scholarly article | Q13442814 |
P50 | author | Mari-Cruz Castillo | Q85956764 |
José León | Q48082474 | ||
P2093 | author name string | Alberto Coego | |
Álvaro Costa-Broseta | |||
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Strigolactones are required for nitric oxide to induce root elongation in response to nitrogen and phosphate deficiencies in rice | Q33363147 | ||
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HRS1 acts as a negative regulator of abscisic acid signaling to promote timely germination of Arabidopsis seeds | Q34251213 | ||
Nitric oxide deficiency accelerates chlorophyll breakdown and stability loss of thylakoid membranes during dark-induced leaf senescence in Arabidopsis | Q34590014 | ||
Coordinated regulation of Arabidopsis thaliana development by light and gibberellins. | Q34740504 | ||
Nitric oxide negatively regulates abscisic acid signaling in guard cells by S-nitrosylation of OST1 | Q34985396 | ||
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Sublethal concentrations of salicylic acid decrease the formation of reactive oxygen species but maintain an increased nitric oxide production in the root apex of the ethylene-insensitive never ripe tomato mutants. | Q35671972 | ||
Breathing new life into nitric oxide signaling: A brief overview of the interplay between oxygen and nitric oxide | Q35757318 | ||
Ethylene can stimulate Arabidopsis hypocotyl elongation in the light | Q36056498 | ||
NUCLEAR FACTOR Y, Subunit C (NF-YC) Transcription Factors Are Positive Regulators of Photomorphogenesis in Arabidopsis thaliana | Q36148269 | ||
S-nitrosylation triggers ABI5 degradation to promote seed germination and seedling growth | Q36266253 | ||
Mapping methyl jasmonate-mediated transcriptional reprogramming of metabolism and cell cycle progression in cultured Arabidopsis cells | Q36446259 | ||
Arabidopsis potential calcium sensors regulate nitric oxide levels and the transition to flowering. | Q37080338 | ||
The Arabidopsis MIEL1 E3 ligase negatively regulates ABA signalling by promoting protein turnover of MYB96 | Q37263695 | ||
Antagonism between abscisic acid and ethylene in Arabidopsis acts in parallel with the reciprocal regulation of their metabolism and signaling pathways | Q37276993 | ||
Nitric oxide in fruit ripening: trends and opportunities. | Q37716092 | ||
Role of nitric oxide in tolerance of plants to abiotic stress | Q37786564 | ||
Nitric oxide counters ethylene effects on ripening fruits. | Q38002342 | ||
Nitric oxide as a key component in hormone-regulated processes | Q38098885 | ||
Ligand perception, activation, and early signaling of plant steroid receptor brassinosteroid insensitive 1. | Q38110335 | ||
Nitric oxide, antioxidants and prooxidants in plant defence responses | Q38160484 | ||
BAK1 directly regulates brassinosteroid perception and BRI1 activation | Q38168897 | ||
Diverse functional interactions between nitric oxide and abscisic acid in plant development and responses to stress. | Q38174051 | ||
Nitric oxide: an effective weapon of the plant or the pathogen? | Q38211436 | ||
BZR1 is a transcriptional repressor with dual roles in brassinosteroid homeostasis and growth responses | Q38331203 | ||
Arabidopsis NF-YCs Mediate the Light-Controlled Hypocotyl Elongation via Modulating Histone Acetylation. | Q50474854 | ||
The TRANSPLANTA collection of Arabidopsis lines: a resource for functional analysis of transcription factors based on their conditional overexpression. | Q50694047 | ||
ORA47 (octadecanoid-responsive AP2/ERF-domain transcription factor 47) regulates jasmonic acid and abscisic acid biosynthesis and signaling through binding to a novel cis-element. | Q51445596 | ||
Regulation of Arabidopsis brassinosteroid signaling by atypical basic helix-loop-helix proteins. | Q51919952 | ||
A battery of transcription factors involved in the regulation of secondary cell wall biosynthesis in Arabidopsis. | Q51947460 | ||
A central role of salicylic Acid in plant disease resistance. | Q54191065 | ||
The Role of Strigolactone in the Cross-Talk Between Arabidopsis thaliana and the Endophytic Fungus Mucor sp. | Q55317556 | ||
MAX2 participates in an SCF complex which acts locally at the node to suppress shoot branching | Q56978846 | ||
BES1 Accumulates in the Nucleus in Response to Brassinosteroids to Regulate Gene Expression and Promote Stem Elongation | Q59303786 | ||
Identification of a novelArabidopsis thaliananitric oxide-binding molecule with guanylate cyclase activityin vitro | Q59465313 | ||
Nitric oxide stimulates seed germination and de-etiolation, and inhibits hypocotyl elongation, three light-inducible responses in plants | Q73422070 | ||
The Arabidopsis deetiolated2 mutant is blocked early in brassinosteroid biosynthesis | Q73945895 | ||
Breaking the apple embryo dormancy by nitric oxide involves the stimulation of ethylene production | Q79680759 | ||
Different plant hormones regulate similar processes through largely nonoverlapping transcriptional responses | Q80092866 | ||
Nitric oxide represses the Arabidopsis floral transition | Q80788196 | ||
Photochemical Production and Consumption Mechanisms of Nitric Oxide in Seawater | Q85211501 | ||
Strigolactone-nitric oxide interplay in plants: The story has just begun | Q87875899 | ||
Plant cysteine oxidases control the oxygen-dependent branch of the N-end-rule pathway. | Q38351785 | ||
Arabidopsis MYB30 is a direct target of BES1 and cooperates with BES1 to regulate brassinosteroid-induced gene expression. | Q38357084 | ||
Nitric oxide is a ubiquitous signal for maintaining redox balance in plant cells: regulation of ascorbate peroxidase as a case study | Q38370297 | ||
Nitric oxide sensing in plants is mediated by proteolytic control of group VII ERF transcription factors. | Q38552244 | ||
Smoke and Hormone Mirrors: Action and Evolution of Karrikin and Strigolactone Signaling | Q38724720 | ||
Unique drought resistance functions of the highly ABA-induced clade A protein phosphatase 2Cs. | Q38907599 | ||
Arabidopsis WRKY46, WRKY54, and WRKY70 Transcription Factors Are Involved in Brassinosteroid-Regulated Plant Growth and Drought Responses | Q38941670 | ||
Functional characterization of four APETALA2-family genes (RAP2.6, RAP2.6L, DREB19 and DREB26) in Arabidopsis | Q39148635 | ||
Enhanced abscisic acid-mediated responses in nia1nia2noa1-2 triple mutant impaired in NIA/NR- and AtNOA1-dependent nitric oxide biosynthesis in Arabidopsis | Q39191688 | ||
DELLA Proteins Promote Anthocyanin Biosynthesis via Sequestering MYBL2 and JAZ Suppressors of the MYB/bHLH/WD40 Complex in Arabidopsis thaliana | Q40015361 | ||
Strigolactone-regulated hypocotyl elongation is dependent on cryptochrome and phytochrome signaling pathways in Arabidopsis. | Q40143738 | ||
Salicylic acid activates nitric oxide synthesis in Arabidopsis | Q40167717 | ||
NO activation of guanylyl cyclase | Q40327686 | ||
BRI1-EMS-suppressor 1 gain-of-function mutant shows higher susceptibility to necrotrophic fungal infection | Q40818761 | ||
Nitric oxide suppresses the inhibitory effect of abscisic acid on seed germination by S-nitrosylation of SnRK2 proteins | Q40890241 | ||
Oxygen sensing coordinates photomorphogenesis to facilitate seedling survival. | Q40931852 | ||
Nitric Oxide-Mediated Maize Root Apex Responses to Nitrate are Regulated by Auxin and Strigolactones. | Q41925603 | ||
Combinatorial interaction network of abscisic acid receptors and coreceptors from Arabidopsis thaliana | Q42102910 | ||
Reduced nitric oxide levels during drought stress promote drought tolerance in barley and is associated with elevated polyamine biosynthesis | Q42683816 | ||
Nia1 and Nia2 are involved in exogenous salicylic acid-induced nitric oxide generation and stomatal closure in Arabidopsis | Q43106054 | ||
Nitric oxide mediates strigolactone signaling in auxin and ethylene-sensitive lateral root formation in sunflower seedlings | Q43199924 | ||
Characterization and biological function of the ISOCHORISMATE SYNTHASE2 gene of Arabidopsis | Q44002268 | ||
Requirement of salicylic Acid for the induction of systemic acquired resistance | Q44956333 | ||
MAX1 encodes a cytochrome P450 family member that acts downstream of MAX3/4 to produce a carotenoid-derived branch-inhibiting hormone | Q45287537 | ||
The interacting MYB75 and KNAT7 transcription factors modulate secondary cell wall deposition both in stems and seed coat in Arabidopsis | Q45346762 | ||
Selective mRNA translation coordinates energetic and metabolic adjustments to cellular oxygen deprivation and reoxygenation in Arabidopsis thaliana | Q46181088 | ||
Phenotypic and Genetic Analysis of det2, a New Mutant That Affects Light-Regulated Seedling Development in Arabidopsis | Q46441391 | ||
Inactivation of PYR/PYL/RCAR ABA receptors by tyrosine nitration may enable rapid inhibition of ABA signaling by nitric oxide in plants. | Q46676067 | ||
Differential inhibition of Arabidopsis methionine adenosyltransferases by protein S-nitrosylation | Q46859346 | ||
S-nitrosylation influences the structure and DNA binding activity of AtMYB30 transcription factor from Arabidopsis thaliana | Q46925725 | ||
Nitric oxide production in plants: an update. | Q47293847 | ||
Strigolactone-triggered stomatal closure requires hydrogen peroxide synthesis and nitric oxide production in an abscisic acid-independent manner | Q47644218 | ||
Nitric oxide regulates DELLA content and PIF expression to promote photomorphogenesis in Arabidopsis. | Q50277812 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P4510 | describes a project that uses | limma | Q112236343 |
P433 | issue | 21 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 5265-5278 | |
P577 | publication date | 2018-10-01 | |
P1433 | published in | Journal of Experimental Botany | Q6295179 |
P1476 | title | Nitric oxide responses in Arabidopsis hypocotyls are mediated by diverse phytohormone pathways | |
P478 | volume | 69 |
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