about
Peroxisome proliferator activated receptor gammaUncoupling protein 1 (mitochondrial, proton carrier)LPLLipoprotein lipaseHeat shock protein 1 (chaperonin)Interleukin 6Cytochrome c oxidase subunit IIFBJ osteosarcoma oncogeneAdrenergic receptor, beta 1Adrenergic receptor, beta 2Transient receptor potential cation channel, subfamily A, member 1Transient receptor potential cation channel, subfamily M, member 8Superoxide dismutase 2, mitochondrialAcyl-CoA thioesterase 11Meteorin like, glial cell differentiation regulatorHeat shock protein 90 alpha family class A member 1Guanosine monophosphate reductaseCholinergic receptor, nicotinic, alpha polypeptide 7Cadherin 8LDL receptor related protein 11Cold inducible RNA binding proteinAcyl-CoA dehydrogenase very long chainATPase plasma membrane Ca2+ transporting 1Heat shock protein family A (Hsp70) member 2FOS proteinPPARG coactivator 1 alphaPurinergic receptor P2X 3Placenta associated 8Uncoupling protein 2Solute carrier family 27 member 1Uncoupling protein 3VGF nerve growth factor inducibleProprotein convertase subtilisin/kexin type 1 inhibitorTransmembrane protein 135Thyrotropin releasing hormoneSolute carrier family 25 member 27Zinc finger protein 516Y-box binding protein 3Meteorin-like proteinRNA binding motif protein 3
P682
The guanosine monophosphate reductase gene is conserved in rats and its expression increases rapidly in brown adipose tissue during cold exposureCold shock domain proteins repress transcription from the GM-CSF promoterA glycine-rich RNA-binding protein mediating cold-inducible suppression of mammalian cell growth
P921
Q1084878-FE371323-E38C-4B3C-AF2C-6C40263C0BD8Q14860965-BE8513E4-2587-4C76-94B8-06FB242754BEQ14864755-DED2309A-1EF2-42B7-A26D-8D2A41C8AF6AQ14864757-CA327280-77BB-411B-8658-5D6823ED2AB5Q14865001-C03AFC26-FB41-4589-8F64-5CA841EA24F7Q14865240-F70B8B10-EE48-4FC2-B65A-4366F5A02B6DQ14865319-410DB19A-5429-4E12-9266-D66D6E8AFA49Q14906125-30989BE1-1096-49B4-A5EF-074F5E19F9DFQ14916366-2D9DADF2-DC08-4646-9D11-76E27A05D33DQ14916386-29EEF847-70FF-4A96-ADDD-2EF8CAA483E2Q15323278-49EC9D8F-96B9-45E0-AC7F-ADB902E158C1Q15324415-08933128-B4B2-4C4D-BC50-EF52A8C0559AQ15335644-53ED7E72-A2B7-40DB-A320-938A9144267FQ21096337-574F74BD-2D2A-479E-B088-2DD461EB2A6FQ21104663-8F03E26A-5513-4E7E-869B-C72E3837C7AFQ21108142-B7681FB2-4675-4CEF-99D7-6EFE80F88C4EQ21110379-BF616602-686B-4BAD-AF1A-4B22C9980013Q21111177-D67A22D9-43F6-448B-B512-0EB12C9EE193Q21112898-E7C9F823-E93B-4C12-BC5A-9BD5DF1950FDQ21113607-B93D0C45-E981-46DF-8570-075A0DADE2B0Q21114197-50A7408C-6D53-4855-9F01-EE8CF7C153B7Q21114197-FDD174FE-29A7-4971-B784-79AF2235EB18Q21115272-4702D213-3A48-4556-8EEA-3A997EC14485Q21115322-21770536-A216-41F0-A2BA-718245D5A23AQ21115440-9CED4FD4-3B11-4744-85EB-B5E82780772CQ21116256-3EE37F80-A398-4AFC-BD01-DD709DD30E8FQ21118081-B5A84F45-CDA1-46BB-AFC6-A5458AD60CEFQ21118920-7D3FC25A-6C4F-46BE-9123-57B6A304EAF7Q21119737-CD23C494-A719-4A74-B91D-AD932AD6C8AAQ21120688-7491746A-8B10-42EC-9EE1-87CA076F2B5BQ21121316-409FC840-AACE-447D-8584-68096EA40464Q21121316-705F11C3-FEFD-404B-A603-9DDC02520804Q21121747-79E7EFFC-AB96-4DB4-8B3C-AF47C8516126Q21122290-3490BDC1-D9A5-4790-8DBA-EC2B71D32F04Q21133341-C82EA6E8-9E63-490D-A8A1-9737C72F67EBQ21134329-C63B91E2-3F34-4A6A-B452-06A0B6404F19Q21135109-F42D5D5C-2DBC-49F2-9500-E12524D89ABCQ21135173-BF985CFB-79D4-4D1C-AD80-54F4B6392BE6Q21136648-162FF58F-9F44-448E-9A86-92A13A542B42Q21136794-41E7AA59-6405-4760-9848-0F7F60CE5248
P682
description
Any process that results in a ...... the optimal temperature for th
@en
biologisch proces
@nl
name
response to cold
@en
type
label
response to cold
@en
altLabel
GO:0009409
@en
prefLabel
response to cold
@en
P2888
P686
GO:0009409