Cross-talk between abscisic acid-dependent and abscisic acid-independent pathways during abiotic stress.
about
The Role and Regulation of ABI5 (ABA-Insensitive 5) in Plant Development, Abiotic Stress Responses and Phytohormone CrosstalkFlower bud transcriptome analysis of Sapium sebiferum (Linn.) Roxb. and primary investigation of drought induced flowering: pathway construction and G-quadruplex prediction based on transcriptomeStructural basis and functions of abscisic acid receptors PYLs.Increased drought tolerance through the suppression of ESKMO1 gene and overexpression of CBF-related genes in Arabidopsis.Drought tolerance conferred to sugarcane by association with Gluconacetobacter diazotrophicus: a transcriptomic view of hormone pathways.TraeALDH7B1-5A, encoding aldehyde dehydrogenase 7 in wheat, confers improved drought tolerance in Arabidopsis.Temperature expression patterns of genes and their coexpression with LncRNAs revealed by RNA-Seq in non-heading Chinese cabbagePhosphatase ABI1 and okadaic acid-sensitive phosphoprotein phosphatases inhibit salt stress-activated SnRK2.4 kinase.Banana fruit VQ motif-containing protein5 represses cold-responsive transcription factor MaWRKY26 involved in the regulation of JA biosynthetic genes.Physiological Investigation and Transcriptome Analysis of Polyethylene Glycol (PEG)-Induced Dehydration Stress in Cassava.Overexpression of MfPIP2-7 from Medicago falcata promotes cold tolerance and growth under NO3 (-) deficiency in transgenic tobacco plants.Abscisic Acid-Induced H2O2 Accumulation Enhances Antioxidant Capacity in Pumpkin-Grafted Cucumber Leaves under Ca(NO3)2 Stress.Quantitative Proteomic Analyses Identify ABA-Related Proteins and Signal Pathways in Maize Leaves under Drought Conditions.Improved cold tolerance in Elymus nutans by exogenous application of melatonin may involve ABA-dependent and ABA-independent pathwaysAbscisic Acid Signaling and Abiotic Stress Tolerance in Plants: A Review on Current Knowledge and Future Prospects.The phytohormone crosstalk paradigm takes center stage in understanding how plants respond to abiotic stresses.Protein S-nitrosylation in plants under abiotic stress: an overview.The protein phosphatase 2C clade A protein OsPP2C51 positively regulates seed germination by directly inactivating OsbZIP10.Global Gene Expression Analysis Reveals Crosstalk between Response Mechanisms to Cold and Drought Stresses in Cassava Seedlings.Global transcriptional profiling of a cold-tolerant rice variety under moderate cold stress reveals different cold stress response mechanisms.Abscisic-acid-dependent basic leucine zipper (bZIP) transcription factors in plant abiotic stress.Bioinformatic and expression analyses on carotenoid dioxygenase genes in fruit development and abiotic stress responses in Fragaria vesca.Physiological impacts of ABA-JA interactions under water-limitation.Hsp transcript induction is correlated with physiological changes under drought stress in Indian mustard.Co-expression of NCED and ALO improves vitamin C level and tolerance to drought and chilling in transgenic tobacco and stylo plants.Overexpression of OsERF48 causes regulation of OsCML16, a calmodulin-like protein gene that enhances root growth and drought toleranceFunctional Characterization of Hevea brasiliensis CRT/DRE Binding Factor 1 Gene Revealed Regulation Potential in the CBF Pathway of Tropical Perennial TreeLosing the Warning Signal: Drought Compromises the Cross-Talk of Signaling Molecules in Quercus ilex Exposed to Ozone.Jasmonoyl isoleucine accumulation is needed for abscisic acid build-up in roots of Arabidopsis under water stress conditions.Overexpression of an ABA biosynthesis gene using a stress-inducible promoter enhances drought resistance in petunia.Nitric oxide function in plant abiotic stress.Early osmotic adjustment responses in drought-resistant and drought-sensitive oilseed rape.Characterization of a lily anther-specific gene encoding cytoskeleton-binding glycoproteins and overexpression of the gene causes severe inhibition of pollen tube growth.Expression profiling of abiotic stress-inducible genes in response to multiple stresses in rice (Oryza sativa L.) varieties with contrasting level of stress tolerance.The MYB96-HHP module integrates cold and abscisic acid signaling to activate the CBF-COR pathway in Arabidopsis.Toward Unveiling the Mechanisms for Transcriptional Regulation of Proline Biosynthesis in the Plant Cell Response to Biotic and Abiotic Stress Conditions.The Brachypodium distachyon BdWRKY36 gene confers tolerance to drought stress in transgenic tobacco plants.The Protein Kinase SmSnRK2.6 Positively Regulates Phenolic Acid Biosynthesis in Salvia miltiorrhiza by Interacting with SmAREB1.Kinetics of retrograde signalling initiation in the high light response of Arabidopsis thalianaAsHSP17, a creeping bentgrass small heat shock protein modulates plant photosynthesis and ABA-dependent and independent signalling to attenuate plant response to abiotic stress.
P2860
Q28072688-6D08D5FE-EC30-4DB8-BE61-42CBC9780E66Q28652830-17D42C6F-75AA-4678-AC7E-061C40134A5FQ30905499-A1AF6C43-6E78-4ECB-841C-19F4353218C6Q35237358-73C6E733-8C6F-4E8F-8B28-29ED0D1AD52EQ35502740-E5DD8021-A0B1-42EC-BAD5-D8FA1380D788Q35609841-8957820B-9768-42AC-BFCA-747C764A7399Q35996650-8A494021-23D9-497D-948D-ECC402A3F937Q36051115-6675B49A-5048-41AE-8DD8-7E7245F92325Q36719595-DB1C8CEB-DC28-42F4-9DA2-4C6081CF44E5Q36743471-7473B02F-16CD-4505-985D-6E4F64B49912Q37002707-378DE97C-D674-404E-AABC-90A8CA1C673EQ37298747-1F9114CC-3EDF-4E3F-A8C6-9A885CC8EC13Q37482607-EDFE7586-1D24-435C-936C-4EF70E9A2DB4Q37550138-D54189A1-2937-45EF-9443-070BE747C097Q37651681-AEF56364-B1C7-474C-8103-81DB8CA58B77Q38113141-E7A8C10E-AEB9-4797-A28C-97BCE394DEEAQ38143020-DDB27795-1607-477D-8C27-354016D49BD4Q38407397-428D8604-B503-4602-A236-508E1A03BA74Q38430400-96B8BA19-9EB8-458A-8557-54E9F2EE183DQ38472066-68AB0237-8184-4F5B-B679-475750654FCFQ38669779-8281BB16-D9AC-4F77-83BA-9C91F6564220Q38690738-0C7BBCFB-2A5A-462F-945B-F1F6E9203B0BQ38864768-B33884A9-1C55-49DB-9CAF-16F362FAC645Q38875519-4DFDCA0B-83E5-4E2E-98C7-4A6D7C2A4CC7Q38891835-68C431FE-3423-449B-921A-D94CACD73E9FQ38937885-E7F8D4DA-DF5E-48F4-9CA6-686ADD85F78EQ38942975-6D39C568-BD31-499C-8FA7-0D7BAE834F90Q38954430-0043097E-4D32-4764-BB09-1604C648BD36Q38966654-AB7944E2-5BE1-4914-B75E-F981231C3441Q38995900-CEE65892-74C7-4D3E-899A-BFF1AD2C0BEEQ38998740-FFC79999-A804-4B83-B35F-0EA024D47207Q39056624-C6AA3172-6103-4D85-81E1-C6633B80CE9DQ39127553-90A5A103-5737-4F1C-A243-2427AB85C6F9Q39146582-749933B6-DE92-43D1-8DBF-2FFC7C701092Q39166394-279F3B86-00C7-4DAD-A423-390BEE5E97C9Q39381656-AC4296BE-5ECA-44A4-A929-CB490E61636BQ39498330-7B51A6B8-EA3B-48E8-B34B-02BB3EEA39FEQ41352987-A15C4074-F0EC-4BFF-8646-DD96207CBF19Q42414535-8D4467AF-00E9-4FE4-BE5B-10BC980FD140Q42778127-156BF30F-BB75-4E1D-9097-C6CA2FBD5C26
P2860
Cross-talk between abscisic acid-dependent and abscisic acid-independent pathways during abiotic stress.
description
article científic
@ca
article scientifique
@fr
articol științific
@ro
articolo scientifico
@it
artigo científico
@gl
artigo científico
@pt
artigo científico
@pt-br
artikel ilmiah
@id
artikull shkencor
@sq
artículo científico
@es
name
Cross-talk between abscisic ac ...... athways during abiotic stress.
@en
type
label
Cross-talk between abscisic ac ...... athways during abiotic stress.
@en
prefLabel
Cross-talk between abscisic ac ...... athways during abiotic stress.
@en
P2860
P1433
P1476
Cross-talk between abscisic ac ...... pathways during abiotic stress
@en
P2093
Aryadeep Roychoudhury
Supratim Basu
P2860
P304
P356
10.1007/S00299-013-1414-5
P50
P577
2013-03-19T00:00:00Z