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Construction of fish (Ctenopharyngodon idellus) genomic and pituitary CDNA libraries for cloning of growth hormone gene.January 1988 (has links)
by Henry, Kam-yin Cheung. / Thesis (M.Ph.)--Chinese University of Hong Kong, 1988. / Bibliography: leaves 119-126.
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Observations of Pituitary Hormone Injections and Ripening of FishKaushik, D. K. 01 May 1961 (has links)
A dependable source of quality fish spawn is a fundamental prerequisite for fish culture development. This is especially important inasmuch as most of the cultivable species do not breed in confined waters. Also, sport fisheries are gaining greater popularity, and subsequently the fish supply is being taxed. Still another need for fish spawn is in the ever increasing demand for bait minnows. Also, the construction of more and more dams has resulted in insurmountable obstacles for ascending and descending fish, which may ultimately result in complete destruction of some fisheries. Thus some measure of artificial propagation will have to be taken to safegaurd our valuable fishery resources.
A partial solution to this problem of supplementing natural propagation is that of inducing the fish to spawn artificially in the hatchery. A method of doing this is by stimulating fish to breed by the use of pituitary hormones. Those pituitary hormone-containing glands are often collected under a variety of field conditions which may involve considerable effort, time, and money. Therefore,, it was my objective in this study to develop a practical refined assay on hormones using as small an amount as possible of the crude extract of pituitary suspension, and to make it simple enough that every lay fisheries man ,dll be able to apply it, thus meeting his demand for quality fish eggs in his own hatchery when he needs it most.
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The effect of neonatal undernutrition on the weight, histology, and function of the pituitary of the adult male rat : a thesis / submitted by David Elliott Taplin.Taplin, David Elliott January 1968 (has links)
Includes bibliographical references (leaves 281-328) / iii, 328 leaves : ill. ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / The experiments reported are investigations of the pituitary of rats stunted by undernutrition imposed between birth and 3 weeks of age. / Thesis (Ph.D.)--University of Adelaide, Dept. of Animal Physiology, 1971
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Functional heterogeneity of the corticotroph cells in the fetal sheep pituitary / Timothy Garth Butler.Butler, Timothy Garth January 2003 (has links)
Bibliography: leaves 161-189. / xx, 189 leaves : ill. ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / The aim of the series of experiments described in this thesis was to investigate the functional characteristics of the subpopulations of the corticotrophs in the fetal pituitary during normal development and after chronic intrauterine stress. / Thesis (Ph.D.)--University of Adelaide, School of Molecular and Biomedical Sciences, Discipline of Physiology, 2004
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The effect of neonatal undernutrition on the weight, histology, and function of the pituitary of the adult male rat : a thesisTaplin, David Elliott. January 1968 (has links) (PDF)
Includes bibliographical references (leaves 281-328) The experiments reported are investigations of the pituitary of rats stunted by undernutrition imposed between birth and 3 weeks of age.
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Identification and characterization of vasotocin and mesotocin peptides and receptorsSearcy, Brian T. 09 December 2004 (has links)
The neurohypophysial peptide system is involved in modulating a
variety of physiological, neurological, and behavioral responses in
vertebrates. The principal forms of these peptides in non-mammalian
tetrapods are vasotocin (VT) and mesotocin (MT). The studies described
in this thesis used pharmacological, molecular, and biochemical
techniques, along with phylogenetic analyses, to identify and characterize
the mRNA sequences encoding the neurohypophysial peptide precursor
proteins and their receptors in urodele amphibians.
The cDNAs encoding preproVT and preproMT were amplified by
PCR from the brains of two salamander species; the rough-skinned newt,
Taricha granulosa, and the red-legged salamander, Plethodon shermani.
The neurohypophysial peptides encoded by the identified Taricha cDNAs
were VT and MT; the Plethodon cDNAs encoded VT and a novel MT-like
peptide, [Val⁴]-MT. Phylogenetic analyses grouped both the Taricha and
Plethodon preproVT and preproMT-like sequences with previously
identified tetrapod preproVT-like and preproMT-like sequences,
respectively. Additional analysis of the preproneurohypophysial sequences
indicated that gene conversion (non-homologous crossing over of DNA
sequences) appears to have occurred more frequently in mammals than in
other tetrapod classes.
The cDNAs encoding the VT receptor (VTR) and MT receptor (MTR)
were amplified from the brain of T. granulosa by PCR. Sequence identity,
and phylogenetic analysis, indicated that the Taricha MTR and VTR were
most similar to MTR/OTRs and V[subscript 1a]-like VTRs, respectively. Distribution of
PCR amplicons specific to the Taricha MTR and VTR matched previously
reported tissue distributions of MTRs and VTRs in other vertebrates in
every tissue but kidney, from which the Taricha primers were unable to
amplify a cDNA product. Binding experiments of transiently expressed
Taricha MTR indicated two binding states, and allowed the determination
of ligand binding affinities for this receptor. Inositol phosphate
accumulation assays demonstrated that the expressed Taricha MTR and
VTR cDNA produced functional receptors, and allowed calculation of ligand
potencies of activation and inhibition. Surprisingly, an antagonist
frequently used in behavioral experiments to specifically block VTR activity,
inhibited inositol phosphate accumulation in cells transfected with either the
Taricha MTR or VTR. In conclusion, these studies report the first identified cDNA
sequences encoding the preproVT, preproMT, MTR, and V[subscript 1a]-like VTR
proteins from urodele amphibians. / Graduation date: 2005
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Evaluation of a Bovine Temperament Model for Endophenotypes Associated with Hypothalamic-Pituitary-Adrenal Axis DysfunctionCurley, Kevin 2012 May 1900 (has links)
Dynamic interactions of behavior-related traits and the physiological stress response bear upon the beef industry by impacting animal welfare, health, and productivity. The specific mechanisms of hypothalamic-pituitary-adrenal (HPA) axis dysfunction as related to cattle temperament remain unclear. To further characterize endophenotypes associated with the complex interaction of environment and genotype, the following experiments focused on stimulation and regulation of the pituitary gland in cattle of differing genetic background and temperament.
Using serial blood sampling, via jugular cannula, the pituitary and subsequent adrenal response to exogenous vasopressin (VP) was characterized for steers of an excitable or calm temperament. Exit velocity (EV) measured at weaning was used to determine steer temperament. Endocrine parameters were measured for 6 h before and 6 h after the VP administration to quantify the stress response to both the handling associated with the experimental procedures and pharmacological challenge. Elevated concentrations of cortisol in excitable steers during the pre-challenge period reflected an increased initial adrenal reactivity to interactions with humans. Subsequent acclimation to the experimental surroundings yielded greater baseline cortisol concentrations in the cattle with an excitable temperament. Pituitary stimulation with VP resulted in a greater adrenocorticotropic hormone (ACTH) output from the excitable compared to the calm animals.
A separate experiment employed the same 12-h blood sampling protocol with a different pituitary secretagogue, corticotrophin-releasing hormone (CRH), in order to evaluate pituitary-adrenal responsiveness in cattle with differing temperaments and genetic backgrounds. Measures of EV at weaning identified the calmest and most excitable steers from two separate calf crops; one Angus and the other Brahman. Within breed, adrenal medullary response to initial handling was influenced by temperament as concentrations of epinephrine and norepinephrine were higher in the excitable steers of both breedtypes. Additionally, concentrations of cortisol also differed by temperament in the Angus steers at this time point. An effect of temperament on pituitary responsiveness to exogenous CRH was observed in the Angus but not the Brahman steers. Unlike what was observed with the previously described VP challenge, the pituitary responsiveness to CRH was blunted in the excitable steers. The specific endophenotypes which have been identified or reinforced through these experiments suggest that there are aspects of HPA dysfunction associated with bovine temperament.
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Transsphenoidal Microadenomectomy in Cases of Cushing's DiseaseKANIE, NORIO, TAKAHASHI, TATSUO, NAKANE, TOSHICHI, WATANABE, MASAO, KUWAYAMA, AKIO, KAGEYAMA, NAOKI 06 1900 (has links)
No description available.
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The Role of CtBP in Pituitary TumorigenesisDorman, Kathryn 31 December 2010 (has links)
C-terminal Binding Protein (CtBP) is a transcriptional co-repressor that plays an important role in mammalian development and tumorigenesis. CtBP is known to interact with Ikaros, an important transcriptional regulator in the pituitary; however CtBP itself has not been examined in this gland. I examined the role of CtBP in pituitary cell growth and survival. Compared to control pituitary GH4 cells, CtBP1-deficient cells exhibit reduced proliferation and de-regulation of genes involved in cell cycle and growth factor signaling. CtBP1-deficient cells were more susceptible to hypoxia-induced apoptosis and showed a reduction in hypoxia-induced Ikaros expression. Interactions between CtBP and Ikaros isoforms were demonstrated in pituitary tumor
cell lines. CtBP and Ikaros also bound a common region of the previously characterized Ikaros target, the LDL-R promoter. These results identify oncogenic properties of CtBP1 in the pituitary and set the groundwork for future studies into regulatory roles of CtBP and Ikaros in the
pituitary.
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The Role of CtBP in Pituitary TumorigenesisDorman, Kathryn 31 December 2010 (has links)
C-terminal Binding Protein (CtBP) is a transcriptional co-repressor that plays an important role in mammalian development and tumorigenesis. CtBP is known to interact with Ikaros, an important transcriptional regulator in the pituitary; however CtBP itself has not been examined in this gland. I examined the role of CtBP in pituitary cell growth and survival. Compared to control pituitary GH4 cells, CtBP1-deficient cells exhibit reduced proliferation and de-regulation of genes involved in cell cycle and growth factor signaling. CtBP1-deficient cells were more susceptible to hypoxia-induced apoptosis and showed a reduction in hypoxia-induced Ikaros expression. Interactions between CtBP and Ikaros isoforms were demonstrated in pituitary tumor
cell lines. CtBP and Ikaros also bound a common region of the previously characterized Ikaros target, the LDL-R promoter. These results identify oncogenic properties of CtBP1 in the pituitary and set the groundwork for future studies into regulatory roles of CtBP and Ikaros in the
pituitary.
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