review article | Q7318358 |
scholarly article | Q13442814 |
P50 | author | Ralf Kaldenhoff | Q15043946 |
Bernard Genty | Q129944852 | ||
John R. Evans | Q37830454 | ||
Ichiro Terashima | Q43119760 | ||
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Characterization of OsPIP2;7, a water channel protein in rice | Q48735715 | ||
The tobacco aquaporin NtAQP1 is a membrane CO2 pore with physiological functions | Q48820933 | ||
Tobacco aquaporin NtAQP1 is involved in mesophyll conductance to CO2 in vivo. | Q50644238 | ||
Interactions between plasma membrane aquaporins modulate their water channel activity. | Q50683447 | ||
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The Nicotiana tabacum plasma membrane aquaporin NtAQP1 is mercury-insensitive and permeable for glycerol | Q30741430 | ||
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Internal conductance to CO(2) diffusion and C(18)OO discrimination in C(3) leaves | Q33901526 | ||
Chloroplast Movement | Q34264219 | ||
Membranes are more mosaic than fluid | Q34471724 | ||
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FRET imaging in living maize cells reveals that plasma membrane aquaporins interact to regulate their subcellular localization | Q35927926 | ||
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Stand aside stomata, another actor deserves centre stage: the forgotten role of the internal conductance to CO2 transfer. | Q36987682 | ||
Lateral diffusion of CO2 from shaded to illuminated leaf parts affects photosynthesis inside homobaric leaves. | Q39355865 | ||
Facilitated diffusion of CO2 across albumin solutions | Q41892127 | ||
P433 | issue | 8 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 2235-2248 | |
P577 | publication date | 2009-04-23 | |
P1433 | published in | Journal of Experimental Botany | Q6295179 |
P1476 | title | Resistances along the CO2 diffusion pathway inside leaves | |
P478 | volume | 60 |
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Q37867859 | Calcium delivery and storage in plant leaves: exploring the link with water flow |
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Q57071019 | Canola Responses to Drought, Heat, and Combined Stress: Shared and Specific Effects on Carbon Assimilation, Seed Yield, and Oil Composition |
Q38980365 | Carbon dioxide and water transport through plant aquaporins |
Q36043994 | Carbonyl sulfide (COS) as a tracer for canopy photosynthesis, transpiration and stomatal conductance: potential and limitations |
Q92107127 | Cellular perspectives for improving mesophyll conductance |
Q40752679 | Changes in Air CO₂ Concentration Differentially Alter Transcript Levels of NtAQP1 and NtPIP2;1 Aquaporin Genes in Tobacco Leaves |
Q46636943 | Chloroplast avoidance movement is not functional in plants grown under strong sunlight |
Q92210435 | Comparative Genomic Analysis of Rice with Contrasting Photosynthesis and Grain Production under Salt Stress |
Q86081793 | Comparative studies for evaluation of CO₂ fixation in the cavity of the Rubisco enzyme using QM, QM/MM and linear-scaling DFT methods |
Q46331023 | Components of mesophyll resistance and their environmental responses: A theoretical modelling analysis. |
Q90375181 | Computational modelling predicts substantial carbon assimilation gains for C3 plants with a single-celled C4 biochemical pump |
Q28066494 | Connecting Biochemical Photosynthesis Models with Crop Models to Support Crop Improvement |
Q33926743 | Constitutive overexpression of soybean plasma membrane intrinsic protein GmPIP1;6 confers salt tolerance. |
Q46361238 | Coordinated modifications in mesophyll conductance, photosynthetic potentials and leaf nitrogen contribute to explain the large variation in foliage net assimilation rates across Quercus ilex provenances |
Q39024845 | Coordination of Leaf Photosynthesis, Transpiration, and Structural Traits in Rice and Wild Relatives (Genus Oryza). |
Q39530735 | Developmental changes in mesophyll diffusion conductance and photosynthetic capacity under different light and water availabilities in Populus tremula: how structure constrains function |
Q48152993 | Diffusional conductance to CO2 is the key limitation to photosynthesis in salt-stressed leaves of rice (Oryza sativa). |
Q38106631 | Diffusional conductances to CO2 as a target for increasing photosynthesis and photosynthetic water-use efficiency. |
Q50061728 | Direct Measurement Solves Overestimation of Intercellular CO2 Concentration in Leaf Gas-Exchange Measurements. |
Q55332426 | Divergent drivers of leaf trait variation within species, among species, and among functional groups. |
Q34689388 | Does chloroplast size influence photosynthetic nitrogen use efficiency? |
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Q39075374 | Drought response of mesophyll conductance in forest understory species--impacts on water-use efficiency and interactions with leaf water movement |
Q58380012 | Early gene expression in the walnut tree occurring during stimulation of leaf hydraulic conductance by irradiance |
Q38930973 | Effects of drought on mesophyll conductance and photosynthetic limitations at different tree canopy layers. |
Q64058399 | Effects of mesophyll conductance on vegetation responses to elevated CO concentrations in a land surface model |
Q64096101 | Effects of soil nitrogen (N) deficiency on photosynthetic N-use efficiency in N-fixing and non-N-fixing tree seedlings in subtropical China |
Q28660254 | Elements required for an efficient NADP-malic enzyme type C4 photosynthesis |
Q91771766 | Elevated CO2-induced changes in mesophyll conductance and anatomical traits in wild type and carbohydrate-metabolism mutants of Arabidopsis |
Q39526555 | Engineering photorespiration: current state and future possibilities |
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Q38692140 | Excess Diffuse Light Absorption in Upper Mesophyll Limits CO2 Drawdown and Depresses Photosynthesis. |
Q33860096 | Exploiting transplastomically modified Rubisco to rapidly measure natural diversity in its carbon isotope discrimination using tuneable diode laser spectroscopy |
Q42145237 | Extremely thick cell walls and low mesophyll conductance: welcome to the world of ancient living! |
Q30977055 | Fine-scale geographic variation in photosynthetic-related traits of Picea glauca seedlings indicates local adaptation to climate. |
Q36120958 | Gas-tight triblock-copolymer membranes are converted to CO₂ permeable by insertion of plant aquaporins |
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Q37156804 | Genotypically Identifying Wheat Mesophyll Conductance Regulation under Progressive Drought Stress |
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Q36320949 | Harpin Hpa1 Interacts with Aquaporin PIP1;4 to Promote the Substrate Transport and Photosynthesis in Arabidopsis. |
Q52765847 | Hpa1 harpin needs nitroxyl terminus to promote vegetative growth and leaf photosynthesis in Arabidopsis. |
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Q28690812 | Improving photosynthesis |
Q90736649 | In silico study of the role of cell growth factors in photosynthesis using a virtual leaf tissue generator coupled to a microscale photosynthesis gas exchange model |
Q57890266 | Interaction of CO2 concentrations and water stress in semiarid plants causes diverging response in instantaneous water use efficiency and carbon isotope composition |
Q39350102 | Interactive effects of soil water deficit and air vapour pressure deficit on mesophyll conductance to CO2 in Vitis vinifera and Olea europaea. |
Q90280304 | Interspecific differences in how sink-source imbalance causes photosynthetic downregulation among three legume species |
Q59136873 | Investigating the microstructure of plant leaves in 3D with lab-based X-ray computed tomography |
Q58719360 | Is Nitrogen a Key Determinant of Water Transport and Photosynthesis in Higher Plants Upon Drought Stress? |
Q35656451 | Leaf Lateral Asymmetry in Morphological and Physiological Traits of Rice Plant |
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Q57160711 | Leaf economics spectrum in rice: Leaf anatomical, biochemical and physiological trait trade-offs |
Q54402789 | Leaf functional anatomy in relation to photosynthesis. |
Q46457949 | Leaf hydraulic conductance and mesophyll conductance are not closely related within a single species |
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Q88774183 | Leaf hydraulic vulnerability triggers the decline in stomatal and mesophyll conductance during drought in rice |
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Q35865610 | Redesigning photosynthesis to sustainably meet global food and bioenergy demand |
Q37011290 | Regulation of leaf hydraulics: from molecular to whole plant levels |
Q41237612 | Regulation of photosynthesis and stomatal and mesophyll conductance under water stress and recovery in olive trees: correlation with gene expression of carbonic anhydrase and aquaporins |
Q41909828 | Relationship between hexokinase and the aquaporin PIP1 in the regulation of photosynthesis and plant growth. |
Q43125155 | Relationships between carbonyl sulfide (COS) and CO2 during leaf gas exchange |
Q37460496 | Role of mesophyll diffusion conductance in constraining potential photosynthetic productivity in the field |
Q41504267 | Shade Inhibits Leaf Size by Controlling Cell Proliferation and Enlargement in Soybean |
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Q50027350 | Sink-Source Balance and Down-Regulation of Photosynthesis in Raphanus sativus: Effects of Grafting, N and CO2. |
Q47268044 | Size matters for single-cell C4 photosynthesis in Bienertia |
Q53237693 | Spatial variation in photosynthetic CO(2) carbon and oxygen isotope discrimination along leaves of the monocot triticale (Triticum × Secale) relates to mesophyll conductance and the Péclet effect. |
Q43646647 | Steady-state models of photosynthesis |
Q46290831 | Stomatal conductance, mesophyll conductance, and transpiration efficiency in relation to leaf anatomy in rice and wheat genotypes under drought |
Q53563732 | Substantial role for carbonic anhydrase in latitudinal variation in mesophyll conductance of Populus trichocarpa Torr. & Gray. |
Q34375507 | Temperature response of carbon isotope discrimination and mesophyll conductance in tobacco |
Q35254314 | Temperature responses of mesophyll conductance differ greatly between species |
Q46246330 | The Arabidopsis aquaporin PIP1;2 rules cellular CO(2) uptake |
Q36177164 | The Evolutionary Basis of Naturally Diverse Rice Leaves Anatomy |
Q39003628 | The Péclet effect on leaf water enrichment correlates with leaf hydraulic conductance and mesophyll conductance for CO(2). |
Q51674273 | The benefits of photorespiratory bypasses: how can they work? |
Q46304223 | The bias of a two-dimensional view: comparing two-dimensional and three-dimensional mesophyll surface area estimates using noninvasive imaging. |
Q38048747 | The cyanobacterial CCM as a source of genes for improving photosynthetic CO2 fixation in crop species |
Q49282221 | The drought-tolerant Solanum pennellii regulates leaf water loss and induces genes involved in amino acid and ethylene/jasmonate metabolism under dehydration. |
Q90474769 | The influence of stomatal morphology and distribution on photosynthetic gas exchange |
Q34497984 | The ins and outs of CO2. |
Q39047602 | The light response of mesophyll conductance is controlled by structure across leaf profiles |
Q30954066 | The many meanings of gross photosynthesis and their implication for photosynthesis research from leaf to globe |
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Q39479238 | The mesophyll anatomy enhancing CO2 diffusion is a key trait for improving rice photosynthesis. |
Q46647932 | The photosynthetic capacity in 35 ferns and fern allies: mesophyll CO2 diffusion as a key trait |
Q41867173 | The physiological basis for genetic variation in water use efficiency and carbon isotope composition in Arabidopsis thaliana |
Q61449383 | The response of mesophyll conductance to short- and long-term environmental conditions in chickpea genotypes |
Q51050887 | The role of mesophyll conductance in the economics of nitrogen and water use in photosynthesis. |
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Q89629948 | Using photorespiratory oxygen response to analyse leaf mesophyll resistance |
Q33798457 | Using tunable diode laser spectroscopy to measure carbon isotope discrimination and mesophyll conductance to CO₂ diffusion dynamically at different CO₂ concentrations |
Q48838495 | Vapour pressure deficit during growth has little impact on genotypic differences of transpiration efficiency at leaf and whole-plant level: an example from Populus nigra L. |
Q48152938 | Variable Mesophyll Conductance among Soybean Cultivars Sets a Tradeoff between Photosynthesis and Water-Use-Efficiency |
Q53099697 | Variable mesophyll conductance revisited: theoretical background and experimental implications. |
Q38925599 | Variation among Soybean Cultivars in Mesophyll Conductance and Leaf Water Use Efficiency |
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Q52321845 | Water-stress induced downsizing of light-harvesting antenna complex protects developing rice seedlings from photo-oxidative damage. |
Q31159726 | Weak coordination between leaf structure and function among closely related tomato species |
Q47643117 | Wheat plant selection for high yields entailed improvement of leaf anatomical and biochemical traits including tolerance to non-optimal temperature conditions |