scholarly article | Q13442814 |
P2093 | author name string | Hongtao Ji | |
Hansong Dong | |||
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Harpins, multifunctional proteins secreted by gram-negative plant-pathogenic bacteria | Q26864565 | ||
Appearance of water channels in Xenopus oocytes expressing red cell CHIP28 protein | Q27919643 | ||
Reconstitution of functional water channels in liposomes containing purified red cell CHIP28 protein | Q27919654 | ||
Protein export according to schedule: architecture, assembly, and regulation of type III secretion systems from plant- and animal-pathogenic bacteria | Q30318075 | ||
Heteromerization of PIP aquaporins affects their intrinsic permeability. | Q30564335 | ||
The Arabidopsis thaliana aquaporin AtPIP1;2 is a physiologically relevant CO₂ transport facilitator. | Q48058304 | ||
Interactions between plasma membrane aquaporins modulate their water channel activity. | Q50683447 | ||
Hpa1 harpin needs nitroxyl terminus to promote vegetative growth and leaf photosynthesis in Arabidopsis. | Q52765847 | ||
Functional reconstitution of a rice aquaporin water channel, PIP1;1, by a micro-batchwise methodology. | Q54278729 | ||
The C Terminus of Lens Aquaporin 0 Interacts with the Cytoskeletal Proteins Filensin and CP49 | Q57204105 | ||
Auxin regulates aquaporin function to facilitate lateral root emergence | Q57209427 | ||
Diverse members of the AvrBs3/PthA family of type III effectors are major virulence determinants in bacterial blight disease of rice | Q57213998 | ||
Mutations in the N-terminal coding region of the harpin protein Hpa1 from Xanthomonas oryzae cause loss of hypersensitive reaction induction in tobacco | Q81965385 | ||
Overexpression of PIP2;5 aquaporin alleviates effects of low root temperature on cell hydraulic conductivity and growth in Arabidopsis | Q83704667 | ||
Regulation of Arabidopsis leaf hydraulics involves light-dependent phosphorylation of aquaporins in veins | Q86494053 | ||
Water channel activities of Mimosa pudica plasma membrane intrinsic proteins are regulated by direct interaction and phosphorylation | Q33220825 | ||
Structure and function of aquaporin water channels | Q33822585 | ||
The Arg233Lys AQP0 mutation disturbs aquaporin0-calmodulin interaction causing polymorphic congenital cataract | Q34291121 | ||
Aquaporins: water channel proteins of plant and animal cells | Q34293097 | ||
Type III secretion system effector proteins: double agents in bacterial disease and plant defense | Q34337243 | ||
Os8N3 is a host disease-susceptibility gene for bacterial blight of rice | Q34772342 | ||
Thermal stress induced aggregation of aquaporin 0 (AQP0) and protection by α-crystallin via its chaperone function | Q35060283 | ||
Diversity and evolution of membrane intrinsic proteins | Q35072048 | ||
The effect of the interaction between aquaporin 0 (AQP0) and the filensin tail region on AQP0 water permeability | Q35629099 | ||
FRET imaging in living maize cells reveals that plasma membrane aquaporins interact to regulate their subcellular localization | Q35927926 | ||
Type III effector proteins from the plant pathogen Xanthomonas and their role in the interaction with the host plant | Q36357133 | ||
Verification and spatial localization of aquaporin-5 in the ocular lens | Q36642495 | ||
Plant aquaporins: novel functions and regulation properties | Q36769117 | ||
Structure and biophysics of type III secretion in bacteria | Q37014297 | ||
Plant aquaporins: membrane channels with multiple integrated functions. | Q37150354 | ||
Aquaporins are multifunctional water and solute transporters highly divergent in living organisms. | Q37425354 | ||
A look inside: localization patterns and functions of intracellular plant aquaporins. | Q37578751 | ||
The type III effectors of Xanthomonas | Q37619685 | ||
Plant growth enhancement and associated physiological responses are coregulated by ethylene and gibberellin in response to harpin protein Hpa1. | Q37639467 | ||
TAL effectors: customizable proteins for DNA targeting | Q37940951 | ||
Unraveling aquaporin interaction partners | Q38164142 | ||
Renal aquaporins and water balance disorders | Q38171619 | ||
Key steps in type III secretion system (T3SS) towards translocon assembly with potential sensor at plant plasma membrane. | Q38282188 | ||
Transcriptional regulation of aquaporins in accessions of Arabidopsis in response to drought stress | Q38868262 | ||
Aquaporins are major determinants of water use efficiency of rice plants in the field | Q39289137 | ||
Spatial expression of aquaporin 5 in mammalian cornea and lens, and regulation of its localization by phosphokinase A. | Q39355299 | ||
Exogenous ABA accentuates the differences in root hydraulic properties between mycorrhizal and non mycorrhizal maize plants through regulation of PIP aquaporins. | Q39413873 | ||
Hypotonicity-induced TRPV4 function in renal collecting duct cells: modulation by progressive cross-talk with Ca2+-activated K+ channels | Q39421270 | ||
Integrin signaling modulates AQP2 trafficking via Arg-Gly-Asp (RGD) motif. | Q39521024 | ||
Aquaporin tetramer composition modifies the function of tobacco aquaporins | Q39943085 | ||
Functional interaction between AQP2 and TRPV4 in renal cells | Q43452243 | ||
Two coiled-coil regions of Xanthomonas oryzae pv. oryzae harpin differ in oligomerization and hypersensitive response induction | Q44209899 | ||
A conserved cysteine residue is involved in disulfide bond formation between plant plasma membrane aquaporin monomers | Q44220326 | ||
An N-terminal diacidic motif is required for the trafficking of maize aquaporins ZmPIP2;4 and ZmPIP2;5 to the plasma membrane | Q44329458 | ||
The Arabidopsis aquaporin PIP1;2 rules cellular CO(2) uptake | Q46246330 | ||
Short-term control of maize cell and root water permeability through plasma membrane aquaporin isoforms | Q46498419 | ||
P433 | issue | 12 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | protein-protein interaction | Q896177 |
P304 | page(s) | e1011947 | |
P577 | publication date | 2015-01-01 | |
P1433 | published in | Plant Signaling and Behavior | Q15757476 |
P1476 | title | Biological significance and topological basis of aquaporin-partnering protein-protein interactions | |
P478 | volume | 10 |
Q36320949 | Harpin Hpa1 Interacts with Aquaporin PIP1;4 to Promote the Substrate Transport and Photosynthesis in Arabidopsis. |
Q28077277 | Mutual Interactions between Aquaporins and Membrane Components |
Q40767020 | Plant Aquaporin AtPIP1;4 Links Apoplastic H2O2 Induction to Disease Immunity Pathways |
Q92700449 | Plant Aquaporins in Infection by and Immunity Against Pathogens - A Critical Review |
Q90013430 | Real-time monitoring of translocation of selected type-III effectors from Xanthomonas oryzae pv. oryzae into rice cells |
Q92676267 | Rice aquaporin PIP1;3 and harpin Hpa1 of bacterial blight pathogen cooperate in a type III effector translocation |
Q98465479 | Three Proteins (Hpa2, HrpF and XopN) Are Concomitant Type III Translocators in Bacterial Blight Pathogen of Rice |
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