Publications by authors named "Joyce I"

Neofunctionalization of duplicated gene copies is thought to be an important process underlying the origin of evolutionary novelty and provides an elegant mechanism for the origin of new phenotypic traits. One putative case where a new gene copy has been linked to a novel morphological trait is the origin of the arachnid patella, a taxonomically restricted leg segment. In spiders, the origin of this segment has been linked to the origin of the paralog dachshund-2, suggesting that a new gene facilitated the expression of a new trait.

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Neofunctionalization of duplicated gene copies is thought to be an important process underlying the origin of evolutionary novelty and provides an elegant mechanism for the origin of new phenotypic traits. One putative case where a new gene copy has been linked to a novel morphological trait is the origin of the arachnid patella, a taxonomically restricted leg segment. In spiders, the origin of this segment has been linked to the origin of the paralog , suggesting that a new gene facilitated the expression of a new trait.

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Aryl sulfamates, tosylates, and mesylates undergo efficient Ni-catalyzed cross coupling with diverse organostannanes in the presence of relatively unhindered alkylphosphine ligands and KF. The coupling is valuable for difficult bond constructions, such as aryl- heteroaryl, aryl-alkenyl, and aryl-alkynyl, using non-triflate phenol derivatives. A combination of experimental and computational studies implicate an unusual mechanism for transmetalation involving an 8-centered cyclic transition state.

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Achieving full in vitro growth of oocytes of both domestic animals and humans remains a major challenge. The objective of this study was to examine the in vitro development of primary follicles isolated enzymatically from cryopreserved sheep ovarian tissue. In Experiment 1, isolated primary follicles (mean diameter 60.

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A study was conducted to develop an in vitro culture system for growing sheep oocytes from isolated primordial follicles. Enzymatically isolated neonatal sheep primordial follicles were cultured in Waymouth MB752/1 medium containing BSA (3 mg/ml) + ITS (1%, v/v) over 28 days. In Experiment 1, primordial follicles (average diameter 40.

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Anti-Mullerian hormone (Amh) is expressed in the granulosa cells of growing and preovulatory follicles in the mouse ovary where it acts to decrease responsiveness to follicle stimulating hormone (FSH) and plays a role in inhibiting primordial follicle recruitment. Recently, co-culture of isolated oocytes and granulosa cells has demonstrated that Amh expression is up-regulated in the presence of oocytes and, at preantral stages, this effect is dependent upon close contact. In Sertoli cells, Amh expression is regulated by several transcription factors including SOX9, SF1, GATA4, WT1, and DAX1, which, with the exception of SOX9, are also expressed in granulosa cells where GATA4 is known to up-regulate Amh expression antagonised by FOG2.

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In mouse ovaries, growth differentiation factor-9 (GDF9) is an oocyte-derived growth factor that plays an essential role during early follicular development. However, the role of GDF9 during later stages of follicular development is uncertain. In the present study, a long double-stranded (ds) RNA interference approach was used to investigate the possible role of GDF9 in mediating oocyte regulation of cumulus expansion.

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In the ovarian follicle, anti-Müllerian hormone (Amh) mRNA is expressed in granulosa cells from primary to preovulatory stages but becomes restricted to cumulus cells following antrum formation. Anti-Müllerian hormone regulates follicle development by attenuating the effects of follicle stimulating hormone on follicle growth and inhibiting primordial follicle recruitment. To examine the role of the oocyte in regulating granulosa cell Amh expression in the mouse, isolated oocytes and granulosa cells were co-cultured and Amh mRNA levels were analysed by real-time RT-PCR.

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Normal ovulation in mice requires PG-endoperoxide synthase 2 (cyclooxygenase-2; COX-2) expression. This study examined the role of the oocyte and other factors in regulating steady state levels of COX-2 messenger RNA (mRNA) in granulosa cells. Multiphasic changes in the expression pattern of COX-2 mRNA were found, with peaks of expression 4 and 12 h after hCG treatment.

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Oocytes secrete factors that regulate the development of the surrounding granulosa cells in ovarian follicles. KIT ligand (KL) mRNA expression in granulosa cells is thought to be regulated by oocytes; however, the factor(s) that mediate this effect are not known. One candidate is the oocyte-specific gene product growth differentiation factor-9 (GDF-9).

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This study investigated the effect of recombinant bovine GH (rGH) on follicle development and LH secretion patterns in ewes. In Experiment 1, 20 ewes (n=10/group) synchronized with progestagen sponges on Day 0 received either a 7 d period of rGH treatment starting on Day 4, or acted as controls. On Day 11, all ewes were unilaterally ovariectomized.

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This study investigated the effect of FSH alone and rGH priming followed by FSH treatment on follicle populations, follicular fluid concentrations of components of the IGF system and steroids, and the ovulation rate in sheep. Estrus was synchronized with progestagen sponges. Ewes (n = 10/group) in Group 1 served as untreated controls, while those in Groups 2 to 5 received a standard superovulatory treatment of 1.

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Kit ligand (KL), a product of granulosa cells in ovarian follicles, is a putative regulator of oocyte development. However, the factors that regulate KL mRNA levels in granulosa cells remain unclear. This study tested the hypothesis that oocytes regulate granulosa cell steady-state KL mRNA expression levels and that the characteristics of this regulation are dependent on the stage of growth and development of both oocytes and follicles.

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