The Science of The Total Environment, Journal Year: 2023, Volume and Issue: 912, P. 168847 - 168847
Published: Nov. 28, 2023
Language: Английский
Frontiers in Plant Science, Journal Year: 2022, Volume and Issue: 13
Published: Sept. 15, 2022
Plant microbiome (or phytomicrobiome) engineering (PME) is an anticipated untapped alternative strategy that could be exploited for plant growth, health and productivity under different environmental conditions. It has been proven the phytomicrobiome crucial contributions to health, pathogen control tolerance drastic (a)biotic constraints. Consistent with safety, in this article we address fundamental role of its insights productivity. We also explore potential restrictions proposition improving microbial functions can supportive better growth production. Understanding associated communities, propose how actions enhanced improve growth-promoting mechanisms, a particular emphasis on beneficial fungi. Additionally, suggest possible strategies adapt harsh environment by manipulating microbiomes. However, our current understanding still infancy, major perturbations, such as anthropocentric actions, are not fully understood. Therefore, work highlights importance create more sustainable agriculture, particularly stressors.
Language: Английский
Citations
98
Molecules, Journal Year: 2024, Volume and Issue: 29(11), P. 2534 - 2534
Published: May 28, 2024
The symbiotic relationship between nitrogen-fixing cyanobacteria and plants offers a promising avenue for sustainable agricultural practices environmental remediation. This review paper explores the molecular interactions nanoparticles, shedding light on their potential synergies in nanotechnology. Delving into evolutionary history specialized adaptations of cyanobacteria, this highlights pivotal role fixing atmospheric nitrogen, which is crucial ecosystem productivity. discusses unique characteristics metal nanoparticles emerging applications agriculture, including improved nutrient delivery, stress tolerance, disease resistance. It delves complex mechanisms nanoparticle entry plant cells, intracellular transport, localization, uncovering impact root-shoot translocation systemic distribution. Furthermore, elucidates cellular responses to exposure, emphasizing oxidative stress, signaling pathways, enhanced uptake. as carriers essential nutrients implications nutrient-use efficiency crop yield are also explored. Insights modulation responses, resistance, phytoremediation strategies demonstrate multifaceted benefits agriculture. Current trends, prospects, challenges nanotechnology discussed, underscoring need responsible safe utilization. By harnessing power leveraging attributes paves way innovative, sustainable, efficient practices.
Language: Английский
Citations
26
Nature Communications, Journal Year: 2025, Volume and Issue: 16(1)
Published: Feb. 16, 2025
Endophytic plant growth promoting rhizobacteria (PGPRs) could replace chemical fertilizers in sustainable agriculture. Unfortunately, they are susceptible to harsh environmental conditions. Here, we proposed a polymeric hydrogel (PMH) consisting of carboxymethyl chitosan, sodium alginate, and calcium chloride for loading protecting endophytic PGPR. This can load PGPRs not only boost its growth-promoting efficiency, but also help them adapt more effectively environments. Using PGPR Ensifer C5 as model bacteria Brasscia napus host, demonstrate that the PMH facilitate colonization apical lateral root primordia regions. Further analysis indicates modulate suberin deposition endodermal cell layers regulate accumulation auxin at tip. Meanwhile, enhances antioxidant capacity disease resistance properties plants by increasing content arachidonic acid metabolism intermediates plant. Importantly, combination increases yields B. approximately 30% field. Furthermore, attenuates loss activity acidic Overall, this microbial encapsulation strategy is promising way protect fragile microorganisms, providing attractive avenues Plant fertilizers, authors report on protective enhance improve adaptability soil.
Language: Английский
Citations
2
The Science of The Total Environment, Journal Year: 2022, Volume and Issue: 829, P. 154561 - 154561
Published: March 14, 2022
Language: Английский
Citations
53
Plant Growth Regulation, Journal Year: 2022, Volume and Issue: 98(1), P. 5 - 22
Published: June 28, 2022
Language: Английский
Citations
47
Current Opinion in Plant Biology, Journal Year: 2022, Volume and Issue: 71, P. 102316 - 102316
Published: Nov. 25, 2022
Language: Английский
Citations
38
Environmental Research, Journal Year: 2023, Volume and Issue: 233, P. 116489 - 116489
Published: June 28, 2023
Language: Английский
Citations
27
Journal of Crop Science and Biotechnology, Journal Year: 2024, Volume and Issue: 27(3), P. 359 - 379
Published: Feb. 26, 2024
Abstract The increase in global population which translates to increased demand for food called urgent attention from key players and policy makers agricultural sector. Also, the effects of climate change its consequent biotic abiotic stresses plants has greatly affect sustainability agriculture production food. These challenges require novel sustainable approaches improve quality yield crops. vast application nanoparticles different fields study is attributed their distinct chemical physical characteristics. However, agriculture, limited because safety concern. Currently, research tailored response various nanoparticle treatments; however, these studies are inconclusive due knowledge on mechanisms plant–nanoparticle interactions. Recently, nanobiotechnology have taken a new dimension preliminary bioassay experiments more complex, research-oriented using omics tools. Changes protein expression caused by interaction at any developmental stages, or tissue types may be investigated suitable proteomics techniques. This review discussed applications nanotechnology proteomic tools plant growth development. Plant–nanoparticle interactions genetic engineering attain also discussed. Informative thorough understanding will serve as blueprint that enable scientist engineers develop biomarkers explore potential crop improvement.
Language: Английский
Citations
11
Microbiological Research, Journal Year: 2024, Volume and Issue: 286, P. 127780 - 127780
Published: May 27, 2024
Language: Английский
Citations
8
Frontiers in Plant Science, Journal Year: 2021, Volume and Issue: 12
Published: Dec. 1, 2021
Novel crop improvement approaches, including those that facilitate for the exploitation of wild relatives and underutilized species harboring much-needed natural allelic variation are indispensable if we to develop climate-smart crops with enhanced abiotic biotic stress tolerance, higher nutritive value, superior traits agronomic importance. Top among these approaches “omics” technologies, genomics, transcriptomics, proteomics, metabolomics, phenomics, their integration, whose deployment has been vital in revealing several key genes, proteins metabolic pathways underlying numerous importance, aiding marker-assisted breeding major species. Here, citing relevant examples, appraise our understanding on recent developments omics technologies how they driving quest breed climate resilient crops. Large-scale genome resequencing, pan-genomes genome-wide association studies identification analysis species-level variations, whilst RNA-sequencing driven transcriptomics provided unprecedented opportunities conducting response studies. Meanwhile, single cell is slowly becoming an tool decoding cell-specific responses, although technical experimental design challenges still need be resolved. Additionally, refinement conventional techniques advent modern, high-resolution proteomics necessitated a gradual shift from general descriptive plant protein abundances large scale protein-metabolite interactions. Especially, metabolomics currently receiving special attention, owing role metabolites play as intermediates close links phenotypic expression. Further, high throughput phenomics applications targeting new research domains such root system architecture analysis, exploration root-associated microbes improved health resilience. Overall, coupling multi-omics modern genetic engineering methods ensures all-encompassing approach developing nutritionally-rich productivity can sustainably sufficiently meet current future food, nutrition energy demands.
Language: Английский
Citations
49