Atomic structure of PDE4: insights into phosphodiesterase mechanism and specificity - Wikidata - wikimedia - TriplyDB

Atomic structure of PDE4: insights into phosphodiesterase mechanism and specificity

Atomic structure of PDE4: insights into phosphodiesterase mechanism and specificity

http://www.wikidata.org/entity/Q27622797

about

Mechanism for the allosteric regulation of phosphodiesterase 2A deduced from the X-ray structure of a near full-length construct mAKAP assembles a protein kinase A/PDE4 phosphodiesterase cAMP signaling module Cloning and characterization of a cAMP-specific phosphodiesterase (TbPDE2B) from Trypanosoma brucei.Deletion of phosphodiesterase 4D in mice shortens alpha(2)-adrenoceptor-mediated anesthesia, a behavioral correlate of emesis Crystal structure of phosphodiesterase 9 shows orientation variation of inhibitor 3-isobutyl-1-methylxanthine binding T cell activation up-regulates cyclic nucleotide phosphodiesterases 8A1 and 7A3 Regulation of T-cell activation by phosphodiesterase 4B2 requires its dynamic redistribution during immunological synapse formation PDE4 inhibitors: current status Crystal structure of phosphodiesterase 4D and inhibitor complex(1)Crystal structures of phosphodiesterases 4 and 5 in complex with inhibitor 3-isobutyl-1-methylxanthine suggest a conformation determinant of inhibitor selectivity Structural insight into substrate specificity of phosphodiesterase 10 Crystal Structure and Computational Analyses Provide Insights into the Catalytic Mechanism of 2,4-Diacetylphloroglucinol Hydrolase PhlG from Pseudomonas fluorescens Structures of the four subfamilies of phosphodiesterase-4 provide insight into the selectivity of their inhibitors Crystal structure of the Leishmania major phosphodiesterase LmjPDEB1 and insight into the design of the parasite-selective inhibitors Conformational Variations of Both Phosphodiesterase-5 and Inhibitors Provide the Structural Basis for the Physiological Effects of Vardenafil and Sildenafil Structural basis for the catalytic mechanism of human phosphodiesterase 9 Structural Insight into the Mechanism of c-di-GMP Hydrolysis by EAL Domain Phosphodiesterases A metazoan ortholog of SpoT hydrolyzes ppGpp and functions in starvation responses Fragment-Based Screening for Inhibitors of PDE4A Using Enthalpy Arrays and X-ray Crystallography Structural basis for the design of selective phosphodiesterase 4B inhibitors Selective Phosphodiesterase 4B Inhibitors: A Review In vitro PKA phosphorylation-mediated human PDE4A4 activation Crystal structure of a substrate complex of myo-inositol oxygenase, a di-iron oxygenase with a key role in inositol metabolism Characteristics of photoreceptor PDE (PDE6): similarities and differences to PDE5 Identification of overlapping but distinct cAMP and cGMP interaction sites with cyclic nucleotide phosphodiesterase 3A by site-directed mutagenesis and molecular modeling based on crystalline PDE4B Attenuation of the activity of the cAMP-specific phosphodiesterase PDE4A5 by interaction with the immunophilin XAP2 beta-Arrestin-mediated PDE4 cAMP phosphodiesterase recruitment regulates beta-adrenoceptor switching from Gs to Gi G protein signaling: insights from new structures.A family of phosphodiesterase inhibitors discovered by cocrystallography and scaffold-based drug design.Characterization of TbPDE2A, a novel cyclic nucleotide-specific phosphodiesterase from the protozoan parasite Trypanosoma brucei.Effect of Zn...Zn separation on the hydrolytic activity of model dizinc phosphodiesterases.Scanning peptide array analyses identify overlapping binding sites for the signalling scaffold proteins, beta-arrestin and RACK1, in cAMP-specific phosphodiesterase PDE4D5.Multiple elements jointly determine inhibitor selectivity of cyclic nucleotide phosphodiesterases 4 and 7.Phosphodiesterase Inhibitors as a Therapeutic Approach to Neuroprotection and Repair.Exploration and optimization of substituted triazolothiadiazines and triazolopyridazines as PDE4 inhibitors ABCD of the phosphodiesterase family: interaction and differential activity in COPD Characterization of a catalytic ligand bridging metal ions in phosphodiesterases 4 and 5 by molecular dynamics simulations and hybrid quantum mechanical/molecular mechanical calculations.PDE4 cAMP phosphodiesterases: modular enzymes that orchestrate signalling cross-talk, desensitization and compartmentalization GAF domains: cyclic nucleotides come full circle.Long PDE4 cAMP specific phosphodiesterases are activated by protein kinase A-mediated phosphorylation of a single serine residue in Upstream Conserved Region 1 (UCR1)

P2860

Q24336151-A023614A-9712-48D8-B648-2C3237B2FCD7 Q24535019-D8265705-C6AF-48D1-82FD-1F9BC23A3D21 Q24536226-55F0575F-C057-4094-83A0-E278DBFC36C7 Q24553313-0639B1BA-3557-41BD-A5BC-DFDF400D465F Q24562006-A19B62A7-CCD7-4484-9981-D683557562FE Q24627662-4129A4B4-C8D8-4485-907D-1965DE144C19 Q24650027-9AD217F0-34BF-4339-9868-0E3E6DA6222A Q24651926-7A6C8623-6DBF-4DB2-A8A6-AC837008F787 Q27639850-0979036A-899B-4CAD-9A5F-9979800F3AEB Q27642760-035EAED1-7E3A-43F2-A24E-490EDA8187C1 Q27644254-8C4D89A6-872F-4FA0-99E4-67E386405A8B Q27646614-6EF4DB58-E9C6-41DC-BDE3-B5ADB8BB834C Q27647620-BE9974BB-8CA1-45E6-B495-0D55DC876423 Q27648821-F49F53FF-B397-4A15-9E79-1157211B2783 Q27648887-C513EAF3-7118-4F0B-BC83-8F1358C5D1E0 Q27651858-8E53529D-3603-49DC-AC61-E9F65A80F5EB Q27663896-C7D86572-7708-4A6F-A86D-8C7582ECBC21 Q27664277-EFFE9DA3-52F6-41D6-9767-39AD8E39CCC1 Q27676592-90B6975A-1F37-478A-BD4B-7592E25D70DE Q27681021-14072407-2A06-4A95-B251-7CA3FE32BABE Q28081071-D3E5DA26-24E3-4B43-8240-F9159C920071 Q28202278-208A9B5E-2E98-4D69-AEB0-4CAEE3CA82BC Q28266269-EF549AB7-47A8-4B08-A826-D36DD422793F Q28269139-91711746-64CB-4240-B693-A47CDE6B590A Q28344749-F65DAC1D-9761-4C70-BA20-A6C44F48103D Q28573529-FC4BFEA8-AEC0-4201-BB20-8DA8B61BDA8E Q28576849-064798E7-5728-4DCB-A37D-C18FFDEEE00A Q30336443-67200F51-0D5D-444C-90F6-F5DBAD3EEE30 Q31145317-DA550364-C72F-4DFE-A11C-2F5702962BC1 Q31777889-3EF6F0FA-1388-4D81-99FE-388C1D61B34B Q33214803-CABD53CB-9CC7-414D-87B8-CA64BD138A4F Q33243131-5B4E7EB5-5709-478F-A484-C89D9A6C37F6 Q33341310-173D7CDF-FFDD-4BE4-BEDF-2DCBB1E95444 Q33624262-D9EE9A1C-AF81-44BC-94A6-47080AF85606 Q33853315-C52A1C4F-268C-4ECD-A3BC-685BB6DFC4AA Q34961511-096FA04A-BEAC-40CA-97FA-69DC12196AF4 Q34984650-AD95B5AB-CB01-4C8F-8D4E-99BFEA8B86A2 Q35005680-C7566F0B-58F1-48DC-8064-F23B036C0769 Q35041198-7633ABC7-476E-41A2-8175-14A44874778F Q35044409-0B7941BB-6901-49A0-9CAF-252CDA3C3A7A

P2860

Atomic structure of PDE4: insights into phosphodiesterase mechanism and specificity

http://www.wikidata.org/entity/Q27622797

description

2000 nî lūn-bûn

@nan

2000 թուականի Յունիսին հրատարակուած գիտական յօդուած

@hyw

2000 թվականի հունիսին հրատարակված գիտական հոդված

@hy

2000年の論文

@ja

2000年論文

@yue

2000年論文

@zh-hant

2000年論文

@zh-hk

2000年論文

@zh-mo

2000年論文

@zh-tw

2000年论文

@wuu

name

Atomic structure of PDE4: insights into phosphodiesterase mechanism and specificity

@ast

Atomic structure of PDE4: insights into phosphodiesterase mechanism and specificity

@en

Atomic structure of PDE4: insights into phosphodiesterase mechanism and specificity

@nl

type

label

Atomic structure of PDE4: insights into phosphodiesterase mechanism and specificity

@ast

Atomic structure of PDE4: insights into phosphodiesterase mechanism and specificity

@en

Atomic structure of PDE4: insights into phosphodiesterase mechanism and specificity

@nl

prefLabel

Atomic structure of PDE4: insights into phosphodiesterase mechanism and specificity

@ast

Atomic structure of PDE4: insights into phosphodiesterase mechanism and specificity

@en

Atomic structure of PDE4: insights into phosphodiesterase mechanism and specificity

@nl

P1433

Q27622797-7239ADD9-23E5-43D4-878D-B9B04464A0DE

P1476

Q27622797-69E5CC21-7792-4F92-97D6-86BB0726709A

P2093

Q27622797-44BB12EE-820D-4D90-9A91-34888CCBB78F

Q27622797-486DFEDE-569E-4E6A-8C24-0296317F96F4

Q27622797-4F60E165-2A83-4739-9A99-9C47A0448A9B

Q27622797-5EEE2E07-5F7A-43B0-9389-4AF362D13E5B

Q27622797-678B5032-AA65-4BAE-8EAA-71CFF9D9D665

Q27622797-7D098961-FFF6-4BCE-BD46-EE5BDDF22D26

Q27622797-8A4A2C87-DBD1-4DAB-845B-98155B5D463B

Q27622797-9D51150C-DC32-427F-A710-0E5D0D82C0AB

Q27622797-CB3F36E3-A726-445F-8D8A-D1F4CCA221F1

Q27622797-FBD34BD4-2A1B-436C-8AFB-466250AC20E5

P304

Q27622797-5F7676C9-54AF-465E-BE78-99E0CF09F199

P31

Q27622797-B7106CD6-AD9E-4599-A5F1-3C5CC7DB0F2A

P356

Q27622797-D9D89316-EE3D-4B8B-812D-72CF5EC1F512

P407

Q27622797-13796940-7E87-4505-9BA1-E3215765BE12

P433

Q27622797-FF750B70-4595-4D32-8807-B3C72A85E326

P478

Q27622797-8C35CD9E-2B86-460B-9935-1A1B48CCAF24

P50

Q27622797-8B4167EB-53CB-4386-825A-38CB1A13CB39

P577

Q27622797-CA265CCE-D21B-4E75-813A-B6AF6D20F620

P698

Q27622797-3C61CABD-58C2-454A-AFF4-444CB3FE3EC2

P356

SCIENCE.288.5472.1822

P1433

P1476

Atomic structure of PDE4: insights into phosphodiesterase mechanism and specificity

@en

P2093

A M Hassell

http://www.w3.org/2001/XMLSchema#string

H Ke

http://www.w3.org/2001/XMLSchema#string

M A Luther

http://www.w3.org/2001/XMLSchema#string

M H Lambert

http://www.w3.org/2001/XMLSchema#string

M V Milburn

http://www.w3.org/2001/XMLSchema#string

R T Nolte

http://www.w3.org/2001/XMLSchema#string

R X Xu

http://www.w3.org/2001/XMLSchema#string

W D Holmes

http://www.w3.org/2001/XMLSchema#string

W J Rocque

http://www.w3.org/2001/XMLSchema#string

Y Zhao

http://www.w3.org/2001/XMLSchema#string

P304

1822-1825

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1126/SCIENCE.288.5472.1822

http://www.w3.org/2001/XMLSchema#string

P407

P433

5472

http://www.w3.org/2001/XMLSchema#string

P478

288

http://www.w3.org/2001/XMLSchema#string

P50

Dana E Vanderwall

P577

2000-06-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P698

10846163

http://www.w3.org/2001/XMLSchema#string