Rhizosphere bacteria containing 1-aminocyclopropane-1-carboxylate deaminase increase yield of plants grown in drying soil via both local and systemic hormone signalling.
about
Bacterial Modulation of Plant Ethylene LevelsDrought-tolerance of wheat improved by rhizosphere bacteria from harsh environments: enhanced biomass production and reduced emissions of stress volatilesComparison of barley succession and take-all disease as environmental factors shaping the rhizobacterial community during take-all decline.Complete genome sequence of the metabolically versatile plant growth-promoting endophyte Variovorax paradoxus S110.Interact to survive: Phyllobacterium brassicacearum improves Arabidopsis tolerance to severe water deficit and growth recovery.Survey of Plant Drought-Resistance Promoting Bacteria from Populus euphratica Tree Living in Arid Area.A drought resistance-promoting microbiome is selected by root system under desert farming.Metabolic characteristics of the species Variovorax paradoxus.The plant vascular system: evolution, development and functions.Genome of the Root-Associated Plant Growth-Promoting Bacterium Variovorax paradoxus Strain EPSGenome-guided insights into the versatile metabolic capabilities of the mercaptosuccinate-utilizing β-proteobacterium Variovorax paradoxus strain B4.Urban microbiomes and urban ecology: how do microbes in the built environment affect human sustainability in cities?Multiple impacts of the plant growth-promoting rhizobacterium Variovorax paradoxus 5C-2 on nutrient and ABA relations of Pisum sativum.Plant-rhizobacteria interactions alleviate abiotic stress conditions.Abiotic Stress Responses and Microbe-Mediated Mitigation in Plants: The Omics Strategies.Ethylene Role in Plant Growth, Development and Senescence: Interaction with Other Phytohormones.Biotechnological uses of desiccation-tolerant microorganisms for the rhizoremediation of soils subjected to seasonal drought.Microbial amelioration of crop salinity stress.Plant hormone interactions: innovative targets for crop breeding and management.Phytoremediation of heavy and transition metals aided by legume-rhizobia symbiosis.The evolution of ethylene signaling in plant chemical ecology.Effectiveness of halo-tolerant, auxin producing Pseudomonas and Rhizobium strains to improve osmotic stress tolerance in mung bean (Vigna radiata L.).Differential activity of autochthonous bacteria in controlling drought stress in native Lavandula and Salvia plants species under drought conditions in natural arid soil.Plant growth promoting rhizobacteria enhances wheat salt and drought stress tolerance by altering endogenous phytohormone levels and TaCTR1/TaDREB2 expression.The cadmium-tolerant pea (Pisum sativum L.) mutant SGECdt is more sensitive to mercury: assessing plant water relations.The PGPR strain Phyllobacterium brassicacearum STM196 induces a reproductive delay and physiological changes that result in improved drought tolerance in Arabidopsis.Combined endophytic inoculants enhance nickel phytoextraction from serpentine soil in the hyperaccumulator Noccaea caerulescens.Liming can decrease legume crop yield and leaf gas exchange by enhancing root to shoot ABA signalling.Transgenic alteration of ethylene biosynthesis increases grain yield in maize under field drought-stress conditions.Are drought-resistance promoting bacteria cross-compatible with different plant models?Interactions between ethylene, gibberellins, and brassinosteroids in the development of rhizobial and mycorrhizal symbioses of pea.The rhizobacterium Variovorax paradoxus 5C-2, containing ACC deaminase, promotes growth and development of Arabidopsis thaliana via an ethylene-dependent pathway.Differentiation of 1-aminocyclopropane-1-carboxylate (ACC) deaminase from its homologs is the key for identifying bacteria containing ACC deaminase.Rhizobacteria of Populus euphratica Promoting Plant Growth Against Heavy Metals.Seed dormancy and ABA signaling: the breakthrough goes on.Promotion of arsenic phytoextraction efficiency in the fern Pteris vittata by the inoculation of As-resistant bacteria: a soil bioremediation perspective.The rhizosphere bacterium Variovorax paradoxus 5C-2 containing ACC deaminase does not increase systemic ABA signaling in maize (Zea mays L.).Mercaptosuccinate dioxygenase, a cysteine dioxygenase homologue, from Variovorax paradoxus strain B4 is the key enzyme of mercaptosuccinate degradation.Innate immune responses activated in Arabidopsis roots by microbe-associated molecular patterns.ACC deaminase activity in avirulent Agrobacterium tumefaciens D3.
P2860
Q26859197-EAC44DE7-F309-4A1C-B4D7-1990E6A81A7CQ31160820-F675E1AA-FE08-4BC3-8515-280AFF6CC3E8Q33595696-44A4074C-7413-40FC-B02C-93DE2771BFC7Q34156464-BEC67C10-8D4E-4EBC-99DD-25D6C9A157F9Q34200265-19DE154B-E655-48E1-8B5B-E7CFA9FC7956Q34294754-518EED15-3BED-4DF2-AF9C-515A58617C50Q34309587-4291BF2B-01F0-4E42-BA92-9222F694CD5DQ34314327-7D182D53-C2F7-459B-BFCD-8CA31FE5341CQ34331061-915B43EA-E792-4B18-BF05-975E0EBBBD42Q34380160-AADB1008-003D-4F2F-B39A-05AB9F8C12CAQ35045613-DB8662F7-2A42-4862-9E42-EBA24A71F0D6Q35254007-767BD72A-37E8-4463-9EAE-6D3695B51AB2Q36418167-25B315DA-40D5-4810-AF60-54A52187D87FQ37577976-89848595-1574-4672-95C9-EFF515754B3FQ37632971-FCD6CE15-E075-4FB6-B613-EE3FCB71CD3AQ37736154-A22DB9C6-9E26-48B9-A87D-A614A53109EEQ37902549-0C479C68-39D6-430A-98BB-02F851641666Q37992042-5D85F75B-D155-4D6F-A3C7-634C873CA18CQ38014014-A186AFD3-C33A-4AAA-BCF0-4996E0770718Q38218819-8BADCDA9-1708-47DC-B2AA-A5A279CE2568Q38226584-0D08BDB1-188B-48F8-8107-ED582B10B159Q38332426-005F56DA-8E13-4F19-8EA2-18094A0EC828Q38879726-FACCE206-4388-441B-A8A2-7905C53B6CEEQ38893788-53679260-46AB-407D-BD67-CCB344A7EBF1Q38900899-DB262AE0-820D-4568-B098-6EC8CE6A10A1Q38920819-2E33FC69-0D2A-4E66-9A66-6E27AF864AC1Q38969087-6C17EDC8-E69D-4805-A98C-DEC115038DB8Q39032826-852C044B-AAED-4939-93F3-78A15448A88BQ39039093-2CBE2427-88EF-4203-9D8C-39AEB868F429Q39213742-0951358E-A8FF-4C33-AA53-02C468DAD657Q39554993-3D5C1D8D-29A9-462E-B69D-3D77CFE67CACQ39629850-4A8A1779-9036-4CA7-8A87-6961154B0B40Q40547016-D9658AD1-8732-4E49-A2AF-02A849133A1FQ40699375-995AD733-2081-4809-8D6D-4336840F823AQ41809646-1323D94B-3BBD-4C09-AC6D-53DBD3148FC7Q42059189-1503D864-BD4A-4A0C-A9FD-F3D7E44256DFQ42133299-1079FB25-37B8-4D06-9D8E-CE0FFABF9CE7Q42704167-96E6689F-968A-4B9D-920A-AB667618335FQ43116307-621B67EF-689E-4AD1-818B-5435196C10CDQ43590025-35F67436-DABE-4498-A3D2-ABC601E4E62E
P2860
Rhizosphere bacteria containing 1-aminocyclopropane-1-carboxylate deaminase increase yield of plants grown in drying soil via both local and systemic hormone signalling.
description
2009 nî lūn-bûn
@nan
2009 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
Rhizosphere bacteria containin ...... d systemic hormone signalling.
@ast
Rhizosphere bacteria containin ...... d systemic hormone signalling.
@en
Rhizosphere bacteria containin ...... d systemic hormone signalling.
@nl
type
label
Rhizosphere bacteria containin ...... d systemic hormone signalling.
@ast
Rhizosphere bacteria containin ...... d systemic hormone signalling.
@en
Rhizosphere bacteria containin ...... d systemic hormone signalling.
@nl
prefLabel
Rhizosphere bacteria containin ...... d systemic hormone signalling.
@ast
Rhizosphere bacteria containin ...... d systemic hormone signalling.
@en
Rhizosphere bacteria containin ...... d systemic hormone signalling.
@nl
P2093
P1433
P1476
Rhizosphere bacteria containin ...... nd systemic hormone signalling
@en
P2093
Andrey A Belimov
Julian C Theobald
Nikos Hontzeas
Vera I Safronova
William J Davies
P304
P356
10.1111/J.1469-8137.2008.02657.X
P407
P50
P577
2009-01-01T00:00:00Z