| P50 | author | Lawren Sack | Q54656412 |
| | Grace P John | Q57216608 |
| | Thomas N. Buckley | Q57412703 |
| P2860 | cites work | Most stomatal closure in woody species under moderate drought can be explained by stomatal responses to leaf turgor | Q39404479 |
| | Bundle-sheath cell regulation of xylem-mesophyll water transport via aquaporins under drought stress: a target of xylem-borne ABA? | Q39453529 |
| | Analysis of the Arabidopsis histidine kinase ATHK1 reveals a connection between vegetative osmotic stress sensing and seed maturation | Q39599748 |
| | Cell biological mechanism for triggering of ABA accumulation under water stress in Vicia faba leaves | Q46411908 |
| | Linking Turgor with ABA Biosynthesis: Implications for Stomatal Responses to Vapor Pressure Deficit across Land Plants. | Q46544788 |
| | Stomatal responses to vapour pressure deficit are regulated by high speed gene expression in angiosperms. | Q46672281 |
| | Variation in the tissue water relations of two sympatric Hawaiian Dubautia species and their natural hybrid | Q46731769 |
| | Up-regulation of NCED3 and ABA biosynthesis occur within minutes of a decrease in leaf turgor but AHK1 is not required. | Q50695765 |
| | A water potential threshold for the increase of abscisic Acid in leaves. | Q54642217 |
| | Abscisic Acid accumulation in cotton leaves in response to dehydration at high pressure | Q83258292 |
| | Abscisic Acid accumulation in spinach leaf slices in the presence of penetrating and nonpenetrating solutes | Q83261542 |
| | Correlation between loss of turgor and accumulation of abscisic acid in detached leaves | Q86897623 |
| | The relationship between leaf water potential ψ leaf and the levels of abscisic acid and ethylene in excised wheat leaves | Q87089275 |
| | Abscisic Acid synthesis and response | Q24597773 |
| | Plant Organellar Proteomics in Response to Dehydration: Turning Protein Repertoire into Insights | Q26752503 |
| | Plant synthetic biology for molecular engineering of signalling and development | Q28066119 |
| | Role of the putative osmosensor Arabidopsis histidine kinase1 in dehydration avoidance and low-water-potential response | Q30009969 |
| | Dynamics of leaf hydraulic conductance with water status: quantification and analysis of species differences under steady state | Q30471538 |
| | The correlations and sequence of plant stomatal, hydraulic, and wilting responses to drought | Q31140570 |
| | Initiation and regulation of water deficit-induced abscisic acid accumulation in maize leaves and roots: cellular volume and water relations | Q33423032 |
| | The ongoing search for the molecular basis of plant osmosensing | Q35543106 |
| | Leveraging abscisic acid receptors for efficient water use in Arabidopsis | Q37021769 |
| | Hydraulic signals in long-distance signaling | Q38094837 |
| | The determinants of leaf turgor loss point and prediction of drought tolerance of species and biomes: a global meta-analysis | Q38895283 |
| | Osmotic adjustment is a prime drought stress adaptive engine in support of plant production | Q38897175 |
| | Relationships between Leaf Water Status, Abscisic Acid Levels, and Stomatal Resistance in Maize and Sorghum | Q38898357 |
| | The dual effect of abscisic acid on stomata | Q39337145 |
| P407 | language of work or name | English | Q1860 |
| P577 | publication date | 2017-10-23 | |
| P1433 | published in | Plant Physiology | Q3906288 |
| P1476 | title | ABA accumulation in dehydrating leaves is associated with decline in cell volume not turgor pressure | |