Root-hair endophyte stacking in finger millet creates a physicochemical barrier to trap the fungal pathogen Fusarium graminearum
- W. MousaC. ShearerV. Limay-RiosC. EttingerJ. EisenM. Raizada
- 26 September 2016
Biology, Environmental Science
The discovery of a novel plant defence mechanism resulting from an unusual symbiosis between finger millet and a root-inhabiting bacterial endophyte, M6, and the end result of this remarkable symbiosis is reduced deoxynivalenol mycotoxin, potentially benefiting millions of subsistence farmers and livestock.
Bacterial endophytes from wild maize suppress Fusarium graminearum in modern maize and inhibit mycotoxin accumulation
- W. MousaC. ShearerV. Limay-RiosTing ZhouM. Raizada
- 6 October 2015
Environmental Science, Biology
The results suggest that the wild relatives of modern crops may serve as a valuable reservoir for endophytes in the ongoing fight against serious threats to modern agriculture.
Growth in Turface® clay permits root hair phenotyping along the entire crown root in cereal crops and demonstrates that root hair growth can extend well beyond the root hair zone
- T. GoronSophia WattsC. ShearerM. Raizada
- 12 April 2015
Agricultural and Food Sciences, Environmental Science
It is suggested that the Turface® fertigation system may permit a better understanding of the changing dynamics of root hairs as they age in large plants, and may facilitate new avenues for crop improvement below ground.
Transmitting silks of maize have a complex and dynamic microbiome
- E. KhalafA. Shrestha M. Raizada
- 24 June 2021
Environmental Science, Biology
This study establishes the maize silk as a model for fundamental/applied research of plant reproductive microbiomes and reports that maize silks possess complex and dynamic microbiomes at the critical pollen-fungal transmission interval (henceforth: transmitting style microbiome, TSM).
Title Root-hair endophyte stacking in finger millet creates a physicochemical barrier to trap the fungal pathogen Fusarium graminearum Permalink
- W. MousaC. ShearerV. Limay-RiosC. EttingerJ. EisenM. Raizada
- 2016
Environmental Science, Biology
Merging genome mining with ancient three-way species co-evolution may open a novel gate for informative natural products discovery
- W. MousaC. ShearerC. EttingerJ. EisenM. Raizada
- 25 June 2015
Biology, Environmental Science
Root hair-endophyte stacking (RHESt) in an ancient Afro-Indian crop creates an unusual physico-chemical barrier to trap pathogen(s)
- W. MousaC. ShearerV. Limay-RiosC. EttingerJ. EisenM. Raizada
- 25 August 2016
Agricultural and Food Sciences, Biology
The discovery of a novel plant defence mechanism, resulting from an unusual symbiosis between finger millet and a root-inhabiting bacterial endophyte, M6, demonstrates the value of exploring ancient, orphan crop microbiomes.
Growth in Turface clay permits root hair phenotyping along the entire crown root in cereal and demonstrates that root hair growth can extend well beyond the root hair zone Final tech report Annex 10
- T. GoronSophia WattsC. ShearerM. Raizada
- 1 April 2015
Environmental Science, Agricultural and Food Sciences
This research was supported by grants from CIFSRF to MNR from the International Development Research Centre (IDRC, Ottawa) and the Canadian Department of Foreign Affairs Trade and Development (DFATD).
Unusual natural products mediated root hairs-endophyte stacking (RHESt) that traps and kills pathogens
- W. MousaC. ShearerC. EttingerJ. EisenM. Raizada
- 1 December 2016
Biology, Chemistry
Final technical report - Annex 5 - Root hair endophytes in finger millet
- W. MousaC. ShearerV. Limay-RiosC. EttingerJ. EisenM. Raizada
- 1 August 2016
Agricultural and Food Sciences
WKM was supported by generous scholarships from the Government of Egypt and the University of Guelph (International Graduate Student Scholarships, 2012, 2014). This research was supported by grants…
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