Results 61 to 70 of about 1,416,680 (355)

The rhg1‐a (Rhg1 low‐copy) nematode resistance source harbors a copia‐family retrotransposon within the Rhg1‐encoded α‐SNAP gene

Plant Direct, 2019
Soybean growers widely use the Resistance to Heterodera glycines 1 (Rhg1) locus to reduce yield losses caused by soybean cyst nematode (SCN). Rhg1 is a tandemly repeated four gene block.
Adam M. Bayless, Ryan W. Zapotocny, Shaojie Han, Derrick J. Grunwald, Kaela K. Amundson, Andrew F. Bent   +5 more
doaj   +1 more source

Molecular Properties of the Xanthomonas AvrRxv Effector and Global Transcriptional Changes Determined by Its Expression in Resistant Tomato Plants

Molecular Plant-Microbe Interactions, 2005
The Xanthomonas campestris pv. vesicatoria avirulence gene avrRxv specifies resistance on the tomato line Hawaii 7998 by interacting with three nondominant plant resistance genes.
Arale Bonshtien, Atar Lev, Avi Gibly, Paul Debbie, Adi Avni, Guido Sessa   +5 more
doaj   +1 more source

Microbiome-mediated plant disease resistance: recent advances and future directions

Journal of General Plant Pathology
Plant pathogens cause plant diseases that significantly decrease crop yields, posing a serious threat to global food security. While plant disease resistance has traditionally been understood as the trait determined by the plant innate immune system and ...
Yulin Du, Xiaowei Han, Kenichi Tsuda
semanticscholar   +1 more source

Botrytis cinerea tolerates phytoalexins produced by Solanaceae and Fabaceae plants through an efflux transporter BcatrB and metabolizing enzymes

Frontiers in Plant Science, 2023
Botrytis cinerea, a plant pathogenic fungus with a wide host range, has reduced sensitivity to fungicides as well as phytoalexins, threatening cultivation of economically important fruits and vegetable crops worldwide. B.
Abriel Salaria Bulasag, Abriel Salaria Bulasag, Maurizio Camagna, Teruhiko Kuroyanagi, Akira Ashida, Kento Ito, Aiko Tanaka, Ikuo Sato, Sotaro Chiba, Makoto Ojika, Daigo Takemoto   +10 more
doaj   +1 more source

Chitin signaling and plant disease resistance [PDF]

Plant Signaling & Behavior, 2008
Chitin, a polymer of N-acetyl-D-glucosamine, is a component of the fungal cell wall and is not found in plants. Plant cells are equipped with chitin degrading enzymes to digest fungal cell walls and are capable of perceiving chitin fragments (chitooligosaccharides) released from fungal cell walls during fungal infection.
Jinrong, Wan, Xue-Cheng, Zhang, Gary, Stacey   +2 more
openaire   +2 more sources

Conjoint Analysis of Genome-Wide lncRNA and mRNA Expression during the Salicylic Acid Response in Populus × euramericana

Plants, 2023
Long noncoding RNAs (lncRNAs) participate in a wide range of biological processes, but lncRNAs in plants remain largely unknown; in particular, we lack a systematic identification of plant lncRNAs involved in hormone responses.
Chao Zhang, Yan Dong, Yachao Ren, Shijie Wang, Minsheng Yang   +4 more
doaj   +1 more source

New reference genome sequences of hot pepper reveal the massive evolution of plant disease-resistance genes by retroduplication

Genome Biology, 2017
BackgroundTransposable elements are major evolutionary forces which can cause new genome structure and species diversification. The role of transposable elements in the expansion of nucleotide-binding and leucine-rich-repeat proteins (NLRs), the major ...
Seungill Kim, Jieun Park, Seon-In Yeom, Yong-Min Kim, Eunyoung Seo, Ki-Tae Kim, Myung-Shin Kim, Je Min Lee, Kyeong-Chae Cheong, Hosub Shin, Saet-Byul Kim, Koeun Han, Jundae Lee, Minkyu Park, Hyun-Ah Lee, Hye-Young Lee, Youngsill Lee, Soohyun Oh, Joo Hyun Lee, Eunhye Choi, Eunbi Choi, So Eui Lee, Jongbum Jeon, Hyunbin Kim, Gobong Choi, Hyeunjeong Song, Junki Lee, Sang-Choon Lee, Jin-Kyung Kwon, HeaGie Lee, Namjin Koo, Yunji Hong, Ryan W. Kim, W. Kang, J. Huh, B. Kang, Tae-Jin Yang, Yong-Hwan Lee, J. Bennetzen, D. Choi   +39 more
semanticscholar   +1 more source

Application of genomics tools for cacao disease resistance : S04T07 [PDF]

, 2013
Biotic plant problems are caused by living organisms, such as fungi, bacteria, viruses, nematodes, insects, mites, and animals. Plant responses to different stresses are highly complex and involve changes at the transcriptome, cellular, and physiological
Clément, Didier, Ganem, Rodrigo Sousa, Gomes, L.I.S., Gramacho, Karina Peres, Lemos, L.S.L., Lopes, Uilson Vanderlei, Pires, José Luis, Santos, Rogério M.F.   +7 more
core  

uORF-mediated translation allows engineered plant disease resistance without fitness costs

Nature, 2017
Controlling plant disease has been a struggle for humankind since the advent of agriculture. Studies of plant immune mechanisms have led to strategies of engineering resistant crops through ectopic transcription of plants’ own defence genes, such as the ...
Guoyong Xu, M. Yuan, Chaoren Ai, Lijing Liu, Edward Zhuang, S. Karapetyan, Shiping Wang, Xinnian Dong   +7 more
semanticscholar   +1 more source

MicroRNA482/2118, a miRNA superfamily essential for both disease resistance and plant development.

New Phytologist, 2021
MicroRNAs (miRNAs) are a class of 21-24 nucleotides (nt) non-coding small RNAs ubiquitously distributed across the plant kingdom. miR482/2118, one of the conserved miRNA superfamilies originating from gymnosperms, has divergent main functions in core ...
Yanqing Zhang, M. Waseem, Zaohai Zeng, Jing Xu, Chengjie Chen, Yuanlong Liu, J. Zhai, Rui Xia   +7 more
semanticscholar   +1 more source