Article citationsMore>>
Condon, B.J., Leng, Y., Wu, D., Bushley, K.E., Ohm, R.A., Otillar, R., Martin, J., Schackwitz, W., Grimwood, J., Mohdzainudin, N., Xue, C., Wang, R., Manning, V.A., Dhillon, B., Tu, Z.J., Steffenson, B.J., Salamov, A., Sun, H., Lowry, S., Labutti, K., Han, J., Copeland, A., Lindquist, E., Barry, K., Schmutz, J., Baker, S.E., Ciuffetti, L.M., Grigoriev, I.V., Zhong, S. and Turgeon, B.G. (2013) Comparative Genome Structure, Secondary Metabolite, and Effector Coding Capacity across Cochliobolus Pathogens. PLoS Genetics, 9, e1003233.
https://doi.org/10.1371/journal.pgen.1003233
has been cited by the following article:
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TITLE:
Host-Pathogen Wars: New Weapons from Biotechnology and Genomics
AUTHORS:
Mychele B. da Silva, Richard F. Davis, Andrew H. Paterson, Nelson Dias Suassuna, Shavannor M. Smith, Peng W. Chee
KEYWORDS:
Host-Plant Resistance, R-Genes, Genomics, Crop Improvement
JOURNAL NAME:
American Journal of Plant Sciences,
Vol.10 No.3,
March
11,
2019
ABSTRACT: Pathogens are imminent threats to crop production.
Among the management tools available to protect crops from diseases, the use of
host-plant resistance had been hindered by a lack of tools and resources to
identify resistance genes (R-genes). Genomic technologies have empowered
acquisition of a new level and quality of information on plant-pathogen
interactions. Next generation sequencing, differential transcriptome analysis,
gene editing, and use of bioinformatics have
greatly expanded the numbers of R-genes identified, enriched
understanding of R-avirulence gene interactions, and disease diagnosis. In this
review, we highlight the application of genomic technologies to identification
of pathogen machinery for future improvement of host plant resistance.
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