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181.
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183.
Summary Energy budgets of juvenile pike and perch (weighing approximately 3 g) were determined in experiments lasting up to 4 days,
by simultaneously measuring oxygen consumption, food consumption, and growth of individual fish. Although the basic pattern
of energy allocation was identical in the two species, perch subjected to constant light (PEL) showed faster growth, higher
assimilation and conversion efficiency, and higher oxygen consumption than perch subjected to a short daylength regime (PED).
The efficiency with which food energy was converted into body mass was 39±5% in PED but 49±4% in PEL. However, the “work coefficient”
(increment of body mass/post-prandial increase of oxygen consumption: mg · μmol O
inf2
sup−1
) differed only insignificantly between the two groups of perch, indicating that the metabolic cost of growth was unaffected
by the manipulation of experimental conditions. This identifies the higher assimilation efficiency, i.e. the increased flow
of food energy into the tissues as being the cause of accelerated growth of perch under the constant-light regime. In both
species the maximum feeding-induced metabolic rate was 4 times higher than the lowest preprandial rate. In perch (which were
kept on low rations before the experiments) the post-prandial metabolic rate increased steadily from day to day during the
4-day experiments, so that on the last day the rate of oxygen consumption exceeded the rate on the first day by about 41%.
This investigation provides further evidence that the allocation of metabolic energy in fish is based on a flexible strategy
which responds sensitively to changes in both internal and external conditions. 相似文献
184.
The effects of pH, season, environmental and experimental temperatures on the activities and kinetic parameters of D-lactate dehydrogenase, pyruvate kinase and arginine kinase from the foot of the pulmonate snail Helix pomatia were analyzed. Both in phosphate and Tris buffers D-lactate dehydrogenase was the enzyme with the most acid maximum, arginine kinase that with the most alkaline, whilst pyruvate kinase occupied an intermediate position. Pyruvate kinase activity, measured at 20 degrees C, was positively correlated with the environmental temperature at the moment of collecting the animal, whereas neither arginine kinase nor D-lactate dehydrogenase showed such a relationship. A seasonal study based on approximately 100 specimens established that arginine kinase activity remained the same throughout the year. Pyruvate kinase activity was slightly lower, and D-lactate dehydrogenase activity significantly higher, in winter than in summer animals. Snails subjected in spring to a short warm-up period before enzyme extraction showed extreme variability and some extraordinarily high values of pyruvate kinase activity, suggesting that either season or elevated temperature may have an immediate effect on the activity of this enzyme. Individual variability of all three enzymes ranges from 300 to 400%. The activities of pyruvate kinase and D-lactate dehydrogenase are strongly correlated in summer, forming a "constant-proportion-group", whereas in winter, with D-lactate dehydrogenase activity increasing and pyruvate kinase activity decreasing these two enzymes become "uncoupled". The Km value of pyruvate kinase is independent of experimental temperature between 10 and 25 degrees C, whereas that of D-lactate dehydrogenase and arginine kinase increases about three-fold within this range. Thus the temperature relationship of a single enzymic reaction cannot be used as an arguemnt for or against the occurrence of temperature compensation of whole animal metabolism. The possibility of modulation of enzyme activity by environmental temperature is discussed. 相似文献
185.
Summary The dominant ciliate species Geleia nigriceps inhabiting a sheltered beach in Bermuda was characterized by its horizontal and vertical distribution on the beach in correlation with sediment composition and grain size, temperature, pH, oxygen, redox potential, and water coverage, its tolerance of high and low temperature under normoxic and oligoxic conditions, and its tolerance of extreme pH-values.From tolerance experiments it can be concluded that G. nigriceps is able to tolerate relatively high temperatures (up to 37.3°C) for only short time (e.g., when low tide occurs around noon on hot days).This species, inhabiting both the oxidized and the reduced milieu below the redox potential discontinuity layer of the beach, is only to a small degree dependent upon oxygen availability and can be regarded as a more or less habitual dweller of anoxic or oligoxic sediments. The functions relating LT50 and exposure time were almost identical for normoxic and oligoxic conditions.Tolerance experiments revealed that pH values from 8.2 to 9.6 present no obstacle to G. nigriceps in its occupation of the upper millimeters of the sediment. In addition, it could be demonstrated that pO2 has no effect on the tolerance of alkaline conditions.The vertical pattern of distribution of G. nigriceps correlated with water coverage during one period of outgoing tide suggests vertical migration. The upper sediment layer is more densely colonized than the lower ones at stations where water coverage exceeds 45%. A highly significant correlation exists between the population density of the upper centimeter and water coverage.Contribution No. 724 from the Bermuda Biological Station for Research 相似文献
186.
The Aspergillus FlbA RGS domain protein antagonizes G protein signaling to block proliferation and allow development. 总被引:14,自引:0,他引:14 下载免费PDF全文
flbA encodes an Aspergillus nidulans RGS (regulator of G protein signaling) domain protein that is required for control of mycelial proliferation and activation of asexual sporulation. We identified a dominant mutation in a second gene, fadA, that resulted in a very similar phenotype to flbA loss-of-function mutants. Analysis of fadA showed that it encodes the alpha-subunit of a heterotrimeric G protein, and the dominant phenotype resulted from conversion of glycine 42 to arginine (fadA(G42R)). This mutation is predicted to result in a loss of intrinsic GTPase activity leading to constitutive signaling, indicating that activation of this pathway leads to proliferation and blocks sporulation. By contrast, a fadA deletion and a fadA dominant-interfering mutation (fadA(G203R)) resulted in reduced growth without impairing sporulation. In fact, the fadA(G203R) mutant was a hyperactive asexual sporulator and produced elaborate sporulation structures, called conidiophores, under environmental conditions that blocked wild-type sporulation. Both the fadA(G203R) and the fadA deletion mutations suppressed the flbA mutant phenotype as predicted if the primary role of FlbA in sporulation is in blocking activation of FadA signaling. Because overexpression of flbA could not suppress the fadA(G42R) mutant phenotype, we propose that FlbA's role in modulating the FadA proliferation signal is dependent upon the intrinsic GTPase activity of wild-type FadA. 相似文献
187.
Wolfgang Wieser 《Helgoland Marine Research》1966,14(1-4):326-334
The assimilation of food inPorcellio scaber, considered over the entire life cycle, follows a two-phase function with a turning point at a body weight of about 3 mg. It is assumed that an important factor in this relationship is the efficiency of digestion, which should depend on the surface/volume ratio of the mid-gut and on the speed with which food is passed through the intestine. Calculation of these values reveals a size-dependent drop in efficiency of digestion roughly following the “surface rule”. The drop in efficiency of digestion may pose to the system a problem of information retrieval since inefficient digestion increases the “noise” level against which specific “signals” have to be selected — that is, specific molecules have to be absorbed and used in syntheses of cell constitutents. In order to offset decreasing efficiency of digestion, the system would have to increase redundancy, e. g. by assimilating progressively more food and thus, inevitably, increasing “cost” of some kind. The young larvae ofP. scaber, up to a body weight of 3 mg, do, in fact increase the amount of food assimilated in proportion to the calculated increase in redundancy. At about this critical size a switch in metabolism seems to take place, and weight specific assimilation of food decreases despite the continuously dropping efficiency of digestion. The actual use that the organism makes of the food ingested is represented by the ratio assimilation/cost of redundancy. Calculation of this ratio over the whole life cycle shows it to parallel neatly the curve for the monthly growth rate of the species. 相似文献
188.
Then C Herbinger K Blumenröther M Haberer K Heerdt C Osswald W Rennenberg H Grill D Tausz M Wieser G 《Plant biology (Stuttgart, Germany)》2007,9(2):309-319
Within the scope of quantifying ozone (O(3)) effects on forest tree crowns it is still an open question whether cuvette branches of adult trees are reasonable surrogates for O(3) responses of entire tree crowns and whether twigs exhibit autonomy in defense metabolism in addition to carbon autonomy. Therefore, cuvette-enclosed branches of mature beech (Fagus sylvatica) trees were compared with branches exposed to the same and different ozone regimes by a free-air fumigation system under natural stand conditions by means of a VICE VERSA experiment. For this purpose, cuvettes receiving 1 x O(3) air were mounted in trees exposed to 2 x O(3) and cuvettes receiving 2 x O(3) air were mounted in trees exposed to 1 x O (3) in the upper sun crown. At the end of the fumigation period in September 2004, leaves were examined for differences in gas exchange parameters, pigments, antioxidants, carbohydrates, and stable isotope ratios. No significant differences in foliar gas exchange, total carbohydrates, stable isotope ratios, pigment, and antioxidant contents were found as a consequence of cuvette enclosure (cuvette versus free-air branches) of the same O(3) concentrations besides increase of glucose inside the cuvettes and reduction of the de-epoxidation state of the xanthophyll cycle pigments. No significant ozone effect was found for the investigated gas exchange and most biochemical parameters. The total and oxidized glutathione level of the leaves was increased by the 2 x O(3) treatment in the cuvette and the free-air branches, but this effect was significant only for the free-air branches. From these results we conclude that cuvette branches are useful surrogates for examining the response of entire tree crowns to elevated O(3) and that the defence metabolism of twigs seems to be at least partially autonomous. 相似文献
189.
Bernadette C. Proemse Alison E. Murray Christina Schallenberg Breege McKiernan Brian T. Glazer Seth A. Young Nathaniel E. Ostrom Andrew R. Bowie Michael E. Wieser Fabien Kenig Peter T. Doran Ross Edwards 《Biogeochemistry》2017,134(1-2):17-27
Iron redox cycling in metal-rich, hypersaline, anoxic brines plays a central role in the biogeochemical evolution of life on Earth, and similar brines with the potential to harbor life are thought to exist elsewhere in the solar system. To investigate iron biogeochemical cycling in a terrestrial analog we determined the iron redox chemistry and isotopic signatures in the cryoencapsulated liquid brines found in frozen Lake Vida, East Antarctica. We used both in situ voltammetry and the spectrophotometric ferrozine method to determine iron speciation in Lake Vida brine (LVBr). Our results show that iron speciation in the anoxic LVBr was, unexpectedly, not free Fe(II). Iron isotope analysis revealed highly depleted values of ?2.5‰ for the ferric iron of LVBr that are similar to iron isotopic signatures of Fe(II) produced by dissimilatory iron reduction. The presence of Fe(III) in LVBr therefore indicates dynamic iron redox cycling beyond iron reduction. Furthermore, extremely low δ18O–SO4 2? values (?9.7‰) support microbial iron-sulfur cycling reactions. In combination with evidence for chemodenitrification resulting in iron oxidation, we conclude that coupled abiotic and biotic redox reactions are driving the iron cycle in Lake Vida brine. Our findings challenge the current state of knowledge of anoxic brine chemistry and may serve as an analogue for icy brines found in the outer reaches of the solar system. 相似文献
190.
Cell-based manufacturing processes have occasionally been exposed to adventitious viruses, leading to manufacturing interruptions and unstable supply situations. The rapid progress of advanced therapy medicinal products needs innovative approaches to avoid any unwelcome reminder of the universal presence of viruses. Here, we investigated upstream virus filtration as a clearance step for any product too complex for downstream interventions. Culture media virus filtration was investigated with respect to virus clearance capacities under extreme conditions such as high process feed loading (up to ~19,000 L/m²), long duration (up to 34 days), and multiple process interruptions (up to 21 h). The small nonenveloped Minute virus of mice was used as relevant target virus, and as worse-case challenge for the investigated virus filters with a stipulated pore-size of about 20 nm. Certain filters—especially of the newer second generation—were capable of effective virus clearance despite the harsh regimen they were subjected to. The biochemical parameters for un-spiked control runs showed the filters to have no measurable impact on the composition of the culture media. Based on these findings, this technology seems to be quite feasible for large volume premanufacturing process culture media preparations. 相似文献