Chemoarchitecture details

Reports of presence of CRH in PVHmpd.Time dependence of CRH
Reports of CRH presence in PVHmpd, normal physiological stateWatts A.G. & Sanchez-Watts G., 2002: Interactions between heterotypic stressors and corticosterone reveal integrative mechanisms for controlling corticotropin-releasing hormone gene expression in the paraventricular nucleus      Data

Watts, A.G. & Sanchez-Watts, G., 1995: Physiological regulation of peptide messenger RNA colocalization in rat hypothalamic paraventricular medial parvicellular neurons      Data

Swanson, L.W., Sawchenko, P.E., Lind, R.W. & Rho, J.-H., 1987: The CRH Motoneuron: differential peptide regulation in neurons with possible synaptic, paracrine, and endocrine outputs      Data

Methods comparison
Reports of CRH presence in PVHmpd, manipulated physiological stateWatts A.G. & Sanchez-Watts G., 2002: Interactions between heterotypic stressors and corticosterone reveal integrative mechanisms for controlling corticotropin-releasing hormone gene expression in the paraventricular nucleus      Data

Watts, A.G. & Sanchez-Watts, G., 1995: Physiological regulation of peptide messenger RNA colocalization in rat hypothalamic paraventricular medial parvicellular neurons      Data

Swanson LW, Sawchenko PE, Rivier J, Vale WW, 1983: Organization of ovine corticotropin-releasing factor immunoreactive cells and fibers in the rat brain: an immunohistochemical study      Data

Methods comparison
CRH coexpression reports in PVHmpd, normal physiological stateWatts, A.G. & Sanchez-Watts, G., 1995: Physiological regulation of peptide messenger RNA colocalization in rat hypothalamic paraventricular medial parvicellular neurons      Data
CRH coexpression reports in PVHmpd, manipulated physiological stateWatts, A.G. & Sanchez-Watts, G., 1995: Physiological regulation of peptide messenger RNA colocalization in rat hypothalamic paraventricular medial parvicellular neurons      Data

Sawchenko, P.E., Swanson, L.W. & Vale W.W., 1984: Corticotropin-releasing factor: co-expression within distinct subsets of oxytocin-, vasopressin-, and neurotensin-immunoreactive neurons in the hypothalamus of the male rat      Data

Methods comparison