Deep discovery informs difficult deployment in plant microbiome science (2023)
- Authors:
- Autor USP: TEIXEIRA, PAULO JOSE PEREIRA LIMA - ESALQ
- Unidade: ESALQ
- DOI: 10.1016/j.cell.2023.08.035
- Subjects: MICROBIOLOGIA AGRÍCOLA; PLANTAS CULTIVADAS; PRODUÇÃO VEGETAL
- Agências de fomento:
- Language: Inglês
- Imprenta:
- Source:
- Este periódico é de assinatura
- Este artigo é de acesso aberto
- URL de acesso aberto
- Cor do Acesso Aberto: hybrid
- Licença: cc-by
-
ABNT
RUSS, Dor et al. Deep discovery informs difficult deployment in plant microbiome science. Cell, v. 186, p. 4496-4513, 2023Tradução . . Disponível em: https://doi.org/10.1016/j.cell.2023.08.035. Acesso em: 29 dez. 2025. -
APA
Russ, D., Fitzpatrick, C. R., Teixeira, P. J. P. L., & Dangl, J. L. (2023). Deep discovery informs difficult deployment in plant microbiome science. Cell, 186, 4496-4513. doi:10.1016/j.cell.2023.08.035 -
NLM
Russ D, Fitzpatrick CR, Teixeira PJPL, Dangl JL. Deep discovery informs difficult deployment in plant microbiome science [Internet]. Cell. 2023 ; 186 4496-4513.[citado 2025 dez. 29 ] Available from: https://doi.org/10.1016/j.cell.2023.08.035 -
Vancouver
Russ D, Fitzpatrick CR, Teixeira PJPL, Dangl JL. Deep discovery informs difficult deployment in plant microbiome science [Internet]. Cell. 2023 ; 186 4496-4513.[citado 2025 dez. 29 ] Available from: https://doi.org/10.1016/j.cell.2023.08.035 - Specific modulation of the root immune system by a community of commensal bacteria
- Editorial: Beneficial Microbiota Interacting With the Plant Immune System
- A single bacterial genus maintains root growth in a complex microbiome
- Tradict enables accurate prediction of eukaryotic transcriptional states from 100 marker genes
- The effects of soil phosphorus content on plant microbiota are driven by the plant phosphate starvation response
- MAMP-triggered Medium Alkalinization of Plant Cell Cultures
- The Plant Microbiome: From Ecology to Reductionism and Beyond
- Beyond pathogens: microbiota interactions with the plant immune system
- Endogenous salicylic acid suppresses de novo root regeneration from leaf explants
- Microbiome-mediated metabolic defence
Informações sobre o DOI: 10.1016/j.cell.2023.08.035 (Fonte: oaDOI API)
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