李国君
-
教授
博士生导师
硕士生导师
- 性别:男
- 毕业院校:中国科学院数学与系统科学研究院
- 学历:研究生(博士后)
- 学位:理学博士学位
- 在职信息:在职
- 所在单位:高等研究院、数学与交叉科学研究中心、非线性期望前沿科学研究中心
- 入职时间: 1996-07-01
- 学科:运筹学与控制论
- 办公地点:山东大学青岛校区、山东大学中心校区
- 联系方式:gjli@sdu.edu.cn
- 电子邮箱:gjli@sdu.edu.cn
访问量:
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[1]
.
iPAC: a genome-guided assembler of isoforms via phasing and combing paths.
Bioinformatics,
36,
2712,
2020.
-
[2]
Liu, X. , Su, Z. and Li*, G..
ARBic: an all-round biclustering algorithm for analyzing gene expression data.
NAR Genomics and Bioinformatics,
To appear,
-
[3]
Ma, H. , Li*, G. and Zhang*, Z..
RNANetMotif: identifying sequence-structure RNA network motifs in RNA-protein binding sites.
Plos Computational Biology,
2022.
-
[4]
Yu, T. , Zhao, X. and Li*, G..
TransMeta simultaneously assembles multi-assemple RNA-seq reads.
Genome Research,
32,
1398-1407,
-
[5]
Han, R. , Li*, G. and Gao*, X..
Robust and ultrafast fiducial marker correspondence in electron tomography by a two-stage algorithm .
Bioinformatics,
37,
107,
2021.
-
[6]
Liu, X. , Li, D. , Liu, J. , Su, Z. and Li*, G..
RecBic: a fast and accurate algorithm recognizing trend-preserving biclusters.
Bioinformatics,
2020.
-
[7]
Liu†, J. , Yu†, T. , Gao*, X. and Li*, G..
iPAC: a genome-guided assembler of isoforms via phasing and combing paths.
Bioinformatics,
36,
2712-2717,
2020.
-
[8]
Liu, J. , Ren, X. and Li*, G..
scRNAss: a single-cell RNA-seq assembler via imputing dropouts and combing junctions.
Bioinformatics,
35,
4264,
2019.
-
[9]
Li, Y. , Ni, P. , Zhang, S. , Li*, G. and Su*, Z..
ProSampler: an ultrafast and accurate motif finder in large ChIP-seq datasets for combinatory motif .
Bioinformatics,
35,
4632-4639,
2019.
-
[10]
Liu, J. , Yu, T. and Li*, G..
TransLiG: a de novo transcriptome assembler that uses line graph iteration.
Genome Biology,
20,
2019.
-
[11]
Gao, B. , Liu, J. , Li, Y. , Zhao, Y. , Li*, G. and Su*, Z..
Prediction of driver modules via balancing exclusive coverages of mutations in cancer samples.
Advanced Science,
6,
2018.
-
[12]
Hou, Y. , Gao, B. , Li*, G. and Su*, Z.
MaxMIF: a new method for identifying cancer driver genes through effective data integration.
Advanced Science,
5,
2018.
-
[13]
Yu†, T. , Liu†, J. , Jiang, T. and Li†,*, G..
TransComb: genome-guided transcriptome assembly via combing junctions in splicing graphs.
Genome Biology,
17,
2016.
-
[14]
Liu†, J. , Li†,*, G. , McMullen, M. , Liu, B. , Gao, B. and Huang*, X..
BinPacker: Packing-Based De Novo Transcriptome Assembly from RNA-seq Data.
Plos Computational Biology,
12,
2016.
-
[15]
Li†,*, G. , Chang†, Z. and Huang*, X..
Bridger: a new framework for de novo transcriptome assembly using RNA-seq data.
Genome Biology,
16,
2015.
-
[16]
Yu, X. , Li*, G. and Chen*, L..
Prediction and early diagnosis of complex diseases by edge-network.
Bioinformatics,
30,
852,
2014.
-
[17]
Liu, B. , Ma, Q. , Zhou, C. , Yin, Y. , Li, G. and Xu, Y..
An integrated toolkit for accurate prediction and analysis of cis-regulatory motifs at a genome scal.
Bioinformatics,
29,
2261,
2013.
-
[18]
Ma, Q. , Yin, Y. , Zhang, H. , Schell, M. , Li, G. and Xu, Y..
Elucidation of the dynamic supercoil structures of folded E. coli chromosome: a computational approa.
Nucleic Acids Research,
41,
5594-5603,
2013.
-
[19]
Ma†, Q. , Li†, G. , Mao, X. , Yin, Y. and Xu, Y..
Integration of Sequence-Similarity and Functional Association Information Can Overcome Intrinsic Pro.
Nucleic Acids Research,
39,
2011.
-
[20]
Ma†, Q. , Liu†, B. , Li†, G. and Xu, Y..
A New Framework for Identifying cis Regulatory Motifs in Prokaryotes.
Nucleic acids research,
39,
2011.