Search results for "PGPR"

showing 10 items of 15 documents

Nitric oxide: a multitask player in plant–microorganism symbioses

2016

Symbiosis is a close and often long-term interaction between two different biological organisms, i.e. plants or fungi and microorganisms. Two main types of plant–microorganism interactions, mutualistic and cooperative, have been categorized. Mutualistic interactions, including nitrogen-fixing and mycorrhizal symbioses, refer to mostly obligate relationships between a host plant and a symbiont microorganism. Cooperative interactions correspond to less obligate and specific relationships. They involve microorganisms, referred to as plant growth-promoting rhizobia (PGPR), able to colonize root surface or inner tissues. Lichens are symbiotic associations of host fungi and photosynthetic partner…

0106 biological sciences0301 basic medicineMicroorganism[SDV]Life Sciences [q-bio]LichenBiology01 natural sciencesRhizobia03 medical and health sciencesinteraction microorganisme végétalSymbiosisNitrogen fixationnitric oxideBotanyPlant symbiosisMycorrhizamicrobiologieLichenoxyde nitriqueObligateEcologyHost (biology)fungifood and beveragesbiology.organism_classificationsymbiosisLegume030104 developmental biologyNitrogen fixationPlant growth-promoting rhizobia (PGPR)MycorrhizasymbioseLegume Lichen Mycorrhiza Nitric oxide Nitrogen fixation Plant growth-promoting rhizobia (PGPR) Plant symbiosis Rhizobium010606 plant biology & botanyRhizobium
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Fertigation Management and Growth-Promoting Treatments Affect Tomato Transplant Production and Plant Growth after Transplant

2020

Plant biostimulants are of interest as they can stimulate plant growth and increase resource utilization. There is still no information on the use of plant growth-promoters under variable nutritional conditions in the nursery and the effects on tomato seedling growth and plant performance after transplant. This study aimed to evaluate the suitability of gibberellic acid (GA3) or bacterial biostimulant treatments to enhance the growth and quality of greenhouse-grown tomato (Solanum lycopersicum &lsquo

0106 biological sciencesFertigationPlant growthvegetable nurserypre-transplanting nutritional conditioningSettore AGR/04 - Orticoltura E Floricolturaengineering.materialpost-transplant growth01 natural sciencestransplant productionlcsh:Agriculturechemistry.chemical_compoundNutrientbacterial biostimulantGibberellic acidbiologyInoculationSolanum lycopersicum ‘Marmande’ tomato seedlings vegetable nursery transplant production pre-transplanting nutritional conditioning bacterial biostimulant Bacillus spp. PGPR gibberellic acid post-transplant growthfungilcsh:Sfood and beverages04 agricultural and veterinary sciencesbiology.organism_classificationHorticulturetomato seedlingschemistrySeedling<i>Solanum lycopersicum</i> ‘Marmande’PGPR040103 agronomy & agricultureengineering0401 agriculture forestry and fisheriesFertilizerSolanum<i>Bacillus</i> spp.Agronomy and Crop Sciencegibberellic acid010606 plant biology & botany
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Use of microbial biostimulants to increase the salinity tolerance of vegetable transplants

2021

Vegetable plants are more sensitive to salt stress during the early growth stages

0106 biological sciencesNurseryMicroorganismMicroorganism<i>Lactuca sativa</i> L.SeedlingBiomassArbuscular mycorrhizal fungi<i>Solanum lycopersium</i> L.Vegetable<i>Trichoderma</i>01 natural sciences03 medical and health sciencesSalt streSolanum lycopersium L.microorganismsGlomus030304 developmental biologysalt stressTrichoderma0303 health sciencesbiologyBrackish waterInoculationSfungifood and beveragesAgriculturebiology.organism_classificationSalinityHorticultureSeedlingTrichodermaPGPRLactuca sativa L.Agronomy and Crop Science010606 plant biology & botany
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The grapevine flagellin receptor VvFLS2 differentially recognizes flagellin-derived epitopes from the endophytic growth-promoting bacterium Burkholde…

2014

International audience; The role of flagellin perception in the context of plant beneficial bacteria still remains unclear. Here, we characterized the flagellin sensing system flg22-FLAGELLIN SENSING 2 (FLS2) in grapevine, and analyzed the flagellin perception in the interaction with the endophytic plant growth-promoting rhizobacterium (PGPR) Burkholderia phytofirmans. The functionality of the grapevine FLS2 receptor, VvFLS2, was demonstrated by complementation assays in the Arabidopsis thaliana fls2 mutant, which restored flg22-induced H2O2 production and growth inhibition. Using synthetic flg22 peptides from different bacterial origins, we compared recognition specificities between VvFLS2…

0106 biological sciencesPhysiologyBurkholderia phytofirmans[SDV]Life Sciences [q-bio]flg22ArabidopsisColony Count MicrobialPlant Sciencemedicine.disease_cause01 natural sciencesEpitopesArabidopsisEndophytesArabidopsis thalianaPlant ImmunityVitisDisease ResistancePlant Proteins0303 health sciencesbiologyBurkholderia phytofirmansmicrobe-associated molecular pattern (MAMP)Xanthomonas campestrisPGPR[SDE]Environmental SciencesBotrytispattern recognition receptor (PRR)BurkholderiaMolecular Sequence DataContext (language use)Receptors Cell SurfaceMicrobiology03 medical and health sciencesSpecies Specificitymedicine[SDV.BV]Life Sciences [q-bio]/Vegetal BiologyComputer SimulationAmino Acid Sequenceflagellin sensing030304 developmental biologyPlant DiseasesfungiCell MembraneGenetic Complementation TestPathogenic bacteriabiology.organism_classificationVitis viniferaMutationbiology.proteinReactive Oxygen SpeciesFlagellinBacteria010606 plant biology & botanyFlagellinThe New phytologistReferences
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Plant growth-promoting rhizobacteria and root system functioning.

2013

International audience; The rhizosphere supports the development and activity of a huge and diversified microbial community, including microorganisms capable to promote plant growth. Among the latter, plant growth-promoting rhizobacteria (PGPR) colonize roots of monocots and dicots, and enhance plant growth by direct and indirect mechanisms. Modification of root system architecture by PGPR implicates the production of phytohormones and other signals that lead, mostly, to enhanced lateral root branching and development of root hairs. PGPR also modify root functioning, improve plant nutrition and influence the physiology of the whole plant. Recent results provided first clues as to how PGPR s…

0106 biological sciencesfunctional group[SDV]Life Sciences [q-bio]plant nutritionPlant ScienceReview ArticleRoot hairBiologylcsh:Plant culturephytohormoneRhizobacteria01 natural sciences03 medical and health sciencesplant-PGPR cooperationplant-PGPR cooperation;rhizo-microbiome;rhizosphere;phytohormone;plant nutrition;ISR;functional groupBotanylcsh:SB1-1110Plant breedingISRFunctional group (ecology)2. Zero hungerAbiotic component0303 health sciencesRhizosphereBiotic component030306 microbiologybusiness.industryfungifood and beveragesrhizo-microbiome15. Life on landBiotechnologyLateral root branchingbusinessrhizosphere010606 plant biology & botanyFrontiers in plant science
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Alleviation of Salt Stress by Plant Growth-Promoting Bacteria in Hydroponic Leaf Lettuce

2020

Mediterranean areas with intensive agriculture are characterized by high salinity of groundwater. The use of this water in hydroponic cultivations can lead to nutrient solutions with an electrical conductivity that overcomes the tolerance threshold of many vegetable species. Plant growth-promoting rhizobacteria (PGPR) were shown to minimize salt stress on several vegetable crops but the studies on the application of PGPR on leafy vegetables grown in hydroponics are rather limited and have not been used under salt stress conditions. This study aimed to evaluate the use of plant growth-promoting bacteria to increase the salt tolerance of leaf lettuce grown in autumn and spring in a floating s…

0106 biological sciencessaline waterBiomassSettore AGR/04 - Orticoltura E Floricolturanutrient solutionBiologyRhizobacteria01 natural scienceslcsh:Agriculturefloating systemNutrientbacterial biostimulantleafy vegetables<i>Lactuca sativa</i> L. var. <i>Crispa</i>Brackish waterfungilcsh:S<i>Bacillus</i>food and beverages04 agricultural and veterinary sciencesHydroponicsbiology.organism_classificationSaline waterSalinityHorticulturePGPRsaline water leafy vegetables Lactuca sativa L. var. Crispa floating system nutrient solution bacterial biostimulant PGPR Bacillus040103 agronomy & agriculture0401 agriculture forestry and fisheriesAgronomy and Crop ScienceBacteria010606 plant biology & botanyAgronomy
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Bioprospecting of Beneficial Bacteria Traits Associated With Tomato Root in Greenhouse Environment Reveals That Sampling Sites Impact More Than the R…

2021

Tomato is subject to several diseases that affect both field- and greenhouse-grown crops. To select cost-effective potential biocontrol agents, we used laboratory throughput screening to identify bacterial strains with versatile characteristics suitable for multipurpose uses. The natural diversity of tomato root–associated bacterial communities was bioprospected under a real-world environment represented by an intensive tomato cultivation area characterized by extraseasonal productions in the greenhouse. Approximately 400 tomato root–associated bacterial isolates, in majority Gram-negative bacteria, were isolated from three compartments: the soil close to the root surface (rhizosphere, R), …

RhizospherebiologyendorhizospherePseudomonasfungiSettore AGR/12 - Patologia Vegetalefood and beveragesmicrobiomePlant Sciencetomatolcsh:Plant culturebiology.organism_classificationmicrobiome tomato PGPR BCA endorhizosphereBacillalesPseudomonas corrugataHorticultureBCAPGPRFusarium oxysporumPseudomonadalesPseudomonas syringaelcsh:SB1-1110BacteriaOriginal Research
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Identification of the VvFLS2 grapevine flagellin receptor by a functional genomics strategy

2013

National audience; Grapevine (Vitis vinifera) is a crop of high agronomic interest subject to many destructive diseases. Pattern recognition receptors (PRRs) mediate detection of potential pathogens via the perception of pathogen associated molecular patterns (PAMPs), which is important for plant disease resistance. A well studied PRR is the Arabidopsis leucine-rich repeat receptor kinase FLS2 that recognizes bacterial flagellin (or its minimal motif flg22). Flagellin perception plays an important role in restricting bacterial invasion into plant leaves. Until now, functional FLS2 orthologues have been characterized in Nicotiana benthamiana, rice and tomato. Despite its economical importanc…

[SDE] Environmental Sciences[SDV]Life Sciences [q-bio]fungiBurkholderia phytofirmansflg22microbe-associated molecular pattern (MAMP)[SDV] Life Sciences [q-bio]Vitis viniferaPGPR[SDE]Environmental Sciences[SDV.BV]Life Sciences [q-bio]/Vegetal Biology[SDV.BV] Life Sciences [q-bio]/Vegetal Biologyflagellin sensingpattern recognition receptor (PRR)
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Bacillus consortium positively impacts arbuscular mycorrhizal fungi community, plant phosphate nutrition and potato yield in Solanum tuberosum cv. Ja…

2022

Many agricultural soils are naturally poor in plant available phosphorus (P), although total P stocks can exceed plant requirements by more than 100-fold. The reason for such apparent contradiction is that P is complexed under organic and inorganic forms, but only free inorganic orthophosphate (Pi) ions are available to plants and soil organisms. The high immobility of Pi in soil, the low soil solution circulation associated with a rapid root absorption lead to the development of a depletion zone around the roots. As a consequence, P is frequently a limiting factor for plant growth and development.Arbuscular mycorrhizal (AM) fungi are estimated to colonize the vast majority of crop plants a…

[SDV] Life Sciences [q-bio]PGPRPhosphorusArbuscular mycorrhiza
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Is co-inoculation with plant growth promoting bacteria and arbuscular mycorrhizal fungi increasing strawberry production yields ?

2014

[SDV] Life Sciences [q-bio][SDE] Environmental Sciencesco-inoculationfragaria x ananassaPGPR[SDV]Life Sciences [q-bio][SDE]Environmental Sciencesmycorrhiza;PGPR;co-inoculation;fragaria x ananassamycorrhiza[SDV.BV]Life Sciences [q-bio]/Vegetal Biology[SDV.BV] Life Sciences [q-bio]/Vegetal Biology
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