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Ke Chen
Life Science
University of Chinese Academy of Sciences
Shanghai
Language: Chinese, English, French
Plant Biology
Cell Biology
Molecular Biology
Bioinformatics
Genetics
Genomics
Rna Sequencing
Agrobacterium
Natural Transformation
Evolution
Areas of Focus
- Plant Biology
- Cell and Molecular Biology
- Bioinformatics
Work Experience
- 2021-06~Present - Shanghai Chenshan Botanical Garden - Youth Researcher, Group Leader
- 2016-07~2021-05 - Shanghai Jiao Tong University - Assistant Researcher
- 2012-03~2016-03 - University of Strasbourg - PhD
- 2009-09~2012-03 - Jiangnan University - Master's
- 2005-09~2009-06 - South-Central University for Nationalities - Bachelor's
Academic Background & Achievements
- 2012-03--2016-03 PhD: University of Strasbourg
- 2009-09--2012-03 Master's: Jiangnan University
- 2005-09--2009-06 Bachelor's: South-Central University for Nationalities
Publications
- Extensive natural Agrobacterium-induced transformation in the genus Camellia, Ke Chen, 2023
- scSTAR reveals hidden heterogeneity with a real-virtual cell pair structure across conditions in single-cell RNA sequencing data, Ke Chen, 2023
- Editorial: Rhizobiaceae mediated HGT: Facts, mechanisms, and evolutionary consequences, Ke Chen, 2023
- Conservation of an Agrobacterium cT-DNA insert in Camellia section Thea reveals the ancient origin of tea plants from a genetically modified ancestor, Ke Chen, 2022
- scCODE: an R package for data-specific differentially expressed gene detection on single-cell RNA-sequencing data, Ke Chen, 2022
- Organization of the TC and TE cellular T-DNA regions in Nicotiana otophora and functional analysis of three diverged TE-6b genes, Ke Chen, 2018
- Natural Agrobacterium Transformants: Recent Results and Some Theoretical Considerations, Ke Chen, 2017
- Morphological analysis of the 6b oncogene-induced enation syndrome, Ke Chen, 2016
- Root-specific expression of opine genes and opine accumulation in some cultivars of the naturally occurring genetically modified organism Nicotiana tabacum, Ke Chen, 2016
- Deep sequencing of the ancestral tobacco species Nicotiana tomentosiformis reveals multiple T-DNA inserts and a complex evolutionary history of natural transformation in the genus Nicotiana, Ke Chen, 2014
