J
John Cook Data-verified
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
unknown
2 h-index
3 pubs
46 cited
Research Areas
Links
Biography and Research Information
OverviewAI-generated summary
John Cook investigates the molecular mechanisms by which plant growth-promoting bacteria influence plant development and stress responses. His recent work has focused on the interaction between *Azospirillum brasilense* and rice, examining how this bacterium enhances plant growth and resilience under salt stress. Cook's research utilizes transcriptomic analysis to identify key genes regulated by these microbial interactions, including those involved in salt stress signaling and nutrient transport. He has also explored the transcriptomic responses in rice roots during interactions with *Burkholderia unamae*. Cook has published three papers with a total of 42 citations and an h-index of 2. He collaborates with researchers from the University of Arkansas for Medical Sciences and the University of Central Arkansas.
Metrics
- h-index: 2
- Publications: 3
- Citations: 46
Selected Publications
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Azospirillum brasilense improves rice growth under salt stress by regulating the expression of key genes involved in salt stress response, abscisic acid signaling, and nutrient transport, among others (2023)
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Investigating the transcriptomic responses in rice roots during interactions with plant growth‐promoting bacteria, <i>Burkholderia unamae</i> (2022)
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The plant growth-promoting bacteria, Azospirillum brasilense, induce a diverse array of genes in rice shoots and promote their growth (2022)
Collaboration Network
Top Collaborators
Yasir Rahmatallah
University of Arkansas for Medical Sciences
3 shared publications
In database
- The plant growth-promoting bacteria, Azospirillum brasilense, induce a diverse array of genes in rice shoots and promote their growth
- Azospirillum brasilense improves rice growth under salt stress by regulating the expression of key genes involved in salt stress response, abscisic acid signaling, and nutrient transport, among others
- Investigating the transcriptomic responses in rice roots during interactions with plant growth‐promoting bacteria, <i>Burkholderia unamae</i>
Arijit Mukherjee
Conway School of Landscape Design (US)
3 shared publications
- The plant growth-promoting bacteria, Azospirillum brasilense, induce a diverse array of genes in rice shoots and promote their growth
- Azospirillum brasilense improves rice growth under salt stress by regulating the expression of key genes involved in salt stress response, abscisic acid signaling, and nutrient transport, among others
- Investigating the transcriptomic responses in rice roots during interactions with plant growth‐promoting bacteria, <i>Burkholderia unamae</i>
Zachariah Degon
Conway School of Landscape Design
2 shared publications
In database
- The plant growth-promoting bacteria, Azospirillum brasilense, induce a diverse array of genes in rice shoots and promote their growth
- Azospirillum brasilense improves rice growth under salt stress by regulating the expression of key genes involved in salt stress response, abscisic acid signaling, and nutrient transport, among others
Galina Glazko
University of Arkansas for Medical Sciences
2 shared publications
In database
- Azospirillum brasilense improves rice growth under salt stress by regulating the expression of key genes involved in salt stress response, abscisic acid signaling, and nutrient transport, among others
- Investigating the transcriptomic responses in rice roots during interactions with plant growth‐promoting bacteria, <i>Burkholderia unamae</i>
Devyn Ruiz
University of Central Arkansas
1 shared publication
In database
- The plant growth-promoting bacteria, Azospirillum brasilense, induce a diverse array of genes in rice shoots and promote their growth
John Pope
University of Central Arkansas (US)
1 shared publication
- The plant growth-promoting bacteria, Azospirillum brasilense, induce a diverse array of genes in rice shoots and promote their growth
QinQing Yang
University of Central Arkansas
1 shared publication
In database
- Investigating the transcriptomic responses in rice roots during interactions with plant growth‐promoting bacteria, <i>Burkholderia unamae</i>
Seth Dixon
Conway School of Landscape Design
1 shared publication
In database
- Azospirillum brasilense improves rice growth under salt stress by regulating the expression of key genes involved in salt stress response, abscisic acid signaling, and nutrient transport, among others
M J Galloway
University of Central Arkansas (US)
1 shared publication
- Azospirillum brasilense improves rice growth under salt stress by regulating the expression of key genes involved in salt stress response, abscisic acid signaling, and nutrient transport, among others
Sophia Gulutzo
Conway School of Landscape Design
1 shared publication
In database
- Azospirillum brasilense improves rice growth under salt stress by regulating the expression of key genes involved in salt stress response, abscisic acid signaling, and nutrient transport, among others
H. C. Price
University of Central Arkansas
1 shared publication
In database
- Azospirillum brasilense improves rice growth under salt stress by regulating the expression of key genes involved in salt stress response, abscisic acid signaling, and nutrient transport, among others
Similar Researchers
Based on overlapping research topics
Zachariah Degon
University of Central Arkansas
Plant Physiology and Cultivation Studies
Bacterial Genetics and Biotechnology
Genomics and Phylogenetic Studies
H. C. Price
University of Central Arkansas
Plant Physiology and Cultivation Studies
Bacterial Genetics and Biotechnology
Plant Stress Responses and Tolerance
Peter James Icalia Gann
University of Arkansas at Fayetteville
Plant Physiology and Cultivation Studies
Bacterial Genetics and Biotechnology
Genomics and Phylogenetic Studies
Charlez Ruiz
University of Arkansas at Fayetteville
Plant Physiology and Cultivation Studies
Genomics and Phylogenetic Studies
Plant Stress Responses and Tolerance
K. E. L. Simmons
University of Arkansas at Little Rock
Plant Physiology and Cultivation Studies
Bacterial Genetics and Biotechnology
Genomics and Phylogenetic Studies
Seth Dixon
University of Central Arkansas
Plant Physiology and Cultivation Studies
Bacterial Genetics and Biotechnology
Plant Stress Responses and Tolerance