Is plant endophyte-mediated defensive mutualism the result of oxidative stress protection?
about
Fungal endophyte (Epichloë festucae) alters the nutrient content of Festuca rubra regardless of water availabilityCo-synergism of endophyte Penicillium resedanum LK6 with salicylic acid helped Capsicum annuum in biomass recovery and osmotic stress mitigationPiriformospora indica: Potential and Significance in Plant Stress ToleranceThe plant strengthening root endophyte Piriformospora indica: potential application and the biology behindFungal endophytes of Alpinia officinarum rhizomes: insights on diversity and variation across growth years, growth sites, and the inner active chemical concentrationDrought degree constrains the beneficial effects of a fungal endophyte on Atractylodes lancea.Occurrence of Bacillus amyloliquefaciens as a systemic endophyte of vanilla orchids.Epichloë spp. associated with grasses: new insights on life cycles, dissemination and evolution.SOLiD-SAGE of endophyte-infected red fescue reveals numerous effects on host transcriptome and an abundance of highly expressed fungal secreted proteins.Novel and highly diverse fungal endophytes in soybean revealed by the consortium of two different techniques.Resistance to Dutch elm disease reduces presence of xylem endophytic fungi in Elms (Ulmus spp.).Fungal endophytes: unique plant inhabitants with great promises.Endophytic fungi: resource for gibberellins and crop abiotic stress resistance.Tall fescue endophyte effects on tolerance to water-deficit stressDiversity and antioxidant activity of culturable endophytic fungi from alpine plants of Rhodiola crenulata, R. angusta, and R. sachalinensis.Xylarinase: a novel clot busting enzyme from an endophytic fungus Xylaria curta.Mutualism effectiveness and vertical transmission of symbiotic fungal endophytes in response to host genetic backgroundEndophytes from medicinal plants and their potential for producing indole acetic acid, improving seed germination and mitigating oxidative stress.Chemical ecology mediated by fungal endophytes in grasses.Antimicrobial compounds from seaweeds-associated bacteria and fungi.Plant-endophyte symbiosis, an ecological perspective.Induction of salt tolerance and up-regulation of aquaporin genes in tropical corn by rhizobacterium Pantoea agglomerans.Arbuscular mycorrhizal fungus inoculation reduces the drought-resistance advantage of endophyte-infected versus endophyte-free Leymus chinensis.A proposed mechanism for nitrogen acquisition by grass seedlings through oxidation of symbiotic bacteriaInteractions between cranberries and fungi: the proposed function of organic acids in virulence suppression of fruit rot fungi.Hydrogen peroxide staining to visualize intracellular bacterial infections of seedling root cells.Functions, mechanisms and regulation of endophytic and epiphytic microbial communities of plantsTaxonomic placement of Epichloë poae sp. nov. and horizontal dissemination to seedlings via conidiaGrapevine colonization by endophytic bacteria shifts secondary metabolism and suggests activation of defense pathwaysNutritional niche overlap potentiates the use of endophytes in biocontrol of a tree diseaseEndophytic Fungal Diversity in Medicinal Plants of Western Ghats, India
P2860
Q21090666-03F55D2B-0727-416C-94E8-417460241245Q21263097-3C3F1B9B-7555-4D95-9DE4-9A412ACE4FB5Q26752326-9ECE1793-5D71-4791-B5EA-67F6BB4B0B1EQ26991701-5F835E7F-8DD5-4138-95C6-EF012B39666EQ28542832-AF7AA4FE-DAF5-43F4-A3EA-315F06A25E92Q30839911-B8C72F53-0B3A-42EA-A436-0F72413ADBEDQ33358815-8818F749-53EB-49DF-BFD2-BD4FD9BD6104Q34422028-DDCB37CC-60F3-417B-8B3B-6E6C5E6AF7DCQ34535082-D274BDEB-B6DB-463A-9C42-4A76EEE12F9BQ34606082-A741EABA-51B3-46E7-8A4A-65585BA3B63CQ34611668-FC5DDE03-F1BA-49BD-8366-7633EDB7FE53Q34628802-33921E8A-3898-4E0A-97F6-DFD81C3CB063Q34975630-3A92E458-5DE7-421D-9EFD-F050B4D6EC8CQ34981968-E9BD0CD3-FBBA-418D-915C-7840B166521CQ35175770-B24F4EDE-1318-4929-894D-E01433C2A569Q35975955-E0306005-5E8B-4E2D-9616-3A6B76992024Q36554847-64E97F14-BF7F-4CAA-9D38-76877C441BBAQ37629750-57BAC6A3-DAC6-46D5-888E-78280ED6686AQ38116799-0A5D03A7-DBDC-4E2F-ADE0-E6E9283F6ADAQ38303990-1E214B31-ABB5-4412-8023-0CD8954D684AQ38370201-46B4BB4F-A91E-479A-9EC0-E0E0F99EE991Q39027508-C4503956-EDA5-4606-80B9-837E07128F61Q39183437-DA90F23C-DB1C-419C-8C13-2C0AC244067DQ42136526-D2E93F63-50F3-48E2-A701-F3A6A684E9ACQ42531561-58C669CE-46C9-45E9-92FC-4C036F8235CBQ46894550-913BD80D-20A9-44D7-81C0-91568E0F2392Q56951310-470A0275-B60D-4C9D-8A62-0BAF03B0C8D1Q56951433-9D96C97F-6454-4570-86CB-5E2BD2BE4AF7Q57054723-A8110F15-C373-4FA2-9B48-891130CFC4DBQ58427858-FB9D9537-8220-49A4-A8E5-60627E68312DQ59042938-BF73A4E1-2F57-479C-98DC-0726FF05E5A3
P2860
Is plant endophyte-mediated defensive mutualism the result of oxidative stress protection?
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年学术文章
@wuu
2009年学术文章
@zh-cn
2009年学术文章
@zh-hans
2009年学术文章
@zh-my
2009年学术文章
@zh-sg
2009年學術文章
@yue
2009年學術文章
@zh
2009年學術文章
@zh-hant
name
Is plant endophyte-mediated de ...... f oxidative stress protection?
@en
Is plant endophyte-mediated de ...... f oxidative stress protection?
@nl
type
label
Is plant endophyte-mediated de ...... f oxidative stress protection?
@en
Is plant endophyte-mediated de ...... f oxidative stress protection?
@nl
prefLabel
Is plant endophyte-mediated de ...... f oxidative stress protection?
@en
Is plant endophyte-mediated de ...... f oxidative stress protection?
@nl
P1476
Is plant endophyte-mediated de ...... f oxidative stress protection?
@en
P2093
Mónica S Torres
P304
P356
10.1111/J.1399-3054.2009.01332.X
P577
2009-11-16T00:00:00Z