2025
The extracytoplasmic sigma factor σX supports biofilm formation and increases biocontrol efficacy in Bacillus velezensis 118
Cai Y, Tao H, Gaballa A, Pi H, Helmann J. The extracytoplasmic sigma factor σX supports biofilm formation and increases biocontrol efficacy in Bacillus velezensis 118. Scientific Reports 2025, 15: 5315. PMID: 39939707, PMCID: PMC11822112, DOI: 10.1038/s41598-025-89284-7.Peer-Reviewed Original ResearchConceptsPlant growth-promoting rhizobacteriaBiocontrol efficacyBiocontrol activityIncrease biocontrol efficacyReduced biocontrol efficacyEffect of Bacillus sppFusarium wilt of bananaWilt of bananaGrowth-promoting rhizobacteriaColonize plant rootsExtracytoplasmic functionBiocontrol agentsBiofilm formationEnhancing crop productivityPlant rootsPromoting rhizobacteriaBiocontrolLipopeptide productionFusarium wiltRoot colonizationSoil isolatesReduced biofilm formationSigX mutantSwarming motilityCrop production
2024
Gene-edited Mtsoc1 triple mutant Medicago plants do not flower
Poulet A, Zhao M, Peng Y, Tham F, Jaudal M, Zhang L, van Wolfswinkel J, Putterill J. Gene-edited Mtsoc1 triple mutant Medicago plants do not flower. Frontiers In Plant Science 2024, 15: 1357924. PMID: 38469328, PMCID: PMC10926907, DOI: 10.3389/fpls.2024.1357924.Peer-Reviewed Original ResearchTriple mutant linesSingle mutantsFlowering timeMutant linesMultiple gene duplication eventsGene duplication eventsSOC1-like genesModel Arabidopsis thalianaMADS transcription factorsWild-type backgroundRegulation of floweringOptimal flowering timeNon-flowering plantsShort-day photoperiodCRISPR-Cas9 gene editingGene expression analysisDuplication eventsArabidopsis thalianaSOC1 genesDelayed floweringFloral promotersCrop productionFlower developmentFlowering pathwayMedicago truncatula
2020
Purple acid phosphatase 10c encodes a major acid phosphatase that regulates plant growth under phosphate-deficient conditions in rice
Deng S, Lu L, Li J, Du Z, Liu T, Li W, Xu F, Shi L, Shou H, Wang C. Purple acid phosphatase 10c encodes a major acid phosphatase that regulates plant growth under phosphate-deficient conditions in rice. Journal Of Experimental Botany 2020, 71: 4321-4332. PMID: 32270183, PMCID: PMC7475256, DOI: 10.1093/jxb/eraa179.Peer-Reviewed Original ResearchConceptsTransgenic plantsUbiquitin promoterNP plantsAPase activityLevels of Pi supplyGrowth of transgenic plantsImprove crop productivityIncreased APase activityRegulating plant growthPhosphate-deficient conditionsAcid phosphataseGrowth performanceCrop productionRoot growthPlant growthPi supplyField experimentUP plantsPlantsAPaseConstitutive overexpressionOrganic phosphatesRiceRoot surfaceDegrade extracellular ATP
2007
Impact of bioenergy crops in a carbon dioxide constrained world: an application of the MiniCAM energy-agriculture and land use model
Gillingham K, Smith S, Sands R. Impact of bioenergy crops in a carbon dioxide constrained world: an application of the MiniCAM energy-agriculture and land use model. Mitigation And Adaptation Strategies For Global Change 2007, 13: 675-701. DOI: 10.1007/s11027-007-9122-5.Peer-Reviewed Original ResearchProduction of bioenergy cropsPrices of food cropsEnergy-economic modelBioenergy cropsReduce carbon dioxide emissionsCarbon dioxide emissionsLand use systemsLand use modelFood cropsBioenergy crop productionMitigation policiesDioxide emissionsGlobal energy mixEnergy mixYield of food cropsHuman food demandUse systemsFood demandUnmanaged landUse modelPolicyCrop yieldCrop productionAverage yieldCrop
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