Results 371 to 380 of about 5,677,108 (410)

Epigenetics in the plant–virus interaction

Plant Cell Reports, 2019
Plants have developed diverse molecular mechanisms to resist viruses. RNA silencing plays a dominant role in antiviral defense. Recent studies have correlated plant antiviral silencing to epigenetic modification in genomic DNA and protein by remodeling the expression levels of coding genes.
Chenguang Wang, Chaonan Wang, Jingze Zou, Yunshu Yang, Zhihong Li, Shuifang Zhu   +5 more
semanticscholar   +4 more sources

Plant Virus-Derived Vectors: Applications in Agricultural and Medical Biotechnology.

Annual Review of Virology, 2020
Major advances in our understanding of plant viral genome expression strategies and the interaction of a virus with its host for replication and movement, induction of disease, and resistance responses have been made through the generation of infectious ...
P. Abrahamian, R. Hammond, J. Hammond
semanticscholar   +1 more source

Autophagy in Plant-Virus Interactions.

Annual Review of Virology, 2020
Autophagy is a conserved vacuole/lysosome-mediated degradation pathway for clearing and recycling cellular components including cytosol, macromolecules, and dysfunctional organelles. In recent years, autophagy has emerged to play important roles in plant-
Meng Yang, Asigul Ismayil, Yule Liu
semanticscholar   +1 more source

Plant–Virus Interactions [PDF]

, 2008
A variety of techniques have been used to examine plant viral genomes, the functions of virus-encoded proteins, plant responses induced by virus infection and plant-virus interactions. This overview considers these technologies and how they have been used to identify novel viral and plant proteins or genes involved in disease and resistance responses ...
Palukaitis, Peter, Carr, John P., Schoelz, James E.   +2 more
openaire   +3 more sources

Plant Viruses of Agricultural Importance: Current and Future Perspectives of Virus Disease Management Strategies.

Phytopathology, 2022
Plant viruses cause significant losses in agricultural crops worldwide, affecting the yield and quality of agricultural products. The emergence of novel viruses or variants through genetic evolution and spillover from reservoir host species, changes in ...
S. Tatineni, G. Hein
semanticscholar   +1 more source

Engineered plant virus resistance

Plant Science, 2014
Virus diseases are among the key limiting factors that cause significant yield loss and continuously threaten crop production. Resistant cultivars coupled with pesticide application are commonly used to circumvent these threats. One of the limitations of the reliance on resistant cultivars is the inevitable breakdown of resistance due to the multitude ...
GALVEZ, Leny C., Pinar, HASAN, BANERJEE, Joydeep, MITRA, Amitava   +3 more
openaire   +4 more sources

Genetics of Plant Virus Resistance [PDF]

Annual Review of Phytopathology, 2005
Genetic resistance to plant viruses has been used for at least 80 years to control agricultural losses to viral diseases. To date, hundreds of naturally occurring genes for resistance to plant viruses have been reported from studies of both monocot and dicot crops, their wild relatives, and the plant model, Arabidopsis.
Molly Jahn, Inhwa Yeam, Byoung-Cheorl Kang   +2 more
openaire   +2 more sources

VIRUS IN WILD PLANTS [PDF]

Canadian Journal of Botany, 1956
An investigation of wild plants indicates that there are very few species which are free from possible virus infection. In comparison with this, most flowering plants growing under the surface of open water show a low but significant amount of virus. The indicated level of virus infection varies throughout each summer and from one summer to the next ...
Marilyn G. Richards, W. D. MacClement
openaire   +1 more source

Recent advances in small RNA mediated plant-virus interactions

Critical Reviews in Biotechnology, 2019
Small RNAs (sRNA) are reported to play pivotal roles in the epigenetic and post-transcriptional regulation of gene expression during growth, development, and stress response in plants.
Ashish Prasad, N. Sharma, M. Muthamilarasan, S. Rana, M. Prasad   +4 more
semanticscholar   +1 more source