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  1. 1
    "Genome sequence of the Brown Norway rat yields insights into mammalian evolution."
    Rat Genome Sequencing Project Consortium
    Gibbs R.A., Weinstock G.M., Metzker M.L., Muzny D.M., Sodergren E.J., Scherer S., Scott G., Steffen D., Worley K.C., Burch P.E., Okwuonu G., Hines S., Lewis L., Deramo C., Delgado O., Dugan-Rocha S., Miner G., Morgan M.
    , Hawes A., Gill R., Holt R.A., Adams M.D., Amanatides P.G., Baden-Tillson H., Barnstead M., Chin S., Evans C.A., Ferriera S., Fosler C., Glodek A., Gu Z., Jennings D., Kraft C.L., Nguyen T., Pfannkoch C.M., Sitter C., Sutton G.G., Venter J.C., Woodage T., Smith D., Lee H.-M., Gustafson E., Cahill P., Kana A., Doucette-Stamm L., Weinstock K., Fechtel K., Weiss R.B., Dunn D.M., Green E.D., Blakesley R.W., Bouffard G.G., De Jong P.J., Osoegawa K., Zhu B., Marra M., Schein J., Bosdet I., Fjell C., Jones S., Krzywinski M., Mathewson C., Siddiqui A., Wye N., McPherson J., Zhao S., Fraser C.M., Shetty J., Shatsman S., Geer K., Chen Y., Abramzon S., Nierman W.C., Havlak P.H., Chen R., Durbin K.J., Egan A., Ren Y., Song X.-Z., Li B., Liu Y., Qin X., Cawley S., Cooney A.J., D'Souza L.M., Martin K., Wu J.Q., Gonzalez-Garay M.L., Jackson A.R., Kalafus K.J., McLeod M.P., Milosavljevic A., Virk D., Volkov A., Wheeler D.A., Zhang Z., Bailey J.A., Eichler E.E., Tuzun E., Birney E., Mongin E., Ureta-Vidal A., Woodwark C., Zdobnov E., Bork P., Suyama M., Torrents D., Alexandersson M., Trask B.J., Young J.M., Huang H., Wang H., Xing H., Daniels S., Gietzen D., Schmidt J., Stevens K., Vitt U., Wingrove J., Camara F., Mar Alba M., Abril J.F., Guigo R., Smit A., Dubchak I., Rubin E.M., Couronne O., Poliakov A., Huebner N., Ganten D., Goesele C., Hummel O., Kreitler T., Lee Y.-A., Monti J., Schulz H., Zimdahl H., Himmelbauer H., Lehrach H., Jacob H.J., Bromberg S., Gullings-Handley J., Jensen-Seaman M.I., Kwitek A.E., Lazar J., Pasko D., Tonellato P.J., Twigger S., Ponting C.P., Duarte J.M., Rice S., Goodstadt L., Beatson S.A., Emes R.D., Winter E.E., Webber C., Brandt P., Nyakatura G., Adetobi M., Chiaromonte F., Elnitski L., Eswara P., Hardison R.C., Hou M., Kolbe D., Makova K., Miller W., Nekrutenko A., Riemer C., Schwartz S., Taylor J., Yang S., Zhang Y., Lindpaintner K., Andrews T.D., Caccamo M., Clamp M., Clarke L., Curwen V., Durbin R.M., Eyras E., Searle S.M., Cooper G.M., Batzoglou S., Brudno M., Sidow A., Stone E.A., Payseur B.A., Bourque G., Lopez-Otin C., Puente X.S., Chakrabarti K., Chatterji S., Dewey C., Pachter L., Bray N., Yap V.B., Caspi A., Tesler G., Pevzner P.A., Haussler D., Roskin K.M., Baertsch R., Clawson H., Furey T.S., Hinrichs A.S., Karolchik D., Kent W.J., Rosenbloom K.R., Trumbower H., Weirauch M., Cooper D.N., Stenson P.D., Ma B., Brent M., Arumugam M., Shteynberg D., Copley R.R., Taylor M.S., Riethman H., Mudunuri U., Peterson J., Guyer M., Felsenfeld A., Old S., Mockrin S., Collins F.S.
    Nature 428:493-521(2004) [PubMed] [Europe PMC] [Abstract]
    Cited for: NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA].
    Category: Sequences.
    Strain: Brown Norway.
    Source: UniProtKB/TrEMBL (unreviewed).

    This publication is cited by 22750 other entries.

  2. 2
    Category: Sequences.
    Strain: BN.
    Source: UniProtKB/TrEMBL (unreviewed).

    This publication is cited by 7780 other entries.

  3. 3
    Category: Sequences.
    Strain: BN.
    Source: UniProtKB/TrEMBL (unreviewed).
  4. 4
    "Quantitative maps of protein phosphorylation sites across 14 different rat organs and tissues."
    Lundby A., Secher A., Lage K., Nordsborg N.B., Dmytriyev A., Lundby C., Olsen J.V.
    Nat. Commun. 3:876-876(2012) [PubMed] [Europe PMC] [Abstract]
    Cited for: IDENTIFICATION BY MASS SPECTROMETRY [LARGE SCALE ANALYSIS].
    Category: Sequences.
    Source: UniProtKB/TrEMBL (unreviewed).

    This publication is cited by 6825 other entries.

  5. 5
    Ensembl
    Submitted (FEB-2013) to UniProtKB
    Cited for: IDENTIFICATION.
    Strain: Brown Norway.
    Source: UniProtKB/TrEMBL (unreviewed).
  6. 6
    "Gender effects on adrenergic receptor expression and lipolysis in white adipose tissue of rats."
    Llado I., Rodriguez-Cuenca S., Pujol E., Monjo M., Estrany M.E., Roca P., Palou A.
    Obes. Res. 10:296-305(2002) [PubMed] [Europe PMC] [Abstract]
    Annotation: Cafeteria-diet feeding for 15 days altered the alpha(2A)- and beta(3)-AR protein levels with an increase of alpha(2A)-AR in males and a beta(3)-AR decrease in females.Imported.
    Source: GeneRIF:25083.

    This publication is mapped to 2 other entries.

  7. 7
    "Effects of antisense oligodeoxynucleotide to the alpha2A-adrenoceptors on the plasma corticosterone level and on elevated plus-maze behavior in rats."
    Shishkina G.T., Kalinina T.S., Sournina N.Y., Saharov D.G., Kobzev V.F., Dygalo N.N.
    Psychoneuroendocrinology 27:593-601(2002) [PubMed] [Europe PMC] [Abstract]
    Annotation: reduction of alpha2A-AR mRNA expression of in brain stem moderately increased plasma corticosterone and had anxiolytic-like effect in the elevated plus-mazeImported.
    Source: GeneRIF:25083.

    This publication is mapped to 1 other entry.

  8. 8
    "Pancreatic beta-cell alpha2A adrenoceptor and phospholipid changes in hyperlipidemic rats."
    Clement L., Kim-Sohn K.A., Magnan C., Kassis N., Adnot P., Kergoat M., Assimacopoulos-Jeannet F., Penicaud L., Hsu F., Turk J., Ktorza A.
    Lipids 37:501-506(2002) [PubMed] [Europe PMC] [Abstract]
    Annotation: We show here that a 48-h increase in plasma FFA alters the binding characteristics of beta-cell alpha2 adrenoceptors in ratsImported.
    Source: GeneRIF:25083.

    This publication is mapped to 1 other entry.

  9. 9
    "Alpha-2A-adrenergic receptors are present on neurons in the central nucleus of the amygdala that project to the dorsal vagal complex in the rat."
    Glass M.J., Colago E.E., Pickel V.M.
    Synapse 46:258-268(2002) [PubMed] [Europe PMC] [Abstract]
    Category: Subcellular Location.
    Annotation: Alpha 2a adrenergic receptors are localized to plasmalemmal and cytoplasmic sites in neuronal and glial profiles within the central nucleus of the amygdala.Imported.
    Source: RGD:2056, GeneRIF:25083.

    This publication is mapped to 1 other entry.

  10. 10
    "alpha(2a) and alpha(2c) adrenoceptors on spinal neurons controlling penile erection."
    Yaici E.D., Rampin O., Calas A., Jestin A., McKenna K.E., Leclerc P., Benoit G., Giuliano F.
    Neuroscience 114:945-960(2002) [PubMed] [Europe PMC] [Abstract]
    Annotation: intraspinal modulation of the noradrenergic and adrenergic control of the autonomic outflow to the penis by pre- and postsynaptic alpha(2) adrenoceptors.Imported.
    Source: GeneRIF:25083.

    This publication is mapped to 1 other entry.

  11. 11
    "Synergistic effect of fibroblast growth factor-4 in ectopic bone formation induced by bone morphogenetic protein-2."
    Kubota K., Iseki S., Kuroda S., Oida S., Iimura T., Duarte W.R., Ohya K., Ishikawa I., Kasugai S.
    Bone 31:465-471(2002) [PubMed] [Europe PMC] [Abstract]
    Category: Subcellular Location.
    Source: RGD:2056.

    This publication is mapped to 3 other entries.

  12. 12
    "The alpha-2A-adrenergic receptor gene affects rat resistance to cold anesthesia."
    Shishkina G.T., Dygalo N.N., Kalinina T.S., Masnavieva L.B.
    Dokl. Biol. Sci. 388:68-69(2003) [PubMed] [Europe PMC] [Abstract]
    Annotation: role in the induction of cold anesthesia in neonatal ratsImported.
    Source: GeneRIF:25083.

    This publication is mapped to 1 other entry.

  13. 13
    "Increased cardiac norepinephrine release in spontaneously hypertensive rats: role of presynaptic alpha-2A adrenoceptors."
    Zugck C., Lossnitzer D., Backs J., Kristen A., Kinscherf R., Haass M.
    J. Hypertens. 21:1363-1369(2003) [PubMed] [Europe PMC] [Abstract]
    Category: Expression.
    Annotation: The impairment of the alpha-2R mediated presynaptic negative feedback mechanism by a reduced expression of the alpha-2R subtype A may increase cardiac net secretion of norepinephrine in SHR and could therefore contribute to their hypertensive phenotype.Imported.
    Source: RGD:2056, GeneRIF:25083.

    This publication is mapped to 1 other entry.

  14. 14
    "Alpha 2 adrenergic receptors on GABAergic, putative sleep-promoting basal forebrain neurons."
    Manns I.D., Lee M.G., Modirrousta M., Hou Y.P., Jones B.E.
    Eur. J. Neurosci. 18:723-727(2003) [PubMed] [Europe PMC] [Abstract]
    Annotation: Most glutamic acid decarboxylase immunopositive neurons through the magnocellular preoptic nucleus and substantia innominata were labelled for the alpha2AARImported.
    Source: GeneRIF:25083.

    This publication is mapped to 1 other entry.

  15. 15
    "Decreased spinal alpha2a- and alpha2c-adrenergic receptor subtype mRNA in a rat model of neuropathic pain."
    Leiphart J.W., Dills C.V., Levy R.M.
    Neurosci. Lett. 349:5-8(2003) [PubMed] [Europe PMC] [Abstract]
    Category: Pathology & Biotech.
    Source: RGD:2056.

    This publication is mapped to 2 other entries.

  16. 16
    "Transiently overexpressed alpha2-adrenoceptors and their control of DNA synthesis in the developing brain."
    Kreider M.L., Seidler F.J., Cousins M.M., Tate C.A., Slotkin T.A.
    Brain Res. Dev. Brain Res. 152:233-239(2004) [PubMed] [Europe PMC] [Abstract]
    Category: Function.
    Annotation: Transiently overexpressed alpha2ARs in the developing brain participate in the control of DNA synthesis in a biphasic manner with promotional actions at low endogenous levels of stimulation but inhibitory effects when stimulation is high.Imported.
    Source: RGD:2056, GeneRIF:25083.

    This publication is mapped to 1 other entry.

  17. 17
    "Alpha-adrenergic receptor (alpha(2 A )) is colocalized in basal forebrain cholinergic neurons: a light and electron microscopic double immunolabeling study."
    Zaborszky L., Rosin D.L., Kiss J.
    J. Neurocytol. 33:265-276(2004) [PubMed] [Europe PMC] [Abstract]
    Category: Subcellular Location.
    Annotation: We detected the alpha2A-AR protein in cholinergic as well as in non-cholinergic basal forebrain neurons. Almost half of all cholinergic neurons contained this adrenergic receptor.Imported.
    Source: RGD:2056, GeneRIF:25083.

    This publication is mapped to 1 other entry.

  18. 18
    "Isolation of rat genomic clones encoding subtypes of the alpha 2-adrenergic receptor. Identification of a unique receptor subtype."
    Lanier S.M., Downing S., Duzic E., Homcy C.J.
    J. Biol. Chem. 266:10470-10478(1991) [PubMed] [Europe PMC] [Abstract]
    Category: Function.
    Source: RGD:2056.

    This publication is cited by 1 other entry.

  19. 19
    "Suppression of catechol-O-methyltransferase activity through blunting of alpha2-adrenoceptor can explain hypertension in Dahl salt-sensitive rats."
    Hirano Y., Tsunoda M., Shimosawa T., Matsui H., Fujita T., Funatsu T.
    Hypertens. Res. 30:269-278(2007) [PubMed] [Europe PMC] [Abstract]
    Annotation: Suppression of catechol-O-methyltransferase activities decrease in degradation of norepinephrine (NE) and increase in NE release by blunting of alpha(2)-AR function may be involved in salt-sensitive hypertension in Dahl salt-sensitive rats.Imported.
    Source: GeneRIF:25083.

    This publication is mapped to 3 other entries.

  20. 20
    "Different roles of alpha2-adrenoceptor subtypes in non-pregnant and late-pregnant uterine contractility in vitro in the rat."
    Gaspar R., Gal A., Galik M., Ducza E., Minorics R., Kolarovszki-Sipiczki Z., Klukovits A., Falkay G.
    Neurochem. Int. 51:311-318(2007) [PubMed] [Europe PMC] [Abstract]
    Category: Function.
    Source: RGD:2056.

    This publication is mapped to 3 other entries.

  21. 21
    "Alpha2-adrenergic receptors activate cyclic AMP-response element-binding protein through arachidonic acid metabolism and protein kinase A in a subtype-specific manner."
    Karkoulias G., Mastrogianni O., Papathanasopoulos P., Paris H., Flordellis C.
    J. Neurochem. 103:882-895(2007) [PubMed] [Europe PMC] [Abstract]
    Annotation: In PC12 cells the alpha2-AR subtypes cause phosphorylation and activation of CREB through a pathway involving stimulation of PLC AA release generation of epoxygenase derivative and increase of PKA activity.Imported.
    Source: GeneRIF:25083.

    This publication is mapped to 1 other entry.

  22. 22
    "The involvement of peripheral alpha 2-adrenoceptors in the antihyperalgesic effect of oxcarbazepine in a rat model of inflammatory pain."
    Tomic M.A., Vuckovic S.M., Stepanovic-Petrovic R.M., Ugresic N.D., Paranos S.L.j., Prostran M.S., Boskovic B.
    Anesth. Analg. 105:1474-1481(2007) [PubMed] [Europe PMC] [Abstract]
    Category: Pathology & Biotech.
    Source: RGD:2056.

    This publication is mapped to 1 other entry.

  23. 23
    "Negative regulation of caspase-3 expression in the neonatal cerebral cortex by alpha2A-adrenoceptors."
    Men'shanov P.N., Bannova A.V., Il'inykh F.A., Dygalo N.N.
    Bull. Exp. Biol. Med. 143:277-279(2007) [PubMed] [Europe PMC] [Abstract]
    Annotation: Antisense oligonucleotide to alpha2A-adrenoceptors increased the levels of mRNA (reverse polymerase chain reaction) and protein for a key executioner protease of apoptosis caspase-3 (immunoblotting assay) in the cerebral cortex of newborn rats.Imported.
    Source: GeneRIF:25083.

    This publication is mapped to 1 other entry.

  24. 24
    "Peripheral nerve injury-induced changes in spinal alpha(2)-adrenoceptor-mediated modulation of mechanically evoked dorsal horn neuronal responses."
    Rahman W., D'Mello R., Dickenson A.H.
    J Pain 9:350-359(2008) [PubMed] [Europe PMC] [Abstract]
    Annotation: Peripheral nerve injury can result in the suppression of noradrenergic spinal alpha(2)-adrenoceptor-mediated inhibition of spinal dorsal horn neuronal activity evoked by low-intensity mechanical stimuli.Imported.
    Source: GeneRIF:25083.

    This publication is mapped to 1 other entry.

  25. 25
    "Alpha2-adrenoceptors enhance angiotensin II-induced renal vasoconstriction: role for NADPH oxidase and RhoA."
    Jackson E.K., Gillespie D.G., Zhu C., Ren J., Zacharia L.C., Mi Z.
    Hypertension 51:719-726(2008) [PubMed] [Europe PMC] [Abstract]
    Annotation: NADPH oxidase/superoxide and RhoA/Rho kinase are involved in the interaction between alpha(2)-adrenoceptors and angiotensin II on renal vascular resistance.Imported.
    Source: GeneRIF:25083.

    This publication is mapped to 1 other entry.

1 to 25 of 63  Show

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