19. Ren JQ, Li L, Rod and cone signaling transmission in the retina of zebrafish: An ERG study. Intl J Neurosci, 2004; 114: 259-270.
20. Maaswinkel H, Mason B, Li L, ENU-induced late onset night blindness associated with rod photoreceptor cell degeneration in zebrafish. Mech Age Dev, 2003;124: 1065-1071.
21. Maaswinkel H, Ren JQ, Li L, Slow-progressing photoreceptor cell degeneration in night blindness c mutant zebrafish. J Neurocytol, 2003; 32: 1107-1116.
22. Maaswinkel H, Li L, Spatio-temporal frequency characteristics of the optomotor response in zebrafish. Vision Res, 2003; 43: 21-30.
23. Maaswinkel H, Li L, Olfactory input increases visual sensitivity in zebrafish: A possible function for the terminal nerve and dopaminergic interplexiform cells. J Exp Biol, 2003; 206: 2201-2209.
24. Ren JQ, McCarthy WR, Zhang H, Adolph AR, Li L, Behavioral visual responses of wild-type and hypopigmented zebrafish. Vision Res, 2002; 42: 293-299.
25. Li L. Zebrafish mutants: Behavioral genetic studies of visual system defects. Dev Dyn, 2001; 221, 365-372.Review.
26. Li L. Genetic and epigenetic analysis of visual system functions of zebrafish. Prog Brain Res, 2001; 131, 555-563.Review.
27. Li L, Dowling JE, Disruption of the olfactoretinal centrifugal pathway may relate to the visual system defect in night blindness b mutant zebrafish. J Neurosci, 2000; 20: 1883-1892.
28. Li L, Dowling JE, Effects of dopamine depletion on visual sensitivity of zebrafish. J Neurosci, 2000; 20: 1893-1903.
29. Li L, Dowling JE, Zebrafish visual sensitivity is regulated by a circadian clock. Visual Neurosci, 1998; 15: 851-857. (Cover Photo).
30. Li L, Dowling JE, A dominant form of inherited retinal degeneration caused by a non-photoreceptor cell-specific mutation. Proc Natl Acad Sci USA, 1997; 94: 11645-11650.