Lesions of the suprachiasmatic nucleus indicate the presence of a direct vasoactive intestinal polypeptide-containing projection to gonadotrophin-releasing hormone neurons in the female rat.
about
The excitatory peptide kisspeptin restores the luteinizing hormone surge and modulates amino acid neurotransmission in the medial preoptic area of middle-aged ratsThe role of the brain in female reproductive agingCollective timekeeping among cells of the master circadian clockCircadian Tick-Talking Across the Neuroendocrine System and Suprachiasmatic Nuclei Circuits: The Enigmatic Communication Between the Molecular and Electrical Membrane ClocksA "Timed" Kiss Is Essential for Reproduction: Lessons from Mammalian StudiesIntracerebroventricular infusion of vasoactive intestinal Peptide rescues the luteinizing hormone surge in middle-aged female rats.Circadian gene expression regulates pulsatile gonadotropin-releasing hormone (GnRH) secretory patterns in the hypothalamic GnRH-secreting GT1-7 cell lineCircadian regulation of Kiss1 neurons: implications for timing the preovulatory gonadotropin-releasing hormone/luteinizing hormone surgeVasoactive intestinal polypeptide can excite gonadotropin-releasing hormone neurons in a manner dependent on estradiol and gated by time of dayInnervation of gonadotropin-releasing hormone neurons by peptidergic neurons conveying circadian or energy balance information in the mouse.Vasoactive intestinal peptide modulation of the steroid-induced LH surge involves kisspeptin signaling in young but not in middle-aged female rats.Sex differences in circadian timing systems: implications for disease.Hypothalamic insulin-like growth factor-I receptors are necessary for hormone-dependent luteinizing hormone surges: implications for female reproductive aging.Neuroendocrine modulation of the "menopause": insights into the aging brain.Weak evidence of bright light effects on human LH and FSH.The biological clock: the bodyguard of temporal homeostasis.Projections of the suprachiasmatic nucleus and ventral subparaventricular zone in the Nile grass rat (Arvicanthis niloticus)Circadian control of kisspeptin and a gated GnRH response mediate the preovulatory luteinizing hormone surge.Circadian disruption and SCN control of energy metabolismCircadian rhythms have broad implications for understanding brain and behaviorShell neurons of the master circadian clock coordinate the phase of tissue clocks throughout the brain and bodyVasoactive intestinal polypeptide contacts on gonadotropin-releasing hormone neurones increase following puberty in female rats.The regulation of neuroendocrine function: Timing is everything.Circadian Control of the Female Reproductive Axis Through Gated Responsiveness of the RFRP-3 System to VIP SignalingThe role of circadian rhythmicity in reproduction.The dorsomedial suprachiasmatic nucleus times circadian expression of Kiss1 and the luteinizing hormone surge.Neuroanatomy of the extended circadian rhythm systemSuprachiasmatic nucleus of the human brain: an immunocytochemical and morphometric analysis.Unilaterally blocking the muscarinic receptors in the suprachiasmatic nucleus in proestrus rats prevents pre-ovulatory LH secretion and ovulation.Daily changes in GT1-7 cell sensitivity to GnRH secretagogues that trigger ovulationDaily rhythms and sex differences in vasoactive intestinal polypeptide, VIPR2 receptor and arginine vasopressin mRNA in the suprachiasmatic nucleus of a diurnal rodent, Arvicanthis niloticus.Oestrogen-independent circadian clock gene expression in the anteroventral periventricular nucleus in female rats: possible role as an integrator for circadian and ovarian signals timing the luteinising hormone surge.Effects of vasoactive intestinal polypeptide on neurones of the rat suprachiasmatic nuclei in vitro.Circadian regulation of gonadotropin-releasing hormone neurons and the preovulatory surge in luteinizing hormone in the diurnal rodent, Arvicanthis niloticus, and in a nocturnal rodent, Rattus norvegicus.Activation and degeneration during aging: a morphometric study of the human hypothalamus.Restoration of circadian behavior by anterior hypothalamic grafts containing the suprachiasmatic nucleus: graft/host interconnections.Vasopressin regulation of the proestrous luteinizing hormone surge in wild-type and Clock mutant mice.Evidence for a direct neuronal pathway from the suprachiasmatic nucleus to the gonadotropin-releasing hormone system: combined tracing and light and electron microscopic immunocytochemical studies.Topographic organization of suprachiasmatic nucleus projection neurons.
P2860
Q24642752-9A48C60E-1F10-40EB-9906-F0C6303AA75CQ24649796-2F3C8BDC-D3B7-4ABD-BE2A-E2323CD89CB9Q26751434-0DBEF96A-6855-4E25-9281-773698BED40EQ27004678-88875213-B3D9-4C55-B3F8-EFD840A00777Q28068638-90083356-9517-4064-A772-9C874CDA5107Q30426764-7DB67522-68BE-4F00-9D39-32C1E08CD472Q30434867-DC4D05E6-EFAA-45A1-A645-AE53A26C633BQ30435274-3377DC22-9B86-41E7-97C0-DD599D4B1AD5Q30439518-0957462F-FB04-4652-8559-F8A5AAD3DFEFQ33434521-32A1B04C-9DFB-4AC1-8501-BB5C54BD257FQ33610636-82E906EE-75CA-4A39-B45E-3DC4F7729A07Q33699208-83588166-D7D4-45DA-9028-CB23A0906FDDQ33735591-2B6CA6A2-00EC-49F6-9EE7-F21B8ACB3419Q33796483-71CBE132-A6B1-4496-9F9D-19686940D73FQ33911759-F3751B20-FCB1-4E64-8BA0-94BF2D4C04AEQ34319072-5F276B16-75E4-40E2-8C37-10FE812A7B91Q34419745-E67F67B5-7A59-4F5C-814D-AB7046D0E205Q34566612-E9D3248F-1BB0-4F26-86E0-BBED9DA204B6Q34984884-D44B630F-5405-47B1-A52D-D1515D778A79Q35272998-5DD96AA3-C151-49B1-BED1-C946A1C7D1D3Q35671011-EA526F2A-4676-4EDF-87A6-597B24DBB8D1Q35734610-CECC8F8E-6D6D-4AE2-B053-667BC11AF18EQ35744720-D617B634-3320-46C1-A280-9F160730C063Q35763629-18523CD5-9814-45A7-BDDD-267D8EB444C3Q35966467-B3168F93-EC1C-4C8A-A775-2066533C70A9Q35986020-4D986FC9-BFA0-482E-AACB-58279786CDEAQ36400207-1CFEBC3A-5859-4308-AC38-282E942EE222Q36806399-BAEBD7C5-5BF4-4A60-9089-400133262C44Q37010839-D8E3BDB4-BAC8-4D49-B252-A353F2E2DF60Q37216937-B03D4AFF-FA3A-4F59-AE89-09764AAF90DFQ37416092-D3F2E36F-5C74-4BC8-97AF-0A0C3CC3FA45Q37637718-B51FC584-684A-46ED-8CEC-7584A19175F1Q44086428-780C677D-9BBC-46E2-B5CA-8FF4022C571AQ44688291-B3FD8E6F-AA7C-4EEE-8639-3116DB473589Q48300803-2378B815-40E2-4F8D-967D-9E9FC021623AQ48367187-39A6F447-8E1E-416A-BE77-F73617106E0EQ48461820-C6700BF7-7CD1-4B4B-8507-E17B5E1EAEE9Q48637828-F0148535-E6D3-42DB-A193-2AE064E8AC60Q48921599-0DECE776-B0C4-48E8-BE6D-D85399EED7D2
P2860
Lesions of the suprachiasmatic nucleus indicate the presence of a direct vasoactive intestinal polypeptide-containing projection to gonadotrophin-releasing hormone neurons in the female rat.
description
1993 nî lūn-bûn
@nan
1993年の論文
@ja
1993年学术文章
@wuu
1993年学术文章
@zh-cn
1993年学术文章
@zh-hans
1993年学术文章
@zh-my
1993年学术文章
@zh-sg
1993年學術文章
@yue
1993年學術文章
@zh
1993年學術文章
@zh-hant
name
Lesions of the suprachiasmatic ...... one neurons in the female rat.
@en
Lesions of the suprachiasmatic ...... one neurons in the female rat.
@nl
type
label
Lesions of the suprachiasmatic ...... one neurons in the female rat.
@en
Lesions of the suprachiasmatic ...... one neurons in the female rat.
@nl
prefLabel
Lesions of the suprachiasmatic ...... one neurons in the female rat.
@en
Lesions of the suprachiasmatic ...... one neurons in the female rat.
@nl
P2093
P2860
P1476
Lesions of the suprachiasmatic ...... one neurons in the female rat.
@en
P2093
Wiegant VM
van den Hurk R
van der Beek EM
van der Donk HA
P2860
P304
P356
10.1111/J.1365-2826.1993.TB00373.X
P577
1993-04-01T00:00:00Z