| scholarly article | Q13442814 |
| P356 | DOI | 10.1016/J.YHBEH.2007.11.014 |
| P8608 | Fatcat ID | release_wpgqh5skmzekziqedgg2gklkaq |
| P932 | PMC publication ID | 3266066 |
| P698 | PubMed publication ID | 18164002 |
| P5875 | ResearchGate publication ID | 5685569 |
| P50 | author | Shigenobu Shibata | Q62643285 |
| P2093 | author name string | Rae Silver | |
| Ilia Karatsoreos | |||
| Eiko Iwahana | |||
| P2860 | cites work | Orchestrating time: arrangements of the brain circadian clock | Q22337327 |
| Steroid feedback on gonadotropin release and pituitary gonadotropin subunit mRNA in mice lacking a functional estrogen receptor alpha | Q28372842 | ||
| Transplanted suprachiasmatic nucleus determines circadian period | Q29616365 | ||
| Molecular analysis of mammalian circadian rhythms | Q29618036 | ||
| The circadian visual system, 2005. | Q33991981 | ||
| An effect of castration and testosterone replacement on a circadian pacemaker in mice (Mus musculus) | Q35089980 | ||
| Vasoactive intestinal polypeptide contacts on gonadotropin-releasing hormone neurones increase following puberty in female rats. | Q35734610 | ||
| Phenotype matters: identification of light-responsive cells in the mouse suprachiasmatic nucleus | Q35734675 | ||
| Expression of Period genes: rhythmic and nonrhythmic compartments of the suprachiasmatic nucleus pacemaker | Q35744463 | ||
| Organization of suprachiasmatic nucleus projections in Syrian hamsters (Mesocricetus auratus): an anterograde and retrograde analysis. | Q35744675 | ||
| The regulation of neuroendocrine function: Timing is everything. | Q35744720 | ||
| Exploring spatiotemporal organization of SCN circuits | Q35763348 | ||
| Gates and oscillators II: zeitgebers and the network model of the brain clock | Q35763357 | ||
| A role for androgens in regulating circadian behavior and the suprachiasmatic nucleus | Q35763383 | ||
| Minireview: timely ovulation: circadian regulation of the female hypothalamo-pituitary-gonadal axis | Q36350872 | ||
| A concept of physiological time: rhythms in behavior and reproductive physiology | Q39767035 | ||
| The 5alpha-reduction of testosterone in the neuroendocrine structures. Biochemical and physiological implications | Q40325785 | ||
| Immunolocalization of Estrogen Receptor β in the Mouse Brain: Comparison with Estrogen Receptor α | Q40655085 | ||
| Distribution of estrogen receptor beta immunoreactivity in the rat central nervous system | Q40701784 | ||
| Resetting the brain clock: time course and localization of mPER1 and mPER2 protein expression in suprachiasmatic nuclei during phase shifts. | Q40834911 | ||
| Gates and oscillators: a network model of the brain clock. | Q40836161 | ||
| Differential induction and localization of mPer1 and mPer2 during advancing and delaying phase shifts | Q41231471 | ||
| Entrainment pathways and the functional organization of the circadian system | Q41304560 | ||
| Brain cells of the male rhesus monkey accumulate 3H-testosterone or its metabolites | Q42468333 | ||
| Suprachiasmatic nucleus in the mouse: retinal innervation, intrinsic organization and efferent projections | Q43764348 | ||
| Sex hormone receptors are present in the human suprachiasmatic nucleus | Q43990283 | ||
| Distribution of androgen receptor immunoreactivity in vasopressin- and oxytocin-immunoreactive neurons in the male rat brain | Q48108911 | ||
| Oestrogen receptor-alpha-immunoreactive neurones project to the suprachiasmatic nucleus of the female Syrian hamster | Q48138662 | ||
| Aromatase in developing sensory systems of the rat brain | Q48275211 | ||
| Effects of castration and chronic steroid treatments on hypothalamic gonadotropin-releasing hormone content and pituitary gonadotropins in male wild-type and estrogen receptor-alpha knockout mice | Q48387794 | ||
| Double duty for sex differences in the brain. | Q48440909 | ||
| Neurotransmitters of the hypothalamic suprachiasmatic nucleus: immunocytochemical analysis of 25 neuronal antigens | Q48468504 | ||
| Organization of neural inputs to the suprachiasmatic nucleus in the rat. | Q48574724 | ||
| Comparative distribution of estrogen receptor-alpha and -beta mRNA in the rat central nervous system | Q48590882 | ||
| 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 | Q48637828 | ||
| Testicular hormones modulate circadian rhythms of the diurnal rodent, Octodon degus. | Q48708808 | ||
| Distribution and hormonal regulation of androgen receptor immunoreactivity in the forebrain of the male European ferret | Q48827539 | ||
| Circadian rhythmicity restored by neural transplant. Immunocytochemical characterization of the graft and its integration with the host brain. | Q52493909 | ||
| Effect of ovarian hormones on synchrony of hamster circadian rhythms | Q57829633 | ||
| Estradiol Shortens the Period of Hamster Circadian Rhythms | Q67011235 | ||
| A microanalysis of wheel running in male and female rats | Q67984708 | ||
| Seasonal change in the locomotor activity rhythm of the medaka, Oryzias latipes | Q68120761 | ||
| Circadian and seasonal control of neuroendocrine-gonadal activity | Q69479017 | ||
| Photic sensitivity of geniculate neurons that project to the suprachiasmatic nuclei or the contralateral geniculate | Q69559600 | ||
| Daily and hourly estrous running in intact, spayed, and estrone implanted rats | Q69580241 | ||
| Gonadal hormones organize and modulate the circadian system of the rat | Q70816311 | ||
| The suprachiasmatic area in the female hamster projects to neurons containing estrogen receptors and GnRH | Q70837312 | ||
| Sex differentiation of t-e circadian system in the golden hamster | Q71136346 | ||
| Calbindin-D28K cells in the hamster SCN express light-induced Fos | Q71558875 | ||
| Immunocytochemical distribution of androgen receptors in the hypothalamus and pituitary of the fetal baboon in late gestation | Q72220396 | ||
| The hypothalamic suprachiasmatic nucleus of rat: Intrinsic anatomy | Q72618397 | ||
| Sex differences in the distribution of androgen receptors in the human hypothalamus | Q74267359 | ||
| Suprachiasmatic nucleus organization | Q77462005 | ||
| P433 | issue | 3 | |
| P921 | main subject | circadian rhythm | Q208353 |
| P304 | page(s) | 422-430 | |
| P577 | publication date | 2007-12-04 | |
| P1433 | published in | Hormones and Behaviour | Q15760887 |
| P1476 | title | Gonadectomy reveals sex differences in circadian rhythms and suprachiasmatic nucleus androgen receptors in mice | |
| P478 | volume | 53 |
| Q34667761 | Analysis of the effects of sex hormone background on the rat choroid plexus transcriptome by cDNA microarrays |
| Q34788457 | Androgens modulate structure and function of the suprachiasmatic nucleus brain clock |
| Q34170255 | Changes in circadian rhythms during puberty in Rattus norvegicus: developmental time course and gonadal dependency |
| Q33427650 | Chromosome Y variants from different inbred mouse strains are linked to differences in the morphologic and molecular responses of cardiac cells to postpubertal testosterone |
| Q35037985 | Chronotype changes during puberty depend on gonadal hormones in the slow-developing rodent, Octodon degus. |
| Q90500586 | Circadian Regulation of the Brain and Behavior: A Neuroendocrine Perspective |
| Q86848041 | Circadian abnormalities in mouse models of Smith-Magenis syndrome: evidence for involvement of RAI1 |
| Q38264865 | Circadian clock function in the mammalian ovary |
| Q30430547 | Circadian clocks in the ovary |
| Q30541494 | Circadian genes Period 1 and Period 2 in the nucleus accumbens regulate anxiety-related behavior |
| Q35623991 | Clocks on top: the role of the circadian clock in the hypothalamic and pituitary regulation of endocrine physiology |
| Q50600153 | Developmental programming by androgen affects the circadian timing system in female mice. |
| Q54158427 | Differences in Photic Entrainment of Circadian Locomotor Activity Between Lean and Obese Volcano Mice (Neotomodon alstoni). |
| Q37417680 | Dynamic postnatal developmental and sex-specific neuroendocrine effects of prenatal polychlorinated biphenyls in rats |
| Q30411479 | Effects of ovarian hormones on internal circadian organization in rats |
| Q38195098 | Environmental control of biological rhythms: effects on development, fertility and metabolism |
| Q46952276 | Estradiol acts during a post-pubertal sensitive period to shorten free-running circadian period in male Octodon degus |
| Q51429791 | Estradiol deficiency during development modulates the expression of circadian and daily rhythms in male and female aromatase knockout mice. |
| Q30414005 | Excess androgen during puberty disrupts circadian organization in female rats |
| Q48186964 | Glycogen synthase kinase 3 regulates photic signaling in the suprachiasmatic nucleus |
| Q36699541 | Gonadal- and sex-chromosome-dependent sex differences in the circadian system |
| Q37639183 | Human androgen deficiency: insights gained from androgen receptor knockout mouse models. |
| Q39019276 | Long-Lived αMUPA Mice Show Reduced Sexual Dimorphism in Lifespan, and in Energy and Circadian Homeostasis-Related Parameters |
| Q36178428 | Minireview: The neuroendocrinology of the suprachiasmatic nucleus as a conductor of body time in mammals. |
| Q36827516 | Neuroendocrine underpinnings of sex differences in circadian timing systems |
| Q43811312 | Photic phase-response curve in 2 strains of mice with impaired responsiveness to estrogens |
| Q28386809 | Sex Differences in Circadian Dysfunction in the BACHD Mouse Model of Huntington's Disease |
| Q37418311 | Sex and hand differences in circadian wrist activity are independent from sex and hand differences in 2D:4D. |
| Q40978746 | Sex difference in thermal preference of adult mice does not depend on presence of the gonads |
| Q47547804 | Sex differences in circadian food anticipatory activity are not altered by individual manipulations of sex hormones or sex chromosome copy number in mice. |
| Q33699208 | Sex differences in circadian timing systems: implications for disease. |
| Q103017700 | Sex steroids modulate circadian behavioral rhythms in captive animals, but does this matter in the wild? |
| Q51049216 | Sex-related difference in food-anticipatory activity of mice. |
| Q27321583 | Sex-related differences in gene expression following Coxiella burnetii infection in mice: potential role of circadian rhythm |
| Q35585410 | Sex-specific diurnal immobility induced by forced swim test in wild type and clock gene deficient mice |
| Q35644926 | Sleep, rhythms, and the endocrine brain: influence of sex and gonadal hormones |
| Q37071462 | Social status and sex independently influence androgen receptor expression in the eusocial naked mole-rat brain |
| Q35988699 | Suprachiasmatic nucleus as the site of androgen action on circadian rhythms |
| Q47855447 | Testosterone boosts physical activity in male mice via dopaminergic pathways. |
| Q36603924 | The neuroendocrine control of the circadian system: adolescent chronotype |
| Q102135512 | Vasopressin regulates daily rhythms and circadian clock circuits in a manner influenced by sex |
| Q28077467 | WOMEN IN CANCER THEMATIC REVIEW: Circadian rhythmicity and the influence of 'clock' genes on prostate cancer |
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