| scholarly article | Q13442814 |
| review article | Q7318358 |
| P50 | author | Ralf Kaldenhoff | Q15043946 |
| P2093 | author name string | Norbert Uehlein | |
| Elisabeth Kruse | |||
| P2860 | cites work | Isolation of the cDNA for erythrocyte integral membrane protein of 28 kilodaltons: member of an ancient channel family | Q24293104 |
| From genome to function: the Arabidopsis aquaporins | Q24802020 | ||
| Structural determinants of water permeation through aquaporin-1 | Q27627493 | ||
| Structure of a glycerol-conducting channel and the basis for its selectivity | Q27627520 | ||
| Appearance of water channels in Xenopus oocytes expressing red cell CHIP28 protein | Q27919643 | ||
| New roles for old holes: ion channel function in aquaporin-1 | Q28209387 | ||
| Microbial MIP channels. | Q33818903 | ||
| Plasma membrane intrinsic proteins from maize cluster in two sequence subgroups with differential aquaporin activity | Q33888419 | ||
| Water and ion permeation of aquaporin-1 in planar lipid bilayers. Major differences in structural determinants and stoichiometry. | Q33951809 | ||
| The Escherichia coli aquaporin-Z water channel | Q33994556 | ||
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| Aquaporin water channels: molecular mechanisms for human diseases | Q34278132 | ||
| Transport of volatile solutes through AQP1. | Q34719807 | ||
| From structure to disease: the evolving tale of aquaporin biology | Q35875999 | ||
| Overexpression of a plasma membrane aquaporin in transgenic tobacco improves plant vigor under favorable growth conditions but not under drought or salt stress | Q38862932 | ||
| 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 | ||
| Soybean nodulin 26 is homologous to the major intrinsic protein of the bovine lens fiber membrane | Q40556058 | ||
| The three-dimensional structure of aquaporin-1. | Q41633717 | ||
| Plasma membrane aquaporins in the motor cells of Samanea saman: diurnal and circadian regulation | Q43928558 | ||
| Plasma membrane aquaporins play a significant role during recovery from water deficit | Q46049097 | ||
| Phylogeny and evolution of the major intrinsic protein family | Q46454491 | ||
| Impairment of angiogenesis and cell migration by targeted aquaporin-1 gene disruption. | Q46588165 | ||
| Evidence against aquaporin-1-dependent CO2 permeability in lung and kidney | Q46699746 | ||
| Significance of plasmalemma aquaporins for water-transport in Arabidopsis thaliana | Q47779664 | ||
| 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 | ||
| Purification and functional reconstitution of soybean nodulin 26. An aquaporin with water and glycerol transport properties. | Q48925254 | ||
| Water and glycerol permeabilities of aquaporins 1-5 and MIP determined quantitatively by expression of epitope-tagged constructs in Xenopus oocytes. | Q48956828 | ||
| Molecular structure of the water channel through aquaporin CHIP. The hourglass model. | Q49104531 | ||
| Interactions between plasma membrane aquaporins modulate their water channel activity. | Q50683447 | ||
| Novel type aquaporin SIPs are mainly localized to the ER membrane and show cell-specific expression in Arabidopsis thaliana. | Q50751037 | ||
| The Mechanism of Proton Exclusion in the Aquaporin-1 Water Channel | Q57814809 | ||
| Channel-mediated permeation of ammonia gas through the peribacteroid membrane of soybean nodules | Q73345220 | ||
| Aquaporins: Phylogeny, Structure, and Physiology of Water Channels | Q73967447 | ||
| The plasma membrane aquaporin NtAQP1 is a key component of the leaf unfolding mechanism in tobacco | Q75200869 | ||
| P433 | issue | 2 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | membrane protein | Q423042 |
| aquaporin | Q623090 | ||
| transport protein | Q2111029 | ||
| P304 | page(s) | 206 | |
| P577 | publication date | 2006-02-28 | |
| P1433 | published in | Genome Biology | Q5533480 |
| P1476 | title | The aquaporins | |
| P478 | volume | 7 |
| Q46712070 | A precise spacing between the NPA domains of aquaporins is essential for silicon permeability in plants. |
| Q34481883 | A structural model for facultative anion channels in an oligomeric membrane protein: the yeast TRK (K(+)) system |
| Q35063550 | Applications of biological pores in nanomedicine, sensing, and nanoelectronics |
| Q55029030 | Aquaporin 1 expression is associated with response to adjuvant chemotherapy in stage II and III colorectal cancer. |
| Q38143542 | Aquaporins in avian kidneys: function and perspectives |
| Q42698013 | Aquaporins in the male reproductive tract and sperm: Functional implications and cryobiology. |
| Q36653672 | Aquaporins: a promising target for drug development |
| Q39396676 | Arbuscular mycorrhiza effects on plant performance under osmotic stress |
| Q41634979 | Arbuscular mycorrhizal symbiosis mitigates the negative effects of salinity on durum wheat |
| Q64065786 | Biomimetic Membranes with Transmembrane Proteins: State-of-the-Art in Transmembrane Protein Applications |
| Q27687833 | Brain imaging in urea cycle disorders |
| Q30496149 | Cancer biomarker discovery: the entropic hallmark |
| Q38784397 | Comparative analysis of sequences, polymorphisms and topology of yeasts aquaporins and aquaglyceroporins |
| Q34778106 | Comparative transcriptome analysis of obligately asexual and cyclically sexual rotifers reveals genes with putative functions in sexual reproduction, dormancy, and asexual egg production. |
| Q94589910 | Correlating single-molecule characteristics of the yeast aquaglyceroporin Fps1 with environmental perturbations directly in living cells |
| Q64079440 | Dialysis disequilibrium syndrome prevention and management |
| Q38868473 | Differential effects of Pseudomonas mendocina and Glomus intraradices on lettuce plants physiological response and aquaporin PIP2 gene expression under elevated atmospheric CO2 and drought |
| Q33417971 | Discovering genes associated with dormancy in the monogonont rotifer Brachionus plicatilis. |
| Q33482456 | Divergence in function and expression of the NOD26-like intrinsic proteins in plants |
| Q44389729 | Enzyme activity and structural dynamics linked to micelle formation: a fluorescence anisotropy and ESR study |
| Q38968463 | Essential and Beneficial Trace Elements in Plants, and Their Transport in Roots: a Review |
| Q56890792 | Exploring the role of stromal osmoregulation in cancer and disease using executable modelling |
| Q28486644 | Expression of the ompATb operon accelerates ammonia secretion and adaptation of Mycobacterium tuberculosis to acidic environments |
| Q35447258 | Functional Annotation Analytics of Rhodopseudomonas palustris Genomes |
| Q38237210 | Genome-wide comparative analysis of tonoplast intrinsic protein (TIP) genes in plants |
| Q39498223 | Genome-wide identification and characterization of aquaporin gene family in moso bamboo (Phyllostachys edulis). |
| Q33830197 | Genome-wide identification of Major Intrinsic Proteins in Glycine soja and characterization of GmTIP2;1 function under salt and water stress |
| Q92480098 | Genome-wide identification, structure characterization, and expression pattern profiling of aquaporin gene family in cucumber |
| Q33347164 | How insects survive the cold: molecular mechanisms-a review |
| Q47305037 | In vitro generation of three-dimensional renal structures |
| Q33483008 | Integrative sequence and tissue expression profiling of chicken and mammalian aquaporins |
| Q24619462 | MIPModDB: a central resource for the superfamily of major intrinsic proteins |
| Q36085146 | Mining plant genome browsers as a means for efficient connection of physical, genetic and cytogenetic mapping: An example using soybean. |
| Q90903674 | Molecular Mechanism of T-2 Toxin-Induced Cerebral Edema by Aquaporin-4 Blocking and Permeation |
| Q28541664 | Molecular analysis of the cold tolerant Antarctic nematode, Panagrolaimus davidi |
| Q28731718 | Molecular dynamics study of the archaeal aquaporin AqpM |
| Q39118409 | Molecular evolution and functional divergence of X-intrinsic protein genes in plants |
| Q34143745 | Myocardial edema: a translational view. |
| Q64103234 | PEDF decreases cardiomyocyte edema during oxygen‑glucose deprivation and recovery via inhibiting lactate accumulation and expression of AQP1 |
| Q37455176 | Protozoan parasite aquaporins |
| Q38007154 | Regulation by arbuscular mycorrhizae of the integrated physiological response to salinity in plants: new challenges in physiological and molecular studies |
| Q59336689 | Saccharomyces cerevisiae adapted to grow in the presence of low-dose rapamycin exhibit altered amino acid metabolism |
| Q36669204 | Secretion and fluid transport mechanisms in the mammary gland: comparisons with the exocrine pancreas and the salivary gland |
| Q39392832 | Silicon-mediated Improvement in Plant Salinity Tolerance: The Role of Aquaporins |
| Q33312093 | Surviving extreme polar winters by desiccation: clues from Arctic springtail (Onychiurus arcticus) EST libraries. |
| Q33484935 | Surviving the cold: molecular analyses of insect cryoprotective dehydration in the Arctic springtail Megaphorura arctica (Tullberg). |
| Q38916722 | T-DNA insertion in aquaporin gene AtPIP1;2 generates transcription profiles reminiscent of a low CO2 response |
| Q35951232 | The Role of Aquaporins in pH-Dependent Germination of Rhizopus delemar Spores |
| Q37989058 | The evolutionary origin of the vasopressin/V2-type receptor/aquaporin axis and the urine-concentrating mechanism |
| Q91973343 | Transport of Reactive Oxygen and Nitrogen Species across Aquaporin: A Molecular Level Picture |
| Q34436918 | Two putative-aquaporin genes are differentially expressed during arbuscular mycorrhizal symbiosis in Lotus japonicus |
| Q38684258 | Water Transport in Yeasts. |
| Q37818445 | Yeast water channels: an overview of orthodox aquaporins |
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