Global ETD Search

91	Seasonal patterns of androgen biosynthesis in the testis of the common teal (Anas crecca crecca L.) and the tree sparrow (Passer montanus saturatus). Chan, Man-bun, Kenneth. January 1971 (has links) Thesis--Ph. D., University of Hong Kong. / Typewritten.
92	Ontogenetic and mechanistic explanations of within-sex behavioral variation in a lizard with temperature- dependent sex determination Huang, Victoria 25 February 2014 (has links) The leopard gecko (Eublepharis macularius) is a reptile species in which embryonic temperature contributes both to sex determination and within- sex polymorphisms. Its life history makes the leopard gecko a model system for seeking ontogenic and proximate explanations for within-sex variation in sexually dimorphic behavior and neurophysiology, necessary attributes for reproductive success. For my dissertation I have incorporated the role of androgens that potentially modulate incubation temperature effects on behavioral and brain variation, which I approached using embryo and adult leopard geckos. First, I found that that the bias of same-sex clutch siblings is primarily incubation temperature- dependent and any maternal or genetic effects on same-sex clutch siblings are secondary. Second, I found that testosterone concentrations in the yolk-albumen were higher in eggs of late development than early development at 26 °C, a female-producing incubation temperature, but did not differ from eggs incubated at another female-biased temperature. This increase in testosterone concentrations during the temperature sensitive period in putative females is a finding opposite of reported trends in most other reptiles studied to date. Further, I found that the embryonic environment influences male sociosexual investigation in the absence of gonadal hormones. Lastly, in adult males of 32.5 °C, a male-biased incubation temperature, I found that the phosphoprotein DARPP-32 that is activated by the D1 dopamine receptor in limbic brain regions is correlated to this sociosexual investigatory behavior. Neurons immunopositive for phosphorylated DARPP-32 were not only less dense in the nucleus accumbens of males who spent more time with other males, but also more dense in the preoptic area of males who spent more time with females. The use of phosphorylated DARPP-32 as marker for sociosexual exposure is novel in a lizard species. Taken together, in support of previous studies, these results show that differences in embryonic environment stem primarily from incubation temperature, can explain behavioral differences in adulthood in the absence of hormones, and, in concert with hormonal manipulation, can influence neuronal marker sensitivity to sociosexual exposure. / text Behavior Reptile Androgens Yolk Mesolimbic pathway Temperature-dependent sex determination
93	Effects of mutant human androgen receptor with expanded CAG repeats onmuscle cells 羅興怡, Law, Hing-yee. January 2001 (has links) published_or_final_version / Paediatrics / Master / Master of Philosophy Androgens - Receptors. Nucleotides. DNA replication.
94	Molecular genetic analysis of receptor-defective androgen resistance in man Prior, Lynn January 1989 (has links) No description available. Androgens -- Receptors. Sex differentiation disorders. X chromosome -- Abnormalities.
95	Structure-function analysis of three widely dispersed point mutations in the hormone-binding domain of the androgen receptor Sabbaghian, Nelly January 1994 (has links) Three point mutations have been found in the hormone-binding domain (HBD) of the human androgen receptor (hAR): one in the N-terminal end (Ile663Asn in a family with partial androgen insensitivity syndrome (PAIS)); one in the middle, (Leu820Val in a family with PAIS); and one in the C-terminal end (Pro903Ser, in a family with complete AIS). The positions 663 and 903 were the most terminal mutation sites in the HBD found to date. The three mutant hARs have been previously characterized biochemically in genital skin fibroblasts. In the family with the Leu820Val substitution, the mother and the grandmother were found to be carriers for the same mutation. To prove their pathogenicity, each of the three mutations has been reproduced in an hAR expression vector that was transfected into COS-1 cells. In COS-1 cells, the complexes from Pro903Ser and Leu820Val had: increased thermolability; increased dissociation rates; decreased affinity; and abnormal transactivation. There was a hierarchy in the severity of the mutations expressed in kinetic and transactivation assays that correlated with the severity of the clinical phenotype. The pathogenicity of the Pro903Ser and the Leu820Val mutations was thereby confirmed. In COS-1 cells, the AR with Ile663Asn had normal thermolability, normal dissociation rates, and normal transactivation, but a decreased affinity. Although this sequence alteration has only been found in a PAIS patient, its pathogenicity is not considered to be proven. More sensitive assays are needed for this purpose. Androgens -- Receptors. Sex differentiation disorders. X chromosome -- Abnormalities.
96	Analysis of exon 1 and the 5'-flanking region of the androgen receptor gene in subjects with androgen insensitivity syndrome Vasiliou, Denise Marie. January 1996 (has links) The human androgen receptor (hAR) is a ligand-activated, nuclear transcription factor. Mutations affecting the formation and/or action of the hAR cause androgen insensitivity syndrome (AIS). The majority of mutations identified to date are within the DNA- and hormone-binding domains; very few have been identified in the transactivational modulatory domain, encoded by exon 1. This work presents an analysis of exon 1 and the 5$ sp prime$-flanking region of the hAR in a set of subjects whose AIS was believed to be caused by a mutation within these regions. Six of twelve strains had a nonsense or frameshift mutation in exon 1; a seventh strain had two missense and one silent substitution; no mutations were identified in the remaining subjects. The two missense mutations were recreated, individually and together, in an hAR complementary DNA (cDNA) expression vector and expressed in heterologous COS-1 cells. Their pathogenicity could not be proven with the system and assays used. In addition, mRNA and protein levels were analyzed and correlated with the identified mutations and the subjects' phenotype. Androgens -- Receptors. Exons (Genetics) Sex differentiation disorders. X chromosome -- Abnormalities.
97	Functional analysis of the human androgen receptor using synthetic and naturally occurring mutations Kazemi-Esfarjani, Parsa. January 1996 (has links) The human androgen receptor (hAR) is a ligand-activated transcription factor, and like other nuclear receptors, consists of a N-terminal modulatory domain, a central DNA-binding domain, and a C-terminal ligand-binding domain (LBD). Several missense mutations in the LBD cause androgen insensitivity syndrome (AI), a condition in XY individuals with absent or subnormal male primary and secondary sexual characteristics. On the other hand, abnormal expansion of a polyglutamine tract in the N-terminal domain of the hAR causes spinal and bulbar muscular atrophy (SBMA) which also affects males and causes milder forms of AI, in addition to adult-onset motor neuron degeneration and gradual wasting and weakening of the muscles of the limbs, face, throat, and tongue. However, it was not clear how and to what extent these mutations contribute to the clinical phenotype of the affected individuals. In order to investigate this matter, I used PCR site-directed mutagenesis to create plasmids expressing hARs with two pairs of missense mutations in the LBD (Val865Leu and Val865Met, and Arg839His and Arg839Cys), discovered in AI individuals with varying severity of the phenotype, and two abnormal expansions of the polyglutamine repeat discovered in SBMA patients (40 and 50 glutamines). I also synthesized plasmids expressing no glutamines (0 glutamines), 12 glutamines, or 20 glutamines in the same N-terminal region of the hAR. These plasmids were transiently expressed in heterologous cells (COS-1 and PC-3), and the mutant hARs were assayed for ligand binding, stability, and transactivational capacity. / In contrast to the findings by others (McPhaul et al., 1992; Marcelli et al., 1994), in some instances involving identical mutations, I consistently observed a correlation between the biochemical phenotype of the mutant hARs and the clinical phenotype of AI individuals; that is, the more severe receptor phenotype was associated with the more severe AI. These results support the hypothesis that hAR phenotype is the dominant factor in the development of the secondary sexual characteristics in normal and affected individuals. / I also observed a tight negative correlation between polyglutamine tract length and transactivational capacity. This suggests that polyglutamine modulates the activity of the hAR, and that hAR activity might be suppressed in various androgen-sensitive tissues (including motor neurons) in SBMA individuals, thereby contributing to the age of onset and/or progression of the disease, even if it cannot be the primary pathogenic agent of the disease. Androgens -- Receptors. Sex differentiation disorders. X chromosome -- Abnormalities.
98	Biochemical and molecular genetic analysis of mutant androgen receptors in humans Mhatre, Anand N. January 1992 (has links) The major objective of this thesis was to determine the molecular basis of a "ligand-selective" mutant androgen receptor (AR) phenotype. Methyltrienelone (MT), a synthetic androgen, dissociates normally from this receptor but mibolerone (MB), another synthetic androgen, dissociates from it two-fold faster than normal. This mutant receptor was identified within genital skin fibroblasts (GSF) from two unrelated individuals with different degrees of androgen insensitivity (AI). Sequence analysis of the AR gene from both subjects revealed a G to A transition at nt 2969 in exon 6 that alters codon 813 from serine to asparagine (S813N). Transiently expressed hAR.S813N did not reproduce the mutant phenotype in several heterologous cells: COS-1, BHK, CHO or HeLa cells. In contrast, when AR free (R$ sp-$) GSF were used as host cells, MB-R.S813N complexes dissociated almost two fold faster than the controls (n = 4) while MT-R.S813N complexes dissociated normally. These results establish the G to A transition at nt 2969 as the cause of the ligand-selective phenotype. Such host-cell restricted expression of the mutant dissociation rate points to cell-specific factors that can suppress abnormal dissociation of A-R complexes. Host cell-restricted expression of the abnormal dissociation rates has also been observed for two other transiently expressed mutant AR, hAR.V865L and hAR.R839H (n = 3). / Expansion of the glutamine (gln) tract within the N-terminus of the AR causes spinal bulbar muscular atrophy (SBMA), a disease of motor neurons, but the mechanism of this neuropathology is unknown. To determine the effect of gln-tract expansion upon AR function, SBMA-associated mutant AR was transiently expressed and characterized in COS-1 cells. The androgen-binding parameters of the mutant receptor were normal, but it had decreased transactivation competence (50-66% of normal; n = 3). This abnormal transregulatory function may account for the expression of traits associated with minimal androgen insensitivity (MAI) that are variably expressed in the SBMA patients. Androgens -- Receptors Sex differentiation disorders X chromosome -- Abnormalities
99	Cytochrome c oxidase subunit Vb interacts with human androgen receptor : a potential mechanism for neuronotoxicity in spinobulbar muscular atrophy Beauchemin, Annie. January 2000 (has links) Spinobulbar muscular atrophy (SBMA) is a neurodegenerative disease caused by the expansion of a polyglutamine (polyGln) tract in the human androgen receptor (hAR). One mechanism by which polyGln-expanded proteins are believed to cause neuronotoxicity is through aberrant interaction(s) with, and possible sequestration of, critical cellular protein(s). / Our goal was to confirm and further characterize the interaction between hAR and cytochrome c oxidase subunit Vb (COXVb), a nuclear-encoded mitochondrial protein. We had previously isolated COXVb as an AR-interacting protein in a yeast two-hybrid search to identify candidates that interact with normal and polyGln-expanded AR. Using the mammalian two-hybrid system, we confirm that COXVb interacts with normal and mutant AR and demonstrate that the COXVb-normal AR interaction is stimulated by heat shock protein 70 (Hsp70). Also, BFP-tagged AR specifically co-localizes with cytoplasmic aggregates formed by GFP-labelled polyGln-expanded AR in androgen-treated cells. / Mitochondrial dysfunction may precede neuropathological findings in polyGln-expanded disorders and may thus represent an early event in neuronotoxicity. Interaction of COXVb and hAR, with subsequent sequestration of COXVb, may provide a mechanism for putative mitochondrial dysfunction in SBMA. Cytochrome oxidase. Androgens -- Receptors. Spinal muscular atrophy -- Pathogenesis.
100	Analysis of two point mutations in the androgen receptor gene of patients with complete androgen resistance Bordet, Sylvie January 1992 (has links) Two previously identified sequence alterations in the androgen receptor gene of patients with complete androgen resistance are studied to prove their pathogenicity. Family studies confirm that the mutation segregates with the phenotype and that the mothers are heterozygous carriers. In one family a sibling of the patient is identified as a heterozygous carrier. Mutant cDNAs encoding the mutant receptors are constructed and expressed in COS-1 cells. The resulting mutant receptors show a decreased apparent equilibrium constant for androgens, faster dissociation rates and impaired transactivation. Further studies reveal that both mutant receptors were either inactivated or destroyed in the presence of hormone, while the normal receptor is stabilized and up-regulated by incubation with ligand. These results prove that the sequence alterations thus identified are pathogenic and illustrate a dual mechanism of pathogenicity: an affinity defect combined with a loss of binding activity in the presence of hormone, resulting in receptors incapable of supporting normal male sexual development. Androgens -- Receptors. Sex differentiation disorders. X chromosome -- Abnormalities.

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