| 近年来发表的主要论文(SCI 收录,2012年的影响因子): 1.Chen J, Moreau C, Liu Y, Kawaguchi M, Hofer J, Ellis N, Chen R (2012) Conserved genetic determinant of motor organ identity in Medicagotruncatula and related legumes. ProcNatlAcadSci (PNAS) 109(29):11723-8 (5-Year Impact Factor=10.6) 2. Uppalapati SR, Ishiga Y, Doraiswamy V, Bedair M, Mittal S, Chen J, Nakashima J, Tang Y, Tadege M, Ratet P, Chen R, Schultheiss H, Mysore KS. (2012) Loss of abaxial leaf epicuticular wax in Medicagotruncatula irg1/palm1 mutants results in reduced spore differentiation of anthracnose and nonhost rust pathogens. Plant Cell 1:353-370 (5-Year Impact Factor= 10.224) 3. Chen J*, Yu J*, Ge L*, Wang H*, Berbel A, Liu Y, Chen Y, Li G, Tadege M, Wen J, Cosson V, Mysore KS, Ratet P, Madueno F, Bai G, Chen R (2010) Control of dissected leaf morphology by a Cys(2)His(2) zinc finger transcription factor in the model legume Medicago truncatula.ProcNatlAcadSci (PNAS) 8:107(23):10754-10759 (*equal contribution, a PNAS Direct Submission)(5-Year Impact Factor=10.6) 4. Ge L*, Chen J*, Chen R (2010) Palmate-like pentafoliata1 encodes a novel Cys(2)His(2) zinc finger transcription factor essential for compound leaf morphogenesis in Medicago truncatula.Plant Signal Behav. 5(9):1134-1137. (*equal contribution) 5. Pan J, Fujioka S, Peng J, Chen J, Li G, Chen R. (2009). The E3 Ubiquitin Ligase SCFTIR/AFB and membrane sterols play key roles in auxin regulation of endocytosis, recycling , and plasma membrane accumulation of the auxin efflux transporter PIN2 in Arabidopsis thaliana. Plant Cell 21: 568-580 (5-Year Impact Factor= 10.224) 6. Wang H*, Chen J*, Wen J, Tadege M, Li G, Liu Y, Mysore KS, Ratet P, Chen R (2008) Control of compound leaf development by FLORICAUL/LEAFY ortholog SINGLE LEAFLET1 in Medicagotruncatula. Plant Physiology 146:1759-1772 (*equal contribution)5-Year Impact Factor=7.054) 7. Chen J, Pang J, Wang L, Luo Y, Li X, Cao X, Lin K, Ma W, Hu X, Luo D. (2006). Wrinkled petals and stamens 1, is required for the morphogenesis of petals and stamens in Lotus japonicus. Cell Res 16: 499-506(5-Year Impact Factor=10.216) 8. Feng X, Zhao Z, Tian Z, Xu S, Luo Y, Cai Z, Wang Y, Yang J, Wang Z, Weng L, Chen J, Zheng L, Guo X, Luo J, Sato S, Tabata S, Ma W, Cao X, Hu X, Sun C, Luo D. (2006). Control of petal shape and floral zygomorphy in Lotus japonicus.ProcNatlAcadSci (PNAS)103: 4970-4975(5-Year Impact Factor=10.6) 9. Guo X, Zhao Z, Chen J, Hu X, Luo D. (2006). A putative CENTRORADIALIS/TERMINAL FLOWER 1-like gene, Ljcen1, plays a role in phase transition in Lotus japonicus. J Plant Physiol, 163: 436-44(5-Year Impact Factor=2.960) 10. Luo JH, Yan J, Weng L, Yang J, Zhao Z,Chen J, Hu XH, Luo D. (2005). Different expression patterns of duplicated PHANTASTICA-like genes in Lotus japonicus suggest their divergent functions during compound leaf development. Cell Res 15: 665-770(5-Year Impact Factor=10.216) 11. Wang Z, Chen J, Weng L, Li X, Cao X, Hu X, Luo D, Yang J. (2013) Multiple components are integrated to determine leaf complexity in Lotus japonicas. J IntegrPlant Biol. 55(5): 419-33 (5-Year Impact Factor=2.429) |