Synthesis and evaluation of azaproline peptides as potential inhibitors of dipeptidyl peptidase IV and prolyl oligopeptidase

Summary A series of azaproline dipeptides with various N-substituents were synthesized as possible active-site-directed inhibitors of two proline-specific serine proteases, dipeptidyl peptidase IV and prolyl oligopeptidase. Compounds with semicarbazide, carbazate, acylhydrazine and sulphonylhydrazine structures were tested. Some compounds show moderate activity, i.e., in the millimolar range.     

沿海防护林体系热效应的遥感分析

沿海防护林体系热效应的遥感分析王述礼,金昌杰,关德新（中国科学院沈阳应用生态研究所１１００１５）ＲｅｍｏｔｅＳｅｎｓｉｎｇＡｎａｌｙｓｉｓｏｎｔｈｅＨｅａｔＥｆｆｅｃｔｓｏｆＣｏａｓｔａｌＳｈｅｌｔｅｒｂｅｌｔＳｙｓｔｅｍ．￥ＷａｎｇＳｈｕｌｉ;Ｊｉ...     

Influence of elevated ambient temperature after breeding on plasma corticoids, estradiol and progesterone in gilts

Thirty Yorkshire gilts were used to determine the influence of elevated ambient temperature during days 8 to 16 after breeding on concentrations of progesterone, corticoids and estradiol in plasma. Gilts were mated to a boar between 0800 and 1000 hr of the first day (day 0) and each subsequent day of estrus. On day 5 or 6, 22 gilts were anesthetized and a cannula was placed in the anterior vena cava. Gilts were randomly allotted to either control (23+/-1 C) or hot (35+/-1 C for 12 hr and 32+/-1 C for 12 hr daily) environmental chambers on day 8. Gilts were bled twice daily (0800 and 2000 hr) on days 9 through 16, then once daily until day 28. A third group of noncannulated gilts was bred and assigned to the control chamber. All cannulated gilts were injected intravenously with 25 IU of ACTH on day 16, and frequent blood samples were collected. Concentrations of progesterone in plasma were similar for heat-stressed and control gilts that were pregant. However, progesterone in plasma was reduced during days 13 to 19 in nonpregnant heat-stressed gilts compared to the pregnant and nonpregnant control gilts. Concentrations of estradiol in plasma were greater in nonpregnant heat-stressed gilts than in nonpregnant control and all pregnant gilts on days 10, 11 and 12 after estrus. Concentrations of corticoids and progesterone in plasma after infusion of ACTH on day 16 after breeding were reduced in heat-stressed nonpregnant gilts compared to heat-stressed pregnant, control pregnant and control nonpregnant gilts. These data indicate that reduced reproductive performance which occurs after exposure of gilts to increased ambient temperature during days 8 to 16 after breeding may be related to altered endocrine function.     

State of water in extremely halophilic bacteria: Heat of dilution ofHalobacterium halobium

Summary Heat of dilution ofHalobacterium halobium was measured when thick pastes of the bacteria, harvested throughout a complete growth cycle, were lysed by mixing with 40 times their volume of water in a microcalorimeter. A series of comparative measurements was made with pastes of bacteria previously disrupted by freezing and thawing but otherwise identical to the pastes of whole bacteria. The frozen-thawed pastes gave endothermic values some 18% greater than those obtained with intact bacteria; the difference was highly significant. Evidence was obtained that the mechanical component of bursting did not contribute to the difference between whole and lysed bacteria. On the other hand, when a correction was applied for heat of mixing of intracellular salts with extracellular NaCl, such as occurs when the bacteria lyse, the difference between whole and disrupted organisms was largely eliminated from exponential phase halobacteria but not from those harvested in stationary phase. It is concluded that there is no evidence, as reflected in heat of dilution, of abnormal solution properties of the cytosol of young halobacteria, which are rich in potassium. On the other hand, and paradoxically, some doubt remains about stationary phase organisms whose cytosol has a much higher Na⁺ content (and Na/K⁺ ratio) than the cytosol of exponential phase bacteria.     

Heat-transfer relations of avian nestlings

1. 1.|To determine the thermoregulatory prowess of altricial nestlings, we conducted both equilibrium and transient analyses of white-crowned sparrow nestings, a representative fringillid.

2. 2.|For an individual nestling at thermal equilibrium, feather development is the major factor reducing heat loss after 2 days of age; tissue- and boundary-layer resistances are of minor importance.

3. 3.|The nest substantially reduces wind speeds near the nestlings. Heat transfer through the nest material is of only moderate importance. Evaporation also appears to be a small proportion of total heat loss during hypothermia in natural environments.

4. 4.|Net long-wave radiant exchange is also minor, but short-wave radiation is potentially a major component of the nestling's energy budget, approaching the magnitude of maximal metabolic heat production.

5. 5.|When nestlings cool, their body mass and metabolic rate are also major importance in determining the rate of cooling, and (for metabolism) the equilibrium temperature as well.

6. 6.|The huddling together of nestlings is perhaps the single most important factor affecting heat transfer.

7. 7.|An older brood actually has more insulation than does an adult in the same microclimate.

Estimating the maintenance energy and biomass concentration of Saccharomyces cerevisiae by continuous calorimetry

Continuous calorimetry has been applied to monitoring the heat evolution of Saccharomyces cerevisiae grown on d-glucose. The heat evolution, together with the energy and carbon balances, was used to evaluate the energetic efficiency of biomass, by-product biosynthesis, fermentative heat evolution as well as the maintenance energy of S. cerevisiae in ‘aerobic fermentation’ and ‘aerobic respiration’. In aerobic fermentation, under catabolite repression, the fraction of substrate energy converted to heat evolution, maintenance requirement, and biomass decreased with the increase of d-glucose concentration. The fraction of substrate energy converted to ethanol is the highest value and it could contribute up to 70% of the total substrate energy. In aerobic respiration, 43% of the total substrate energy was evolved as heat. While 50% of the total substrate energy was converted into biomass, only 7% of the total substrate energy was used for maintenance functions. The maintenance energy coefficient of S. cerevisiae was determined to be 0.427 MJ kg^?1 cell h^?1 (0.102 kcal g^?1 cell h^?1). For the first time, heat evolution together with yield-maintenance energy was used to predict biomass concentration during the fed-batch cultivation of S. cerevisiae.