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101.
本实验用幼年大鼠经PMSG/hCG诱发排卵,研究了印巢PGE_2、PGF_(2α) 、6-酮-PGF_(1α) 及TXB_2在排卵过程中的变化。实验表明卵巢PGE_2、PGF_(2α) 及6-酮-PGF_(1α) 在排卵前达到峰值,在排卵后,均趋下降。TXB_2未出现明显变化。受试动物经消炎痛处理后,不仅使排卵受到严重抑制,而对上述三种PGs在排卵前的上升也表现了显著的抑制。提示在卵泡破裂过程中PGs的重要调节作用,PGE_2、PGF_(2α)均可能参与排卵,其中尤以PGE_2的作用最为显著。 相似文献
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We have extended the genetic analysis of four mutants carrying defective MATα alleles in order to determine how the mating type locus controls yeast cell types: a, a, and . First, we have mapped the defect in the mutant VC73 to the mating type locus by diploid and tetraploid segregation analysis. Second, we have determined that the mutations in these strains define two complementation groups, MATα1 and MATα2. The MATα1 gene is proposed to be a positive regulator of α mating functions. The MATα2 gene product is proposed to have two roles, as a negative regulator of a-specific mating functions and as a regulator of cell functions (required for sporulation, for inhibition of mating and other processes). This view of MATα leads to the prediction that matα1?matα2? mutants should have the mating ability of an a cell and that matα1?matα2?/MATα strains should mate as α and be unable to sporulate. Such double mutants have been constructed and behave as predicted. We therefore propose that a-specific mating functions in MATa cells are constitutively expressed due to the absence of the MATα2 gene product and that α-specific mating functions are not expressed due to the absence of the MATα1 gene product. 相似文献
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The HML and HMR loci carry unexpressed copies of MATa and MATα information, and a replica of that information is transposed to MAT during mating-type interchange in Saccharomyces yeasts. A negative control mechanism keeps silent the information located at the HML and HMR loci. We mapped these loci by constructing strains in which these loci are expressed. In these strains, the mating type of the segregants is dependent upon the allele at HML and HMR. This novel approach is independent of their switching function. HML is located on the left arm of chromosome III distal to his4 by about 26.8 centimorgans (cM). HMR maps on the right arm of the same chromosome distal to thr4 by about 39.8 cM and proximal to MAL2 by about 1.0 cM. The results allow the exact placement of these loci and are in accord with the observations made by Harashima and Oshima (1976). 相似文献
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Mogens L. Glass James W. Hicks Marvin L. Riedesel 《Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology》1979,131(4):353-359
Summary In late February, seven box turtles were collected with body temperatures between 7 and 9°C. Ventilation, gas exchange and end-tidal
and
were recorded at 5, 10, 15 and 25°C, the animals being at each temperature for 2 to 3 weeks. There was a pronounced diurnal rhythm of breathing frequency at all temperatures. At 5°C the mean 24-h frequency was only 3.7 breaths h–1. At 15°C the frequency was 16 times higher with a 17-fold increase of ventilation. Oxygen uptake only changed from 3.4 to 12.7 ml·kg–1·h–1. Consequently, the ratio (ventilation, ml BTPS/O2 uptake, ml STPD) increased from 12.5 at 5°C to 48 at 15°C, but decreased to 24 at 25°C. The decrease of this ratio during cold exposure contrasts with an increase of the ratio during cooling earlier reported for fresh water turtles,Pseudemys. Cutaneous CO2 elimination was important at low temperature. This caused a decrease of the pulmonary gas exchange ratio so that end-tidal
remained low at 5°C in spite of an end-tidal
of only 54 Torr. 相似文献