about
Early growth response 1Cryptochrome 1 (photolyase-like)Circadian locomotor output cycles kaputHistone deacetylase 1Nuclear receptor coactivator 2Aryl-hydrocarbon receptorNuclear receptor subfamily 0, group B, member 2Neuronal PAS domain protein 2Period circadian clock 3Period circadian clock 2Nuclear receptor subfamily 1 group D member 1Nuclear receptor subfamily 1, group D, member 1Casein kinase 1, deltaRAR-related orphan receptor alphaCasein kinase 1, epsilonPeriod circadian clock 1Dopamine receptor D2Aryl hydrocarbon receptorDopamine receptor D2RELB proto-oncogene, NF-kB subunitGlutamine--fructose-6-phosphate transaminase 1Activating transcription factor 4Lysine methyltransferase 2AMYB binding protein 1aRNA binding motif protein 4BPML nuclear body scaffoldMetastasis associated 1Protein phosphatase 1 catalytic subunit gammaProtein phosphatase 1 catalytic subunit betaAryl hydrocarbon receptor nuclear translocator likeRAR related orphan receptor CCaveolae associated protein 3Dopamine receptor D3Nuclear receptor interacting protein 1Cryptochrome circadian regulator 2CART prepropeptideSirtuin 1Inhibitor of DNA binding 2Lysine demethylase 5ALysine demethylase 8
P682
Rhythmic binding of Topoisomerase I impacts on the transcription of Bmal1 and circadian periodModulation of clock gene expression by the transcriptional coregulator receptor interacting protein 140 (RIP140)SIRT1 regulates circadian clock gene expression through PER2 deacetylationPeripheral CLOCK regulates target-tissue glucocorticoid receptor transcriptional activity in a circadian fashion in manE3 ligases Arf-bp1 and Pam mediate lithium-stimulated degradation of the circadian heme receptor Rev-erb alpha
P921
Q14864827-121D2CF2-72EF-4DA7-B4EA-37C37587BED0Q14866013-D52D0F17-2BE5-40A7-872D-A513FD965924Q14908776-7ECC5779-C671-4DA9-A222-032452CE1C49Q14914426-8C8311D1-3ACB-444E-8F25-E40A9C311089Q14914596-DF4E5C1A-B8B1-4BED-9E03-8F1CB05DEF12Q14916326-16869023-9828-4816-8ECB-7BFD9892075FQ15312989-C9CD066C-3F88-41C4-ACC1-DE1E6E1078DDQ15322565-46763F56-12E7-470B-AF9C-C3A814D2BB54Q15323163-71B6CF5D-4BF4-40EE-BDA3-C4028711D91CQ15323163-9A8EC7CD-1E8D-4D2E-974F-8839131BCDC3Q15323263-16883CB5-22B1-4606-BF36-67BF8F3AF698Q15323346-F59EAFFA-7B82-4E7B-8F9F-8F696180398EQ15323383-C42D11DB-F8C4-48B0-89A2-99BBA35CF0D2Q15324818-2FDE5647-4F21-4A0A-AA9A-F937DCE1E491Q15326513-5BAF4CA5-E584-4A8B-9A42-01F97CD6C81AQ15326636-F695A456-E7A6-4D01-B46F-928EB635F683Q15326775-567E7A2B-6D7A-490C-BA72-F9A131AEF893Q15326775-77E5AFCC-C46D-413F-9B27-0C5AED43255CQ15335226-530E121D-34B4-4536-B20F-FE04C6F79E59Q155750-FB9C46FE-140B-4BE9-8729-06965CBD9964Q2034004-986CFDF8-6C5B-4C5C-A3AE-D5688A26A95DQ21100854-63644F2D-04EC-4C19-8FC3-92C382EAA37AQ21101591-CD1E24DF-738B-447B-A80F-E6F239DB9E05Q21102119-59A12C44-4A39-4EA9-AB6F-754B1063B2AEQ21102119-80BEE579-6AAA-4DA0-A631-E2B447CE99C2Q21102206-65B776FA-152B-46B5-8D87-696F0686CB60Q21102206-C49BB814-465E-45F2-89F7-8E07F41B12FBQ21105797-C5A79A54-560D-45BF-94A2-7C4C0458A699Q21105854-5E90DCD2-66EC-4935-963F-3E17BE1FAE4AQ21106974-D388246F-2E65-4071-9107-23287C30E5BCQ21107299-E3A61CF8-F7AB-4AC1-886C-62F403DC2246Q21109478-87520B3E-5C7E-47F2-8AEC-1FA67B78B1A2Q21109484-461A8D63-DBCD-4514-B7E3-12DD1F1F83EEQ21109484-D84855E0-0065-4454-A309-3E7113B3E462Q21109585-AFA1C188-4AD2-4AEE-9979-25BE558F883DQ21109596-12AC875A-E4C5-4A32-8806-104ABF0421EAQ21110182-B077DEFA-1CE3-4DD3-A4E2-1F53C2EFAE3CQ21110872-94D5ADA2-D255-4808-A79B-7A4A7CAF4467Q21111465-1113DA50-DC52-4B1C-B096-9D50F780B3D0Q21111465-3FEE7256-85D4-43E2-9D27-F93447CDE954
P682
description
Any process that modulates the ...... ity of approximately 24 hours.
@en
biologisch proces
@nl
name
circadian regulation of gene expression
@en
type
label
circadian regulation of gene expression
@en
altLabel
GO:0032922
@en
prefLabel
circadian regulation of gene expression
@en
P279
P2888
P686
GO:0032922