Results 1-17 of 17 (Search time: 0.008 seconds).

Issue DateTitleAuthor(s)RelationscopusWOSFulltext/Archive link
12023Targeted Insertion in Nicotiana benthamiana Genomes via Protoplast RegenerationWu, FH; Hsu, CT; Lin, CS Methods in Molecular Biology 2653, 297-315
22022DNA-free CRISPR-Cas9 gene editing of wild tetraploid tomato Solanum peruvianum using protoplast regenerationChoun-Sea Lin ; Chen-Tran Hsu; Yu-Hsuan Yuan; Po-Xing Zheng; Fu-Hui Wu; Qiao-Wei Cheng; Yu-Lin Wu; Ting-Li Wu; Steven Lin ; Jin-Jun Yue; Ying-Huey Cheng; Shu-I Lin; Ming-Che Shih ; Jen Sheen; Yao-Cheng Lin PLANT PHYSIOLOGY 188(4), 1917-1930
32022Application of Protoplast Regeneration to CRISPR/Cas9 Mutagenesis in Nicotiana tabacumWu, FH; Yuan, YH; Hsu, CT; Cheng, QW; Lin, CS Protoplast Technology: Methods and Protocols (Methods in Molecular Biology book series,volume 2464) (New York : Springer)
42021Efficient and Economical Targeted Insertion in Plant Genomes via Protoplast RegenerationHsu, Chen-Tran; Yuan, Yu-Hsuan; Lin, Yao-Cheng ; Lin, Steven ; Cheng, Qiao-Wei; Wu, Fu-Hui; Sheen, Jen; Shih, Ming-Che ; Lin, Choun-Sea The CRISPR Journal 4(5), 752-760
52021Arabidopsis RAB8A, RAB8B and RAB8D Proteins Interact with Several RTNLB Proteins and are Involved in the Agrobacterium tumefaciens Infection ProcessFan-Chen Huang; Shin-Fei Chi; Pei-Ru Chien; Yin-Tzu Liu; Hsin-Nung Chang; Choun-Sea Lin ; Hau-Hsuan HwangPLANT AND CELL PHYSIOLOGY 62(10), 1572-1588
62021Protoplasts: From Isolation to CRISPR/Cas Genome Editing ApplicationYue, Jin-Jun; Yuan, Jin-Ling; Wu, Fu-Hui; Yuan, Yu-Hsuan; Cheng, Qiao-Wei; Hsu, Chen-Tran; Lin, Choun-Sea Frontiers in Genome Editing 3, 1
72021Genome Editing and Protoplast Regeneration to Study Plant–Pathogen Interactions in the Model Plant Nicotiana benthamianaHsu, Chen-Tran; Lee, Wen-Chi; Cheng, Yu-Jung; Yuan, Yu-Hsuan; Wu, Fu-Hui; Lin, Choun-Sea Frontiers in Genome Editing 2, 627803
82020Plastid Transformation: How Does it Work? Can it Be Applied to Crops? What Can it Offer?Yu, Y; Yu, PC; Chang, WJ; Yu, K; Lin, CS International journal of molecular sciences 21(14), 4854
92020High-efficiency CRISPR/Cas-based editing of Phalaenopsis orchid MADS genes.Tong, CG ; Wu, FH; Yuan, YH; Chen, YR; Lin, CS Plant biotechnology journal 18(4), 889-891
102020How to start your monocot CRISPR/Cas project: plasmid design, efficiency detection, and offspring analysisYue, JJ; Hong, CY; Wei, PC; Tsai, YC; Lin, CS RICE 13, 9
112020High-performance FRET biosensors for single-cell and in vivo lead detectionYang, DM; Fu, TF; Lin, CS ; Chiu, TY; Huang, CC; Huang, HY; Chung, MW; Lin, YS; Manurung, RV; Nhi, NPN; Chang, YFBiosensors and Bioelectronics 168, 112571
122019Application of Cas12a and nCas9-activation-induced cytidine deaminase for genome editing and as a non-sexual strategy to generate homozygous/multiplex edited plants in the allotetraploid genome of tobacco.Hsu, CT; Cheng, YJ; Yuan, YH; Hung, WF; Cheng, QW; Wu, FH; Lee, LY; Gelvin, SB; Lin, CS Plant molecular biology 101(4-5), 355-371
132019Genome sequences provide insights into the reticulate origin and unique traits of woody bamboos.Guo, ZH; Ma, PF; Yang, GQ; Hu, JY; Liu, YL; Xia, EH; Zhong, MC; Zhao, L; Sun, GL; Xu, YX; Zhao, YJ; Zhang, YC; Zhang, YX; Zhang, XM; Zhou, MY; Guo, Y; Guo, C; Liu, JX; Ye, XY; Chen, YM; Yang, Y; Han, B; Lin, CS ; Lu, Y; Li, DZMolecular plant in press 12(10), 1353-1365
142019Regulatory cascade involving transcriptional and N-end rule pathways in rice under submergence.Lin, CC; Chao, YT; Chen, WC; Ho, HY; Chou, MY; Li, YR; Wu, YL; Yang, HA; Hsieh, H; Lin, CS ; Wu, FH; Chou, SJ ; Jen, HC; Huang, YH; Irene, D; Wu, WJ ; Wu, JL; Gibbs, DJ; Ho, MC; Shih, MC Proceedings of the National Academy of Sciences of the United States of America 116(8), 3300-3309
152017Two reported cytotypes of the emergent orchid model species Erycina pusilla are two different speciesYeh, Hsuan-Yu; Lin, Choun-Sea ; de Jong, Hans; Chang, Song-BinEuphytica 213, 233-233
162017Flowering of Woody Bamboo in Tissue Culture Systems.Yuan, JL; Yue, JJ; Gu, XP; Lin, CS Frontiers in plant science 8, 1589
172009The Arabidopsis Nitrate Transporter NRT1.7, Expressed in Phloem, Is Responsible for Source-to-Sink Remobilization of NitrateFan, S. -C.; Lin, C. -S. ; Hsu, P. -K.; Lin, S. -H.; Tsay, Y. -F. The Plant Cell 21(9), 2750-2761