scholarly article | Q13442814 |
P2093 | author name string | Weiming Cai | |
Yanhui Peng | |||
Rajeev Arora | |||
Wuling Lin | |||
P2860 | cites work | The complete set of genes encoding major intrinsic proteins in Arabidopsis provides a framework for a new nomenclature for major intrinsic proteins in plants | Q39576339 |
Aquaporin function, structure, and expression: are there more surprises to surface in water relations? | Q40868272 | ||
The water permeability of Arabidopsis plasma membrane is regulated by divalent cations and pH. | Q42520424 | ||
Alkali grass resists salt stress through high [K+] and an endodermis barrier to Na+. | Q44799750 | ||
Loss of TIP1;1 aquaporin in Arabidopsis leads to cell and plant death | Q45177801 | ||
Characterization of a maize tonoplast aquaporin expressed in zones of cell division and elongation. | Q45969191 | ||
Plasma membrane aquaporins play a significant role during recovery from water deficit | Q46049097 | ||
The role of aquaporins and membrane damage in chilling and hydrogen peroxide induced changes in the hydraulic conductance of maize roots. | Q46389057 | ||
Differential responses of maize MIP genes to salt stress and ABA. | Q46745744 | ||
Expression of a cauliflower tonoplast aquaporin tagged with GFP in tobacco suspension cells correlates with an increase in cell size | Q47448098 | ||
Significance of plasmalemma aquaporins for water-transport in Arabidopsis thaliana | Q47779664 | ||
Isolation and functional characterization of PgTIP1, a hormone-autotrophic cells-specific tonoplast aquaporin in ginseng | Q48082158 | ||
Over-expression of a barley aquaporin increased the shoot/root ratio and raised salt sensitivity in transgenic rice plants. | Q48212887 | ||
The tobacco aquaporin NtAQP1 is a membrane CO2 pore with physiological functions | Q48820933 | ||
PIP1 plasma membrane aquaporins in tobacco: from cellular effects to function in plants | Q48862895 | ||
Novel regulation of aquaporins during osmotic stress. | Q50672400 | ||
The blue light-responsive AthH2 gene of Arabidopsis thaliana is primarily expressed in expanding as well as in differentiating cells and encodes a putative channel protein of the plasmalemma. | Q50766609 | ||
Water relations and an expression analysis of plasma membrane intrinsic proteins in sensitive and tolerant rice during chilling and recovery. | Q51725591 | ||
Plant aquaporins. | Q52118774 | ||
Overexpression of the Arabidopsis CBF3 transcriptional activator mimics multiple biochemical changes associated with cold acclimation | Q73295037 | ||
Genetically Engineered Plants Resistant to Soil Drying and Salt Stress: How to Interpret Osmotic Relations? | Q74776276 | ||
Adaptations to Environmental Stresses | Q74813182 | ||
Aquaporin localization - how valid are the TIP and PIP labels? | Q77735877 | ||
Rapid increase of vacuolar volume in response to salt stress | Q78768971 | ||
Identification of 33 rice aquaporin genes and analysis of their expression and function | Q80404803 | ||
Molecular Responses to Water Deficit | Q24672484 | ||
From genome to function: the Arabidopsis aquaporins | Q24802020 | ||
Floral dip: a simplified method for Agrobacterium-mediated transformation of Arabidopsis thaliana | Q27860555 | ||
Aquaporins constitute a large and highly divergent protein family in maize | Q28359913 | ||
Monitoring the expression pattern of 1300 Arabidopsis genes under drought and cold stresses by using a full-length cDNA microarray | Q30649918 | ||
MIP genes are down-regulated under drought stress in Nicotiana glauca | Q30695577 | ||
Comparative analysis of expressed sequence tags from cold-acclimated and non-acclimated leaves of Rhododendron catawbiense Michx | Q30854429 | ||
Role of a single aquaporin isoform in root water uptake. | Q30884874 | ||
Identification of cold acclimation-responsive Rhododendron genes for lipid metabolism, membrane transport and lignin biosynthesis: importance of moderately abundant ESTs in genomic studies | Q33262447 | ||
Plant vacuoles | Q33859533 | ||
Plasma membrane intrinsic proteins from maize cluster in two sequence subgroups with differential aquaporin activity | Q33888419 | ||
From The Cover: A role for Arabidopsis cryptochromes and COP1 in the regulation of stomatal opening. | Q33922784 | ||
Sodium transport and salt tolerance in plants | Q33954555 | ||
The vacuolar membrane protein gamma-TIP creates water specific channels in Xenopus oocytes | Q34052068 | ||
So what's new in the field of plant cold acclimation? Lots! | Q34128895 | ||
Aquaporins: water channel proteins of plant and animal cells | Q34293097 | ||
The role of aquaporins in root water uptake. | Q34861486 | ||
Regulatory network of gene expression in the drought and cold stress responses. | Q35217896 | ||
Molecular genetic perspectives on cross-talk and specificity in abiotic stress signalling in plants. | Q35606822 | ||
PLANT COLD ACCLIMATION: Freezing Tolerance Genes and Regulatory Mechanisms | Q35687158 | ||
Clinical relevance of basic research on red cell membranes | Q36071188 | ||
High-affinity potassium and sodium transport systems in plants. | Q36383140 | ||
Modulating the expression of aquaporin genes in planta: A key to understand their physiological functions? | Q36437569 | ||
Identification of cold-inducible downstream genes of the Arabidopsis DREB1A/CBF3 transcriptional factor using two microarray systems | Q38340712 | ||
Overexpression of a plasma membrane aquaporin in transgenic tobacco improves plant vigor under favorable growth conditions but not under drought or salt stress | Q38862932 | ||
Arabidopsis CBF1 overexpression induces COR genes and enhances freezing tolerance | Q39099110 | ||
An expression analysis of a gene family encoding plasma membrane aquaporins in response to abiotic stresses in Arabidopsis thaliana | Q39100826 | ||
Improving plant drought, salt, and freezing tolerance by gene transfer of a single stress-inducible transcription factor | Q39123184 | ||
The role of aquaporin RWC3 in drought avoidance in rice | Q39178210 | ||
P433 | issue | 3 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | drought | Q43059 |
ginseng | Q20817212 | ||
halotolerance | Q1529024 | ||
tonoplast | Q2140832 | ||
drought tolerance | Q12142810 | ||
Panax ginseng | Q182881 | ||
overexpression | Q61643320 | ||
P304 | page(s) | 729-740 | |
P577 | publication date | 2007-04-19 | |
P1433 | published in | Planta | Q15762724 |
P1476 | title | Overexpression of a Panax ginseng tonoplast aquaporin alters salt tolerance, drought tolerance and cold acclimation ability in transgenic Arabidopsis plants | |
P478 | volume | 226 |
Q57104718 | A Growth-Promoting Bacteria, DCY84 Enhanced Salt Stress Tolerance by Activating Defense-Related Systems in |
Q36862308 | A transient assay system for the assessment of cell-autonomous gene function in dehydration-stressed barley. |
Q39344372 | Abiotic stresses influence the transcript abundance of PIP and TIP aquaporins in Festuca species |
Q39910829 | Acceleration of vacuolar regeneration and cell growth by overexpression of an aquaporin NtTIP1;1 in tobacco BY-2 cells |
Q87388123 | Acclimation of hydrogen peroxide enhances salt tolerance by activating defense-related proteins in Panax ginseng C.A. Meyer |
Q62863378 | Aquaporins and Root Water Uptake |
Q38980365 | Carbon dioxide and water transport through plant aquaporins |
Q92074807 | Comparative phylogenetic analysis of aquaporins provides insight into the gene family expansion and evolution in plants and their role in drought tolerant and susceptible chickpea cultivars |
Q58787055 | Cooperativity in Plant Plasma Membrane Intrinsic Proteins (PIPs): Mechanism of Increased Water Transport in Maize PIP1 Channels in Hetero-tetramers |
Q42799941 | Coordinated post-translational responses of aquaporins to abiotic and nutritional stimuli in Arabidopsis roots |
Q39702810 | Deep-sequencing transcriptome analysis of field-grown Medicago sativa L. crown buds acclimated to freezing stress |
Q43275549 | Differential adaptation of high- and low-chill dormant peaches in winter through aquaporin gene expression and soluble sugar content |
Q92405388 | Dynamic Physiological Phenotyping of Drought-Stressed Pepper Plants Treated With "Productivity-Enhancing" and "Survivability-Enhancing" Biostimulants |
Q60959648 | Exploring the Roles of Aquaporins in Plant⁻Microbe Interactions |
Q34106905 | Expression of Chlorovirus MT325 aquaglyceroporin (aqpv1) in tobacco and its role in mitigating drought stress. |
Q39219834 | Expression of the citrus CsTIP2;1 gene improves tobacco plant growth, antioxidant capacity and physiological adaptation under stress conditions |
Q45894432 | Expression profiles of aquaporin homologues and petal movement during petal development in Tulipa gesneriana |
Q39176881 | First cloning and characterization of two functional aquaporin genes from an arbuscular mycorrhizal fungus Glomus intraradices. |
Q56951310 | Functions, mechanisms and regulation of endophytic and epiphytic microbial communities of plants |
Q38261862 | General mechanisms of drought response and their application in drought resistance improvement in plants |
Q38097775 | Genetic approaches towards overcoming water deficit in plants - special emphasis on LEAs |
Q38060697 | Genetic engineering to improve plant performance under drought: physiological evaluation of achievements, limitations, and possibilities |
Q37447199 | Genome-Wide Analysis of the Aquaporin Gene Family in Chickpea (Cicer arietinum L.). |
Q36058003 | Genome-Wide Characterization of Major Intrinsic Proteins in Four Grass Plants and Their Non-Aqua Transport Selectivity Profiles with Comparative Perspective. |
Q57462781 | Genome-Wide Identification and Transcriptional Regulation of Aquaporin Genes in Bread Wheat ( L.) under Water Stress |
Q49216913 | Genome-wide analyses of direct target genes of four rice NAC-domain transcription factors involved in drought tolerance |
Q28749630 | Genome-wide analysis of major intrinsic proteins in the tree plant Populus trichocarpa: characterization of XIP subfamily of aquaporins from evolutionary perspective |
Q38879349 | Genome-wide identification and characterization of aquaporin gene family in common bean (Phaseolus vulgaris L.). |
Q53147973 | Genome-wide identification and characterization of aquaporin genes (AQPs) in Chinese cabbage (Brassica rapa ssp. pekinensis). |
Q33830197 | Genome-wide identification of Major Intrinsic Proteins in Glycine soja and characterization of GmTIP2;1 function under salt and water stress |
Q39345140 | Halophytes: Potential Resources for Salt Stress Tolerance Genes and Promoters. |
Q38873912 | Heterologous Expression of Panax ginseng PgTIP1 Confers Enhanced Salt Tolerance of Soybean Cotyledon Hairy Roots, Composite, and Whole Plants |
Q35661484 | Heterologous Expression of Two Jatropha Aquaporins Imparts Drought and Salt Tolerance and Improves Seed Viability in Transgenic Arabidopsis thaliana |
Q35041436 | Heterologous expression of the wheat aquaporin gene TaTIP2;2 compromises the abiotic stress tolerance of Arabidopsis thaliana |
Q42121197 | Heterologous expression of tulip petal plasma membrane aquaporins in Pichia pastoris for water channel analysis |
Q35639861 | Identification of cold tolerance genes from leaves of mangrove plant Kandelia obovata by suppression subtractive hybridization |
Q36049226 | Identification of early salt stress responsive proteins in seedling roots of upland cotton (Gossypium hirsutum L.) employing iTRAQ-based proteomic technique |
Q92549764 | Integrated approaches to study the drought tolerance mechanism in hot pepper (Capsicum annuum L.). |
Q37011839 | Intracellular aquaporins: clues for intracellular water transport? |
Q58719360 | Is Nitrogen a Key Determinant of Water Transport and Photosynthesis in Higher Plants Upon Drought Stress? |
Q51811315 | Life with and without AtTIP1;1, an Arabidopsis aquaporin preferentially localized in the apposing tonoplasts of adjacent vacuoles. |
Q34630395 | Membrane transporters and drought resistance - a complex issue. |
Q35839789 | MzPIP2;1: An Aquaporin Involved in Radial Water Movement in Both Water Uptake and Transportation, Altered the Drought and Salt Tolerance of Transgenic Arabidopsis |
Q36210682 | Natural variation and gene regulatory basis for the responses of asparagus beans to soil drought |
Q34659203 | Natural variation of salinity response, population structure and candidate genes associated with salinity tolerance in perennial ryegrass accessions |
Q46085533 | Over-expression of AQUA1 in Populus alba Villafranca clone increases relative growth rate and water use efficiency, under Zn excess condition |
Q34685270 | Overexpression of the CaTIP1-1 pepper gene in tobacco enhances resistance to osmotic stresses |
Q50647534 | Phylogenetic analysis and seasonal cold acclimation-associated expression of early light-induced protein genes of Rhododendron catawbiense. |
Q64972753 | Physiological and Proteomic Responses of Mulberry Trees (Morus alba. L.) to Combined Salt and Drought Stress. |
Q39032815 | Plant Aquaporins: Genome-Wide Identification, Transcriptomics, Proteomics, and Advanced Analytical Tools |
Q38988718 | Plant potassium content modifies the effects of arbuscular mycorrhizal symbiosis on root hydraulic properties in maize plants |
Q42909227 | Rapid phosphatidic acid accumulation in response to low temperature stress in Arabidopsis is generated through diacylglycerol kinase |
Q37931545 | Regulation of root water uptake under abiotic stress conditions. |
Q38023139 | Risk-taking plants: anisohydric behavior as a stress-resistance trait |
Q38231314 | Role of aquaporins in determining transpiration and photosynthesis in water-stressed plants: crop water-use efficiency, growth and yield |
Q37836460 | Root-targeted biotechnology to mediate hormonal signalling and improve crop stress tolerance |
Q41946171 | The Eucalyptus Tonoplast Intrinsic Protein (TIP) Gene Subfamily: Genomic Organization, Structural Features, and Expression Profiles |
Q55154554 | The Roles of Aquaporins in Plant Stress Responses. |
Q37489827 | The Thellungiella salsuginea tonoplast aquaporin TsTIP1;2 functions in protection against multiple abiotic stresses |
Q55177629 | The dehydration stress of couch grass is associated with its lipid metabolism, the induction of transporters and the re-programming of development coordinated by ABA. |
Q42208632 | Water Balance, Hormone Homeostasis, and Sugar Signaling Are All Involved in Tomato Resistance to Tomato Yellow Leaf Curl Virus |
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