The low oxygen, oxidative and osmotic stress responses synergistically act through the ethylene response factor VII genes RAP2.12, RAP2.2 and RAP2.3.
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Plant Adaptation to Multiple Stresses during Submergence and Following DesubmergenceTranscriptomic dissection reveals wide spread differential expression in chickpea during early time points of Fusarium oxysporum f. sp. ciceri Race 1 attackUncovering the differential molecular basis of adaptive diversity in three Echinochloa leaf transcriptomesExposure to various abscission-promoting treatments suggests substantial ERF subfamily transcription factors involvement in the regulation of cassava leaf abscission.Bioinformatics identification of new targets for improving low temperature stress tolerance in spring and winter wheatTranscriptomic analysis of submergence-tolerant and sensitive Brachypodium distachyon ecotypes reveals oxidative stress as a major tolerance factor.Comparative physiological and transcriptomic analyses provide integrated insight into osmotic, cold, and salt stress tolerance mechanisms in bananaGroup VII Ethylene Response Factors Coordinate Oxygen and Nitric Oxide Signal Transduction and Stress Responses in Plants.The reduction in maize leaf growth under mild drought affects the transition between cell division and cell expansion and cannot be restored by elevated gibberellic acid levels.A novel AP2/ERF family transcription factor from Glycine soja, GsERF71, is a DNA binding protein that positively regulates alkaline stress tolerance in Arabidopsis.New insights into reactive oxygen species and nitric oxide signalling under low oxygen in plants.Regulation of Apetala2/Ethylene Response Factors in Plants.ETHYLENE RESPONSE FACTOR 74 (ERF74) plays an essential role in controlling a respiratory burst oxidase homolog D (RbohD)-dependent mechanism in response to different stresses in Arabidopsis.RNAseq revealed the important gene pathways controlling adaptive mechanisms under waterlogged stress in maize.Functional Balancing of the Hypoxia Regulators RAP2.12 and HRA1 Takes Place in vivo in Arabidopsis thaliana Plants.Hypoxia-responsive ERFs involved in postdeastringency softening of persimmon fruit.The key regulator of submergence tolerance, SUB1A, promotes photosynthetic and metabolic recovery from submergence damage in rice leaves.Hypoxia Sensing in Plants: On a Quest for Ion Channels as Putative Oxygen Sensors.ERF-VII members exhibit synergistic and separate roles in Arabidopsis.Both AtrbohD and AtrbohF are essential for mediating responses to oxygen deficiency in Arabidopsis.Redundant ERF-VII Transcription Factors Bind to an Evolutionarily Conserved cis-Motif to Regulate Hypoxia-Responsive Gene Expression in Arabidopsis.Functional Characterization of Waterlogging and Heat Stresses Tolerance Gene Pyruvate decarboxylase 2 from Actinidia deliciosa.A cold responsive ethylene responsive factor from Medicago falcata confers cold tolerance by up-regulation of polyamine turnover, antioxidant protection, and proline accumulation.N-terminomics reveals control of Arabidopsis seed storage proteins and proteases by the Arg/N-end rule pathway.Age-dependent regulation of ERF-VII transcription factor activity in Arabidopsis thaliana.High-CO2/Hypoxia Responsive Transcription Factor Network Involved in Persimmon Fruit Deastringency.Time-course transcriptomics analysis reveals key responses of submerged deepwater rice to flooding.DkNAC7, a novel high-CO2/hypoxia-induced NAC transcription factor, regulates persimmon fruit de-astringency.Comparative Transcriptome Analysis of Waterlogging-Sensitive and Waterlogging-Tolerant Chrysanthemum morifolium Cultivars under Waterlogging Stress and Reoxygenation Conditions.The modulation of acetic acid pathway genes in Arabidopsis improves survival under drought stress.
P2860
Q26773400-12147110-6675-44BF-B139-38402062B219Q33769302-56EE6AC8-1AE4-48D3-9B7E-C73703CD4D5BQ35743663-DAF07CF2-81B6-4F49-B19E-D0CDB702D16BQ36094181-5D73738A-90B7-49C7-A4F6-F12E80040F48Q36311136-C39ED5C7-BA59-49CA-B8DD-1B1DE012A592Q36991024-BAE15DD8-19F1-4266-8B3D-303CEBF7362AQ37657611-9BFAA07E-625B-4E09-B44D-70BCBC7751BCQ38461635-078FB485-4779-4CB1-91B0-1A7D153F8C67Q38668612-2BB658C8-4982-4E08-91D9-F91AE4A57687Q38691842-98CA4AF2-8C04-4E89-9C3A-C1153577CA87Q38707946-59AEC9CA-4847-4C12-82BA-8D60487AD4CBQ39167194-6363740D-0FFC-4214-BF0D-E0B5AA2F3DF6Q39614363-E22FA8B0-8763-45B4-B0C5-31DC7BA7C003Q41477739-096C28C2-C8A9-4317-BAE4-CA7A5CE13C88Q42290596-F9030D74-AC85-4E57-AA09-804229A11C24Q42373453-05BE40B6-C76B-4E07-846B-D611758764FEQ45020758-C277509C-2606-41B4-9841-D9A464E427B6Q46316704-D51FC32E-7456-45B6-87B1-C50A16D540F5Q46361645-85D773C3-FB01-4058-87D0-CF2F4009D7D8Q46397924-A9702266-F410-4C79-9E2A-97F7016BCFF5Q46623916-74442E4E-74B4-41CD-BC7B-1C215C5DEF6DQ47152965-60DF13F7-CC9F-462F-9A48-DBC70B67690FQ47272498-5C12808D-083D-4823-AF4F-152427A671CEQ47370910-C69D9E86-E6D5-450D-ADF0-04785913825CQ48031119-B4B055FB-6F75-457E-B2BE-60D2EEE786D1Q49488952-437EF69A-4C83-441A-8176-5A315B8D2919Q50422098-569C7CAB-5F97-475B-AFF9-10A8E875BBFAQ52655973-7AA610C3-A986-426E-BC38-A550AA943562Q55344983-AE6E49E1-CA6F-41F8-A511-9411FC869C48Q55533907-31705B4C-9798-4106-943A-088FC3EC10A5
P2860
The low oxygen, oxidative and osmotic stress responses synergistically act through the ethylene response factor VII genes RAP2.12, RAP2.2 and RAP2.3.
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年学术文章
@wuu
2015年学术文章
@zh
2015年学术文章
@zh-cn
2015年学术文章
@zh-hans
2015年学术文章
@zh-my
2015年学术文章
@zh-sg
2015年學術文章
@yue
2015年學術文章
@zh-hant
name
The low oxygen, oxidative and ...... es RAP2.12, RAP2.2 and RAP2.3.
@en
The low oxygen, oxidative and ...... es RAP2.12, RAP2.2 and RAP2.3.
@nl
type
label
The low oxygen, oxidative and ...... es RAP2.12, RAP2.2 and RAP2.3.
@en
The low oxygen, oxidative and ...... es RAP2.12, RAP2.2 and RAP2.3.
@nl
prefLabel
The low oxygen, oxidative and ...... es RAP2.12, RAP2.2 and RAP2.3.
@en
The low oxygen, oxidative and ...... es RAP2.12, RAP2.2 and RAP2.3.
@nl
P2093
P2860
P50
P356
P1433
P1476
The low oxygen, oxidative and ...... es RAP2.12, RAP2.2 and RAP2.3.
@en
P2093
Imma Pérez-Salamó
László Bögre
László Szabados
Mary Prathiba Joseph
P2860
P304
P356
10.1111/TPJ.12848
P577
2015-05-14T00:00:00Z