Pages that link to "Q39577251"

The following pages link to Molecular tailoring of farnesylation for plant drought tolerance and yield protection (Q39577251):

Displaying 50 items.

• Recent progress in drought and salt tolerance studies in Brassica crops (Q27026485) (← links)
• RNA interference: concept to reality in crop improvement (Q27164320) (← links)
• Structural basis for selective activation of ABA receptors (Q27664125) (← links)
• Agrochemical control of plant water use using engineered abscisic acid receptors (Q27697901) (← links)
• Soybean Seed Development: Fatty Acid and Phytohormone Metabolism and Their Interactions (Q28602696) (← links)
• Transcriptome-wide profiling and expression analysis of diploid and autotetraploid Paulownia tomentosa × Paulownia fortunei under drought stress (Q28652015) (← links)
• Molecular and systems approaches towards drought-tolerant canola crops. (Q31046049) (← links)
• The role of lipid post-translational modification in plant developmental processes (Q33357999) (← links)
• The CaaX specificities of Arabidopsis protein prenyltransferases explain era1 and ggb phenotypes (Q33611248) (← links)
• Virus-induced gene silencing is a versatile tool for unraveling the functional relevance of multiple abiotic-stress-responsive genes in crop plants (Q33859794) (← links)
• Overexpressing a NAM, ATAF, and CUC (NAC) transcription factor enhances drought resistance and salt tolerance in rice (Q34559402) (← links)
• The guard cell as a single-cell model towards understanding drought tolerance and abscisic acid action (Q34933613) (← links)
• High-level expression of sugar inducible gene2 (HSI2) is a negative regulator of drought stress tolerance in Arabidopsis (Q35028127) (← links)
• Small RNAs in plants: recent development and application for crop improvement (Q35246904) (← links)
• Virus-induced down-regulation of GmERA1A and GmERA1B genes enhances the stomatal response to abscisic acid and drought resistance in soybean (Q36349719) (← links)
• The control of transpiration. Insights from Arabidopsis (Q36702501) (← links)
• Physiological, biochemical, and molecular mechanisms of heat stress tolerance in plants (Q36913632) (← links)
• Transgenic approaches for abiotic stress tolerance in plants: retrospect and prospects (Q37008524) (← links)
• Evaluation of seven function-known candidate genes for their effects on improving drought resistance of transgenic rice under field conditions. (Q37091503) (← links)
• Overexpression of PYL5 in rice enhances drought tolerance, inhibits growth, and modulates gene expression (Q37524633) (← links)
• Physiological and molecular approaches to improve drought resistance in soybean (Q37527420) (← links)
• Ectopic Expression of OsSta2 Enhances Salt Stress Tolerance in Rice (Q37692055) (← links)
• Transcription factors as tools to engineer enhanced drought stress tolerance in plants (Q37837740) (← links)
• Plant hormone interactions: innovative targets for crop breeding and management (Q38014014) (← links)
• Analysis of constituents for phenotyping drought tolerance in crop improvement (Q38016853) (← links)
• Genetic engineering to improve plant performance under drought: physiological evaluation of achievements, limitations, and possibilities (Q38060697) (← links)
• Global reprogramming of transcription and metabolism in Medicago truncatula during progressive drought and after rewatering (Q38478524) (← links)
• DroughtDB: an expert-curated compilation of plant drought stress genes and their homologs in nine species (Q38870972) (← links)
• Stress-inducible expression of barley Hva1 gene in transgenic mulberry displays enhanced tolerance against drought, salinity and cold stress (Q38940864) (← links)
• Overexpression of an ABA biosynthesis gene using a stress-inducible promoter enhances drought resistance in petunia (Q38995900) (← links)
• Gene trap-based identification of a guard cell promoter in Arabidopsis. (Q39010285) (← links)
• Transgenic alteration of ethylene biosynthesis increases grain yield in maize under field drought-stress conditions (Q39039093) (← links)
• OsNAC5 overexpression enlarges root diameter in rice plants leading to enhanced drought tolerance and increased grain yield in the field (Q39104907) (← links)
• Overexpression of Arabidopsis MYB96 confers drought resistance in Camelina sativa via cuticular wax accumulation (Q39167319) (← links)
• RNAi-mediated disruption of squalene synthase improves drought tolerance and yield in rice (Q39209362) (← links)
• Virus-induced gene silencing of Arabidopsis thaliana gene homologues in wheat identifies genes conferring improved drought tolerance (Q39211275) (← links)
• Regulated expression of an isopentenyltransferase gene (IPT) in peanut significantly improves drought tolerance and increases yield under field conditions (Q39373475) (← links)
• The overexpression of OsNAC9 alters the root architecture of rice plants enhancing drought resistance and grain yield under field conditions. (Q39389004) (← links)
• The Arabidopsis thaliana MYB60 promoter provides a tool for the spatio-temporal control of gene expression in stomatal guard cells (Q39414439) (← links)
• Shoot-specific down-regulation of protein farnesyltransferase (alpha-subunit) for yield protection against drought in canola (Q39577214) (← links)
• The Arabidopsis heat-intolerant 5 (hit5)/enhanced response to aba 1 (era1) mutant reveals the crucial role of protein farnesylation in plant responses to heat stress (Q39604972) (← links)
• Over-expression of a LEA gene in rice improves drought resistance under the field conditions (Q39607299) (← links)
• ASG2 is a farnesylated DWD protein that acts as ABA negative regulator in Arabidopsis. (Q40765561) (← links)
• Comparative population genomics of maize domestication and improvement (Q41155351) (← links)
• Constitutive or seed-specific overexpression of Arabidopsis G-protein γ subunit 3 (AGG3) results in increased seed and oil production and improved stress tolerance in Camelina sativa (Q43445864) (← links)
• Proteins prenylated by type I protein geranylgeranyltransferase act positively on the jasmonate signalling pathway triggering the biosynthesis of monoterpene indole alkaloids in Catharanthus roseus. (Q46349841) (← links)
• A novel role for protein farnesylation in plant innate immunity (Q46503130) (← links)
• Heat-shock protein 40 is the key farnesylation target in meristem size control, abscisic acid signaling, and drought resistance. (Q47173217) (← links)
• Prenylation is required for polar cell elongation, cell adhesion, and differentiation in Physcomitrella patens (Q50677506) (← links)
• Heat and Drought Stresses in Crops and Approaches for Their Mitigation. (Q52362235) (← links)