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121.
We studied the uterine venous plasma concentrations of prostaglandins E2, F2 alpha, 15 keto 13,14 dihydro E2 and 15 keto 13,14 dihydro F2 alpha in late pregnant dogs in order to evaluate the rates of production and metabolism of prostaglandin E2 and F2 alpha in pregnancy in vivo. We used a very specific and sensitive gas chromatography-mass spectrometry assay to measure these prostaglandins. The uterine venous concentrations of prostaglandin E2 and 15 keto 13,14 dihydro E2 were 1.35 +/- .27 ng/ml and 1.89 +/- .37 ng/ml, respectively; however, we could not find any prostaglandin F2 alpha and very little of its plasma metabolite in uterine venous plasma. Since uterine microsomes can generate prostaglandin F2 alpha and E2 from endoperoxides, prostaglandin F2 alpha production in vivo must be regulated through an enzymatic step after endoperoxide formation. Prostaglandin E2 is produced by pregnant canine uterus in quantities high enough to have a biological effect in late pregnancy; however, prostaglandin F2 alpha does not appear to play a role at this stage of pregnancy. 相似文献
122.
Since the mammalian renal cortex avidly metabolizes prostaglandin E2 (PGE2), we examined the importance of renal metabolism of PGE2 in determining its renal vascular activity in the dog. We used 13, 14 dihydro PGE2 (DHPGE2) as a model compound to study this because DHPGE2 retains similar activity to the parent prostaglandin, PGE2, but is a poorer substrate than PGE2 for both the metabolism and the cellular uptake of the prostaglandins. Using dog renal cortical slices, we found that under similar experimental conditions, PGE2 was metabolized several-fold faster than DHPGE2. Both prostaglandins were metabolized to the 15 keto 13, 14 dihydro PGE2, which was positively identified using GC-MS. In vivo, we infused increasing concentrations of DHPGE2 into the renal artery of dogs and measured renal hemodynamic changes using radioactive microspheres. DHPGE2 was a potent renal vasodilator beginning at an infusion rate of 10−9g/kg/min. When compared to PGE2, DHPGE2 was about 10 times more potent in affecting renal vasodilation. The intrarenal redistribution of blood flow towards the inner cortex seen with DHPGE2 was identical to that seen with PGE2. We conclude that renal catabolism of PGE2 is very important in limiting the in vivo biological activity of PGE2, but regional differences in metabolism of PGE2 within the cortex are an unlikely determinant of the pattern of redistribution of renal blood flow. 相似文献
123.
Kenneth Krell Elizabeth D. Jacobson Katherine Selby 《In vitro cellular & developmental biology. Plant》1979,15(5):326-328
Summary The mutation frequency of L5178Y mouse lymphoma cells to resistance to 5′-bromo-2′-deoxyuridine increased 6-to 14-fold after
growth in ethylene oxide-sterilized polycarbonate culture flasks compared to growth in glass flasks. No comparable increase
was observed when L5178Y cells were growth in identical polycarbonate culture flasks sterilized by autoclaving. 相似文献
124.
Imaginal discs of Drosophila melanogaster undergo transdetermination when cultured in vivo in the abdominal cavity of adult female hosts. We report here that leg discs cultured in vitro, in a recently developed system, also undergo transdetermination. Whether cultured in vivo or in vitro, leg discs produce a similar range of specific transdetermined structures. Moreover, in comparison to discs cultured in vivo, the discs cultured in vitro exhibit a similar correlation between the amount of growth and the total frequency of transdetermination. 相似文献
125.
Summary Protoplasts of the desmidsMicrasterias angulosa, M. denticulata, M. thomasiana andCosmarium turpinii were obtained by incubating cells in Waris' liquid medium + 0.3 M mannitol + 2% Cellulysin for 1–3 hours. One osmotically fragile protoplast was formed at the isthmus from the joint contents of both semicells. The resultant protoplasts were bright green and remained so for more than 5 days in the osmotically protective medium. The protoplast yield was better than 80%. The empty cell walls were not digested by the Cellulysin or by autolytic enzymes. 相似文献
126.
Judith P. Klinman Katherine Welsh 《Biochemical and biophysical research communications》1976,70(3):878-884
Analyses for zinc in high specific activity preparations of yeast alcohol dehydrogenase (YADH) indicate a metal content of 1.8–1.9 moles of zinc per mole of enzyme subunit. This zinc content is observed for YADH prepared from Bakers yeast by recrystallization from Am2SO4 containing 1 mM EDTA, followed by chromatography on DE-52 and Sephadex-G-200. YADH obtained from Boehringer-Mannheim is characterized by a variable specific activity: preparations with Sp. Ac. = 380–400 U/mg contain 1.8–1.9 moles of zinc per mole of subunit. Dialysis of YADH against EDTA (pH 8.5, 25°, under N2) reduces the specific activity and zinc content in an approximately linear fashion down to a Sp. Ac. = 150 U/mg, consistent with the preferential loss of a single, weakly bound zinc per subunit which is essential for catalytic activity. Dialysis of YADH against 1 mM ZnCl2 (pH 6.5–8.5, 25°, under N2) does not lead to an increase in the zinc content of the enzyme, indicating that under these conditions zinc does not bind adventitiously to YADH. Dialysis against 50 mM CoSO4 (pH 5.5, 25°, under N2, 60–90 hr) leads to an exchange of ≈ 40% of the enzyme-bound zinc by cobalt. Our preparations of YADH are consistently characterized by a zinc content of ≈ 2 per subunit and we are unable to reduce the zinc content of YADH by dialysis against EDTA without a concomitant loss in enzyme activity, in contrast to reports of one zinc per subunit [Veillon, C. and Sytkowski, A.J., BBRC : 1499 (1975); Vallee, B.L. and Hoch, F.L., Proc. Nat. Acad. Sci. USA : 327 (1955)]. The findings reported here, together with the observed structural similarities between YADH and horse liver alcohol dehydrogenase [Jornvall, H., Woenckhaus, C. and Johnscher, G., Eur. J. Biochem. : 71 (1975)], suggest a role for zinc at both a structural and catalytic site in YADH. 相似文献
127.
Bovine type M pyruvate kinase, which normally has hyperbolic kinetics with its substrates, was inactivated by treatment with trinitrobenzenesulfonic acid. The inactivation probably occurs through trinitrophenylation of the epsilon-amino group of a lysine residue in or near the ADP binding site. Although 90 to 95% of the enzymatic activity is lost by this treatment, the molecular weight and sedimentation coefficient of the trinitrophenylated enzyme are quite similar to values obtained with the native enzyme. The inactivated, trinitrophenylated type M pyruvate kinase was hybridized in vitro with the native bovine type L enzyme, which has sigmoidal kinetics with phosphoenolpyruvate but can be activated by fructose 1,6-diphosphate to give hyperbolic kinetics. Four enzymatically active species were produced, designated L4, L3M, L2M2, and LM3, according to their subunit composition. L4 and L3M have sigmoidal kinetics with phosphoenolpyruvate and are activated by fructose diphosphate. Little or no sigmoidicity was seen for L2M2, although this species is activated to a moderate degree by fructose diphosphate. LM3 appears to have hyperbolic kinetics and is activated only slightly by fructose diphosphate. The kinetic results obtained with hybrids containing trinitrophenylated type M subunits are quite similar to the results previously reported by Dyson and Cardenas ((1973) J. Biol. Chem. 248, 8482-8488) using native type M and type L subunits, indicating that the properties of a type L subunit are profoundly affected by the nature of the other subunits present in the tetramer. In fact, type L and type M subunits in a given hybrid seem to have similar kinetic responses toward phosphoenolpyruvate and fructose diphosphate. 相似文献
128.
Retinochrome is a photosensitive pigment located primarily in the inner portions of the visual cells of cephalopods. Its absorption spectrum resembles that of rhodopsin, but its chromophore is all-trans retinal, which light isomerizes to 11-cis, the reverse of the situation in rhodopsin. The 11-cis photoproduct of retinochrome slowly reverts to retinochrome in the dark. The chromophoric site of retinochrome is more reactive than that of most visual pigments: (a) Hydroxylamine converts retinochrome in the dark to all-trans retinal oxime + retinochrome opsin. (by Sodium borohydride reduces it to N-retinyl opsin. (c) Lambda max of retinochrome shifts from 500 to 515 nm as the pH is raised from 6 to 10, with a loss of absorption above pH 8; meanwhile above this PH a second band appears at shorter wavelengths with lambda max 375 nm. These changes are reversible. (d) If retinochrome is incubated with all-trans 3-dehydroretinal (retinal2) in the dark, some 3-dehydroretinochrome (retinochrome2, lambda max about 515 nm) is formed. Conversely, when retinochrome2, made by adding all-trans retinal2 to bleached retinochrome or retinochrome opsin, is incubated in the dark with all-trans retinal some of it is converted to retinochrome. Retinal and 3-dehydroretinal therefore can replace each other as chromophores in the dark. 相似文献
129.
Energy coupling in the active transport of amino acids by bacteriohodopsin-containing cells of Halobacterium holobium. 总被引:4,自引:2,他引:2
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Growth of Halobacterium halobium under illumination with limiting aeration induces bacteriorhodopsin formation and renders the cells capable of photophosphorylation. Cells depleted of endogenous reserves by a starvation treatment were used to investigate the means by which energy is coupled to the active transport of [14C]proline, -leucine, and -histidine. Proline was readily accumulated by irradiated cells under anaerobiosis even when the photophosphorylation was abolished by the adenosine triphosphatase inhibitor N,N'-dicyclohexylcarbodimiide (DCCD). The uptake of proline in the dark was limited except when the cells were allowed to accumulate adenosine 5'-triphosphate (ATP) by prior light exposure or by the oxidation of glycerol. DCCD inhibited this dark uptake. These findings essentially support Mitchell's chemiosmotic theory of active transport. The driving force is apparently the proton-motive force developed when protons are extruded from irradiated bacteriorhodopsin or by the dydrolysis of ATP by membrane adenosine triphosphatase. Carbonylcyanide m-chlorophenylhydrazone (CCCP), a proton permeant known to abolish membrane potential, was a strong inhibitor of proline uptake. Leucine transport was also apparently driven by proton-motive force, although its kinetic properties differed from the proline system. Histidine transport is apparently not a chemiosmotic system. Dark- or light-exposed cells show comparable initial rats of histidine uptake, and these processes were only partially inhibited by DCCD or CCCP. The histidine system apparently does not utilize ATP per se since comparable rates of uptake were exhibited by cells of differing intracellular ATP levels. Irradiated cells did effect a greater total accumulation of histidine than dark-exposed cells. These findings suggest that ATP is needed for sustained transport. 相似文献
130.