Search results for "Nitrogen Fixation"

showing 10 items of 54 documents

Can sucrose content in the phloem sap reaching field pea seeds (Pisum sativum L.) be an accurate indicator of seed growth potential ?

2003

The composition of the translocates reaching the seeds of pea plants having various nitrogen (N) nutrition regimes was investigated under field situations. Sucrose flow in the phloem sap increased with the node number, but was not significantly different between N nutrition levels. Because N deficiency reduced the number of flowering nodes and the number of seeds per pod, the sucrose flow bleeding from cut peduncles was divided by the number of seeds to give the amount of assimilates available per seed. The sucrose concentration in phloem sap supplied to seeds at the upper nodes was higher than that at the lower nodes. The flow of sucrose delivered to the seeds during the cell division peri…

0106 biological sciencesSucroseTime FactorsSucrosePhysiologyPlant ScienceBiology01 natural sciencesPisum[SDV.BV.BOT] Life Sciences [q-bio]/Vegetal Biology/Botanics03 medical and health scienceschemistry.chemical_compoundField peaSativumNitrogen FixationBotanySaviaSymbiosisComputingMilieux_MISCELLANEOUSPlant Proteins030304 developmental biology2. Zero hunger0303 health sciencesPeasTemperatureMembrane Transport Proteinsfood and beveragesFabaceaeFabaceae[SDV.BV.BOT]Life Sciences [q-bio]/Vegetal Biology/Botanicsbiology.organism_classificationHorticulturePoint of deliverychemistrySeedsPhloemBiomarkers010606 plant biology & botany

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Nodulating symbiotic bacteria and soil quality

2005

Chapitre 9 : Plant microbe interactions and soil quality Partie : 9-2; International audience

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Grain legume seed filling in relation to nitrogen acquisition: A review and prospects with particular reference to pea

2001

International audience; Seed filling depends not only on the instantaneous supply of C and N, but also on their remobilisation from vegetative organs. C supply during seed filling depends mostly on current photosynthesis, but N assimilation and N$_2$ fixation decline during seed filling, with newly acquired N generally insufficient for the high seed demand. As seeds are strong sinks for mobilised nutrients, seed growth becomes metabolically closely associated with N remobilisation. N remobilisation from vegetative tissues to filling seeds interacts with photosynthesis since it induces senescence, which reduces the seed filling period. Hence improved grain legume seed filling requires either…

Ecophysiology[SDV.SA]Life Sciences [q-bio]/Agricultural sciencesN assimilationFixation symbiotique[SDV]Life Sciences [q-bio]chemistry.chemical_elementsénescenceBiologyPhotosynthesis03 medical and health sciencesSymbiosisBotanyMineral particlesAssimilation d'azoteLegumeComputingMilieux_MISCELLANEOUS030304 developmental biology2. Zero hunger[SDV.EE]Life Sciences [q-bio]/Ecology environment0303 health sciences[SDV.SA] Life Sciences [q-bio]/Agricultural sciencesRemobilisationAssimilation (biology)04 agricultural and veterinary sciencesNitrogenRemplissage des grainesSymbiotic fixationAgronomychemistrySeed filling040103 agronomy & agricultureNitrogen fixation0401 agriculture forestry and fisheriesAgronomy and Crop Science

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Quantification of denitrifying bacteria in soils by nirK gene targeted real-time PCR.

2004

Abstract Denitrification, the reduction of nitrate to nitrous oxide or dinitrogen, is the major biological mechanism by which fixed nitrogen returns to the atmosphere from soil and water. Microorganisms capable of denitrification are widely distributed in the environment but little is known about their abundance since quantification is performed using fastidious and time-consuming MPN-based approaches. We used real-time PCR to quantify the denitrifying nitrite reductase gene (nirK), a key enzyme of the denitrifying pathway catalyzing the reduction of soluble nitrogen oxide to gaseous form. The real-time PCR assay was linear over 7 orders of magnitude and sensitive down to 102 copies by assa…

Microbiology (medical)Fastidious organismDNA BacterialDenitrificationNitrite ReductasesMicroorganismMolecular Sequence DataRhodobacter sphaeroidesBiologyMicrobiologyAchromobacter cycloclastesPolymerase Chain ReactionSensitivity and SpecificityMicrobiologychemistry.chemical_compoundDenitrifying bacteriaNitrateGram-Negative BacteriaEscherichia coliBradyrhizobiumMolecular BiologyPhylogenySoil MicrobiologyAlcaligenes faecalisBase SequenceSequence Analysis DNANitrite reductasebiology.organism_classificationchemistryBiochemistryNitrogen fixationBacteriaSinorhizobium melilotiJournal of microbiological methods

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Faba bean grain yield, N2 fixation, and weed infestation in a long-term tillage experiment under rainfed Mediterranean conditions

2012

Background and Aims Long-term experiments could provide valuable information to determine the effects of an agronomic practice on agro-ecosystem productivity and stability. This study evaluated the long-term (18-year) impact of different tillage systems on faba bean (Vicia faba L.) productivity, including weed and broomrape incidence, and N2 fixation. Methods The experiment was carried out on a Vertisol under rainfed Mediterranean conditions. It was set up as a strip plot design. The tillage systems were: conventional tillage (CT) with moldboard plow, reduced tillage (RT) with chisel plow, and no tillage (NT). Nitrogen fixation was estimated over 2 years in the final phase of the experiment…

Conventional tillagebusiness.product_categoryVicia faba no tillage weeds broomrapesSoil SciencePlant ScienceVertisolBiologyWeed controlmedicine.disease_causeSettore AGR/02 - Agronomia E Coltivazioni ErbaceeTillagePloughAgronomyInfestationmedicineNitrogen fixationbusinessWeed

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HONO Emissions from Soil Bacteria as a Major Source of Atmospheric Reactive Nitrogen

2013

From Soil to Sky Trace gases emitted either through the activity of microbial communities or from abiotic reactions in the soil influence atmospheric chemistry. In laboratory column experiments using several soil types, Oswald et al. (p. 1233 ) showed that soils from arid regions and farmlands can produce substantial quantities of nitric oxide (NO) and nitrous acid (HONO). Ammonia-oxidizing bacteria are the primary source of HONO at comparable levels to NO, thus serving as an important source of reactive nitrogen to the atmosphere.

Biogeochemical cycle010504 meteorology & atmospheric sciencesReactive nitrogenNitrogenNitrosomonas europaeaNitrous Acid010501 environmental sciencesNO EMISSIONSNITRIFICATION01 natural sciencescomplex mixturesWATER CONTENTchemistry.chemical_compoundAmmoniaDEPENDENCENitrogen FixationEMPIRICAL-MODELNitriteNitrogen cycleTEMPERATURESoil Microbiology0105 earth and related environmental sciences[PHYS.PHYS.PHYS-AO-PH]Physics [physics]/Physics [physics]/Atmospheric and Oceanic Physics [physics.ao-ph]Nitrous acidMultidisciplinaryNITRIC-OXIDEAtmosphereChemistryDENITRIFICATIONRAIN-FORESTReactive Nitrogen SpeciesSOUTH-AFRICA13. Climate actionEnvironmental chemistrySoil waterNitrogen fixationOxidation-ReductionSoil microbiology

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Novel Glutamate–Putrescine Ligase Activity in Haloferax mediterranei: A New Function for glnA-2 Gene

2021

This article belongs to the Section Cellular Biochemistry.

Salmonella typhimuriumTranscription GeneticNitrogen assimilationHaloferax mediterraneiGene ExpressionBiochemistryGlutamate-putrescine ligase activitySubstrate SpecificityLigasesAdenosine TriphosphateputrescineCloning MolecularPhylogenyhaloarchaeachemistry.chemical_classification0303 health sciencesbiologyChemistryHaloarchaeaEscherichia coli Proteinsglutamine synthetaseBioquímica y Biología MolecularQR1-502Recombinant ProteinsNitrogen assimilationHaloferax mediterraneiIsoenzymesBiochemistryArchaeal ProteinsGenetic VectorsGlutamic AcidGlutamate–putrescine ligaseMicrobiologyArticleglutamate–putrescine ligaseGlutamine synthetase03 medical and health sciencesAmmoniaGlutamine synthetaseNitrogen FixationEscherichia coliPutrescineAmino Acid SequenceMolecular Biology030304 developmental biologyDNA ligaseSequence Homology Amino Acid030306 microbiologyComputational Biologynitrogen assimilationbiology.organism_classificationMetabolic pathwayEnzymeProtein BiosynthesisHaloarchaeaGene Expression Regulation ArchaealSequence AlignmentBiomolecules

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Occurrence of rhizobia in the gut of the higher termite Nasutitermes nigriceps

2006

Wood-eating termites feed on a diet highly deficient in nitrogen. They must complement their diet with the aid of nitrogen-fixing bacteria. Nitrogen fixation in the gut has been demonstrated, but information about nitrogen-fixing bacteria in pure culture is scarce. From the higher termite Nasutitermes nigriceps the symbiotic bacterial strain M3A was isolated, which thrives in the hindgut contents. The Gram-negative strain exhibited similarities to the species of the genus Ensifer (including Sinorhizobium) on the basis of morphological and physiological/biochemical features. The 16S rRNA gene analysis showed the highest sequence similarity of the isolate M3A to Ensifer adhaerens (>99%; ATCC …

DNA BacterialRhizobiaceaeMolecular Sequence DataSinorhizobiumIsopteraRhizobiaApplied Microbiology and BiotechnologyMicrobiologyDNA RibosomalTermitesMicrobiologyRhizobiaIntestinal floraNitrogen fixationRhizobiaceaeRNA Ribosomal 16SBotanyNasutitermesAnimalsSymbiosisEcology Evolution Behavior and SystematicsPhylogenySoil MicrobiologybiologyStrain (chemistry)Fatty AcidsPlants16S ribosomal RNAbiology.organism_classificationEnsiferSinorhizobiumNitrogen fixationDigestive SystemBacteriaSystematic and Applied Microbiology

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Isolation and Characterization of High-Efficiency Rhizobia From Western Kenya Nodulating With Common Bean.

2021

Common bean is one of the primary protein sources in third-world countries. They form nodules with nitrogen-fixing rhizobia, which have to be adapted to the local soils. Commercial rhizobial strains such as Rhizobium tropici CIAT899 are often used in agriculture. However, this strain failed to significantly increase the common bean yield in many places, including Kenya, due to the local soils’ low pH. We isolated two indigenous rhizobial strains from the nodules of common bean from two fields in Western Kenya that have never been exposed to commercial inocula. We then determined their ability to fix nitrogen in common beans, solubilize phosphorus, and produce indole acetic acid. In greenhou…

Microbiology (medical)common beanpangenomespecies delimitationnitrogen fixationsynteny blocksfood and beveragesRhizobium phaseolicomparative genomicsrhizobiaMicrobiologyQR1-502Original ResearchFrontiers in microbiology

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Reconstruction of Diverse Verrucomicrobial Genomes from Metagenome Datasets of Freshwater Reservoirs

2017

The phylum Verrucomicrobia contains freshwater representatives which remain poorly studied at the genomic, taxonomic, and ecological levels. In this work we present eighteen new reconstructed verrucomicrobial genomes from two freshwater reservoirs located close to each other (Tous and Amadorio, Spain). These metagenomeassembled genomes (MAGs) display a remarkable taxonomic diversity inside the phylum and comprise wide ranges of estimated genome sizes (from 1.8 to 6 Mb). Among all Verrucomicrobia studied we found some of the smallest genomes of the Spartobacteria and Opitutae classes described so far. Some of the Opitutae family MAGs were small, cosmopolitan, with a general heterotrophic met…

0301 basic medicineMicrobiology (medical)Range (biology)030106 microbiologylcsh:QR1-502BiologyMicrobiologyGenomelcsh:Microbiology579 - Microbiología03 medical and health sciencesgenome streamliningCopiotrophfreshwater VerrucomicrobiaCladeGeneOriginal ResearchGeneticsmetagenomicsPhylumVerrucomicrobiabiology.organism_classification030104 developmental biologyrhodopsinMetagenomicsEvolutionary biologynitrogen fixationFrontiers in Microbiology

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