吉国力教授

文章出处: 作者: 发布时间: 2014-05-14 访问次数: 839

吉国力,Ph.D.

教授,博士生导师

课题组组长

Emailglji@xmu.edu.cn

教育及工作经历:

恢复高考后首届77级大学生,本科和研究生都就读西安交通大学;

1986年至今在厦门大学工作

研究领域

生物信息与生物计算和先进控制理论与应用方面开展大量合作研究

代表性论文:

1. Thomas, P. E., Wu, X.,   Liu, M., Gaffney, B., Ji, G., Li,   Q. Q., & Hunt, A. G. 2012. Genome-Wide Control of Polyadenylation Site   Choice by CPSF30 in Arabidopsis. Plant Cell, 24(11): 4376-4388.   (SCI, 2011IF=8.987)

2. Li, H., Ye, C., Ji, G., Wu, X., Xiang, Z., Li, Y.,   Cao, Y., Liu, X., Douek, D. C., Price, D. A., & Han, J. 2012a.   Recombinatorial Biases and Convergent Recombination Determine Interindividual   TCRβ Sharing in Murine Thymocytes. Journal of Immunology, 189(5):   2404-2413. (SCI, 2011IF=5.788)

3. Li, P., Ji, G. L., Dong, M., Schmidt, E.,   Lenox, D., Chen, L. L., Liu, Q., Liu, L., Zhang, J., & Liang, C. 2012c.   CBrowse: a SAM/BAM-based contig browser for transcriptome assembly   visualization and analysis. Bioinformatics, 28(18): 2382-2384.   (SCI, 2011IF=5.468)

4. Li, H. J., Ye, C. T., Ji, G. L., & Han, J. H. 2012b.   Determinants of public T cell responses. Cell Research, 22(1): 33-42. (SCI,   2010IF=9.417)

5. Shen, Y. J., Venu, R. C.,   Nobuta, K., Wu, X. H., Notibala, V., Demirci, C., Meyers, B. C., Wang, G. L.,   Ji, G. L., & Li, Q. S. Q.   2011. Transcriptome dynamics through alternative polyadenylation in   developmental and environmental responses in plants revealed by deep   sequencing. Genome Research, 21(9): 1478-1486. (SCI, 2010IF=13.588)

6. Wu, X. H., Liu, M.,   Downie, B., Liang, C., Ji, G. L.,   Li, Q. Q., & Hunt, A. G. 2011. Genome-wide landscape of polyadenylation   in Arabidopsis provides evidence for extensive alternative polyadenylation. Proceedings   of the National Academy of Sciences of the United States of America,   108(30): 12533-12538. (SCI, 2010IF=9.771)

7. Zheng, J., Xing, D., Wu,   X., Shen, Y., Kroll, D. M., Ji, G.,   & Li, Q. Q. 2011. Ratio-Based Analysis of Differential mRNA Processing   and Expression of a Polyadenylation Factor Mutant   <italic>pcfs4</italic> Using Arabidopsis Tiling Microarray. PLoS   ONE, 6(2): e14719. (SCI, 2009IF=4.351)

8. Liang, C., Liu, L., &   Ji, G. L. 2009. WebGMAP: a web   service for mapping and aligning cDNA sequences to genomes. Nucleic   Acids Research, 37: W77-W83. (SCI, 2007IF=6.954)

9. Shen, Y. J., Ji, G. L., Haas, B. J., Wu, X. H.,   Zheng, J. T., Reese, G. J., & Li, Q. Q. 2008. Genome level analysis of   rice mRNA 3'-end processing signals and alternative polyadenylation. Nucleic   Acids Research, 36(9): 3150-3161. (SCI, 2006IF=6.954)

10. Liang, C., Wang, G.,   Liu, L., Ji, G. L., Fang, L., Liu,   Y. S., Carter, K., Webb, J. S., & Dean, J. F. D. 2007b. ConiferEST: an   integrated bioinformatics system for data reprocessing and mining of conifer   expressed sequence tags (ESTs). BMC Genomics, 8. (SCI,   2009IF=4.03)

11. Liang, C., Wang, G.,   Liu, L., Ji, G. L., Liu, Y. S.,   Chen, J. Q., Webb, J. S., Reese, G., & Dean, J. F. D. 2007a. WebTraceMiner:   a web service for processing and mining EST sequence trace files. Nucleic   Acids Research, 35: W137-W142. (SCI, 2005IF=7.552)

12. Ji, G. L., Zheng, J. T., Shen, Y. J., Wu, X. H., Jiang, R. H.,   Lin, Y., Loke, J. C., Davis, K. M., Reese, G. J., & Li, Q. S. Q. 2007b.   Predictive modeling of plant messenger RNA polyadenylation sites. BMC   Bioinformatics, 8. (SCI, 2005IF=4.96)