C
Chiu-Ping Cheng
Researcher at National Taiwan University
Publications - 27
Citations - 1235
Chiu-Ping Cheng is an academic researcher from National Taiwan University. The author has contributed to research in topics: Ralstonia solanacearum & Arabidopsis. The author has an hindex of 14, co-authored 26 publications receiving 1059 citations. Previous affiliations of Chiu-Ping Cheng include Academia Sinica & Purdue University.
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Transgenic tomato plants expressing the Arabidopsis NPR1 gene display enhanced resistance to a spectrum of fungal and bacterial diseases
Wan-Chi Lin,Ching-Fang Lu,Jia-Wei Wu,Ming-Lung Cheng,Yu-Mei Lin,Ning-Sun Yang,Lowell Black,S. K. Green,Jaw-Fen Wang,Chiu-Ping Cheng +9 more
TL;DR: The potential of using SAR-related genes for the genetic engineering of enhanced resistance to multiple diseases in tomato is explored, and transgenic lines that accumulated higher levels of NPR1 proteins exhibited higher levels and a broader spectrum ofEnhanced resistance to the diseases, and enhanced disease-resistance was stably inherited.
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A tomato bZIP transcription factor, SlAREB, is involved in water deficit and salt stress response
Tsai-Hung Hsieh,Chia Wen Li,Ruey-Chih Su,Chiu-Ping Cheng,Sanjaya,Sanjaya,Yi-Chien Tsai,Ming-Tsair Chan +7 more
TL;DR: Results show that SlAREB functions to regulate some stress-responsive genes and that its overproduction improves plant tolerance to water deficit and salt stress.
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Tomato RAV transcription factor is a pivotal modulator involved in the AP2/EREBP-mediated defense pathway
Chia Wen Li,Ruey-Chih Su,Chiu-Ping Cheng,Sanjaya,Su-Juan You,Tsai-Hung Hsieh,To-Chun Chao,Ming-Tsair Chan +7 more
TL;DR: It is concluded that SlERFs may act as intermediate transcription factors between AtCBF1 and PR genes via SlRAV in tomato, which results in enhanced tolerance to BW.
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Genetically pyramiding protease-inhibitor genes for dual broad-spectrum resistance against insect and phytopathogens in transgenic tobacco.
TL;DR: Stacking protease-inhibitor genes, driven by the wound and pathogen responsive pMSPOA promoter, is an effective strategy for engineering crops to resistance against insects and phytopathogens.
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Virus‐induced gene silencing reveals the involvement of ethylene‐, salicylic acid‐ and mitogen‐activated protein kinase‐related defense pathways in the resistance of tomato to bacterial wilt
TL;DR: This is the first report elucidating the multiple layers of defense governing the resistance of tomato to BW, and it is suggested that ET-, SA- and MAPK-related defense signaling pathways are involved in the resistance in this pathogen.