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41.
梅花鹿甲烷能代谢规律的研究 总被引:2,自引:1,他引:1
本文应用KB-1型呼吸测热装置,结合消化、代谢试验,对梅花鹿(Cervusnippon)甲烷能代谢规律进行了研究。结果表明,梅花鹿甲烷能的产生量随其采食量的增加而增加;也随着果食后时间的推移而减少,而且减少的幅度又随采食量的增加而下降;甲烷能的产生量分别占总能食入量、消化能食入量和体增热的6.61%、8.83%和10.88%;甲烷能的产生量随着日粮蛋白质水平的提高而降低,日粮蛋白质水平每提高1个百分点,甲烷能产生量就降低58.58kJ/d;分别以总能食入量(GEI)和干物质食入量(DMI)为自变量所建立的甲烷能(CH4E)估计分别为:CH4E(kJ/d)=0.07CEJ(kJ/d)-101.04(n=12,r=0.944,P<0.01)CH4E(kJ/d)=98.78+1.05DMI(g/d)(n=12,r=0.942,P<0.01) 相似文献
42.
Several cDNA clones encoding two different ADP-glucose pyrophosphorylase (AGPase, EC 2.7.7.27) polypeptides denoted VfAGPC and VfAGPP were isolated from a cotyledonary library of Vicia faba L. Both sequences are closely related to AGPase small-subunit sequences from other plants. Whereas mRNA levels of VfAGPP were equally high in developing cotyledons and leaves, the mRNA of VfAGPC was present in considerable amounts only in cotyledons. During development of cotyledons, both mRNAs accumulated until the beginning of the desiccation phase and disappeared afterwards. The increase of AGPase activity in cotyledons during the phase of storage-product synthesis was closely followed by the accumulation of starch. The AGPase activity in crude extracts of cotyledons was insensitive to 3-phosphoglycerate whereas the activity from leaves could be activated more than five-fold. Inorganic phosphate inhibited the enzyme from both tissues but was slightly more effective on the leaf enzyme. There was a correlation at the cellular level between the distribution of VfAGPP and VfAGPC mRNAs and the accumulation of starch, as studied by in-situ hybridisation and by histochemical staining in parallel tissue sections of developing seeds, respectively. During the early phase of seed development (12–15 days after fertilization) VfAGPase mRNA and accumulation of starch were detected transiently in the hypodermal, chlorenchymal and outer parenchymal cell layers of the seed coat but not in the embryo. At 25 days after fertilization both synthesis of VfAGPase mRNA and biosynthesis of starch had started in parenchyma cells of the inner adaxial zone of the cotyledons. During later stages, the expression of VfAGPase and synthesis of starch extended over most of the cotyledons but were absent from peripheral cells of the abaxial zone, provascular and procalyptral cells.Abbreviations AGPase
ADP-glucose pyrophosphorylase
- DAF
days after fertilization
- Glc1P
glucose-1-phosphate
- 3-PGA
3-phosphoglycerate
- VfAGPC
AGPase subunit of Vicia faba mainly expressed in cotyledons
- VfAGPP
AGPase subunit of Vicia faba mainly expressed in leaves and cotyledons
- pVfAGPC, pVfAGPP
plasmids containing VfAGPC and VfAGPP, respectively
This work was supported by the Bundesministerium für Forschung und Technologie BCT 0389, Molekular- und Zellbiologie von höheren Pflanzen und Pilzen. U.W acknowledges additional support by the Fonds der chemischen Industrie. We thank Elsa Fessel for excellent technical assistance. 相似文献
43.
X. Song G. Körtner F. Geiser 《Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology》1995,165(4):291-297
Physiological mechanisms causing reduction of metabolic rate during torpor in heterothermic endotherms are controversial. The original view that metabolic rate is reduced below the basal metabolic rate because the lowered body temperature reduces tissue metabolism has been challenged by a recent hypothesis which claims that metabolic rate during torpor is actively downregulated and is a function of the differential between body temperature and ambient temperature, rather than body temperature per se. In the present study, both the steady-state metabolic rate and body temperature of torpid stripe-faced dunnarts, Sminthopsis macroura (Dasyuridae: Marsupialia), showed two clearly different phases in response to change of air temperature. At air temperatures between 14 and 30°C, metabolic rate and body temperature decreased with air temperature, and metabolic rate showed an exponential relationship with body temperature (r
2=0.74). The Q
10 for metabolic rate was between 2 and 3 over the body temperature range of 16 to 32°C. The difference between body temperature and air temperature over this temperature range did not change significantly, and the metabolic rate was not related to the difference between body temperature and air temperature (P=0.35). However, the apparent conductance decreased with air temperature. At air temperatures below 14°C, metabolic rate increased linearly with the decrease of air temperature (r
2=0.58) and body temperature was maintained above 16°C, largely independent of air temperature. Over this air temperature range, metabolic rate was positively correlated with the difference between body temperature and air temperature (r
2=0.61). Nevertheless, the Q
10 for metabolic rate between normothermic and torpid thermoregulating animals at the same air temperature was also in the range of 2–3. These results suggest that over the air temperature range in which body temperature of S. macroura was not metabolically defended, metabolic rate during daily torpor was largely a function of body temperature. At air temperatures below 14°C, at which the torpid animals showed an increase of metabolic rate to regulate body temperature, the negative relationship between metabolic rate and air temperature was a function of the differential between body temperature and air temperature as during normothermia. However, even in thermoregulating animals, the reduction of metabolic rate from normothermia to torpor at a given air temperature can also be explained by temperature effects.Abbreviations
BM
body mass
-
BMR
basal metabolic rate
-
C
apparent conductance
-
MR
metabolic rate
-
RMR
resting metabolic rate
-
RQ
respiratory quotient
-
T
a
air temperature
-
T
b
body temperature
-
T
lc
lower critical temperature
-
T
tc
critical air temperature during torpor
-
TMR
metabolic rate during torpor
-
TNZ
thermoneutral zone
- T
difference between body temperature and air temperature
- VO2
rate of oxygen consumption 相似文献
44.
Secondary metabolic-energy-generating systems generate a proton motive force (pmf) or a sodium ion motive force (smf) by a
process that involves the action of secondary transporters. The (electro)chemical gradient of the solute(s) is converted into
the electrochemical gradient of protons or sodium ions. The most straightforward systems are the excretion systems by which
a metabolic end product is excreted out of the cell in symport with protons or sodium ions (energy recycling). Similarly,
solutes that were accumulated and stored in the cell under conditions of abundant energy supply may be excreted again in symport
with protons when conditions become worse (energy storage). In fermentative bacteria, a proton motive force is generated by
fermentation of weak acids, such as malate and citrate. The two components of the pmf, the membrane potential and the pH gradient,
are generated in separate steps. The weak acid is taken up by a secondary transporter either in exchange with a fermentation
product (precursor/product exchange) or by a uniporter mechanism. In both cases, net negative charge is translocated into
the cell, thereby generating a membrane potential. Decarboxylation reactions in the metabolic breakdown of the weak acid consume
cytoplasmic protons, thereby generating a pH gradient across the membrane. In this review, several examples of these different
types of secondary metabolic energy generation will be discussed. 相似文献
45.
Taenia taeniaeformis: characterization of larval metabolic products and growth of host gastric cells in vitro 总被引:1,自引:0,他引:1
Development of larvae of the cestode parasite Taenia taeniaeformis in the liver of rats induces gross hyperplasia of the gastric mucosa and excessive mucus production in the stomach without any direct contact with the stomach. Because the taeniid larvae are known to elaborate excretory-secretory (E-S) product in vivo and in vitro, the product was analyzed further, and its effects on cultured rat and dog stomach cells were investigated. In vitro E-S product contained less negatively charged glycosaminoglycan than either heparin or chondroitin sulfate, and proteins of various molecular weights. It stimulated the growth of both rat and dog stomach cells at concentrations of 3-9 micrograms protein/ml culture medium. At a concentration of 30 micrograms protein/ml culture medium, it stimulated hexosamine production in the cells up to 20 times, and multiple intracytoplasmic granules were found in both rat and dog cultured cells by light and electron microscopy. These results suggest that larval E-S product may be involved in the induction of gastric hyperplasia and hypermucus secretion. 相似文献
46.
John F. Dixon Chang Ho Lee Georgyi V. Los Lowell E. Hokin 《Journal of neurochemistry》1992,59(6):2332-2335
We previously reported that lithium, in the presence of acetylcholine, increased accumulations of inositol 1,4,5-trisphosphate and inositol 1,3,4,5-tetrakisphosphate in brain cortex slices from the guinea pig, rabbit, rat, and mouse. In the mouse and rat, the Li(+)-induced increases required supplementation of the medium with inositol. This probably relates to the following facts: (a) Brain cortices of the mouse and rat contain in vivo concentrations of inositol half of that of the guinea pig. (b) Incubated rat brain cortex slices are depleted of inositol by 80%. (c) The slices require 10 mM inositol supplementation to restore in vivo concentrations. We now show that in monkey brain cortex slices, therapeutic concentrations of Li+ increase accumulation of inositol 1,4,5-trisphosphate. The inositol 1,3,4,5-tetrakisphosphate level is not increased. Neither inositol nor an agonist is required. The same effects are seen whether inositol 1,4,5-trisphosphate is quantified by the [3H]inositol prelabeling technique or by mass assay, although mass includes a pool of inositol 1,4,5-trisphosphate that is metabolically inactive. Thus, in a therapeutically relevant model for humans, Li+ increases inositol 1,4,5-trisphosphate levels in brain cortex slices, as was previously seen in lower mammals at non-rate-limiting concentrations of inositol. 相似文献
47.
Graham N. Stone Andy Purvis 《Journal of comparative physiology. B, Biochemical, systemic, and environmental physiology》1992,162(3):284-295
Summary This study examines the relationship between warm-up rate, body mass, metabolic rate, thermal conductance and normothermic body temperature in heterothermic mammals during arousal from torpor. Predictions based on the assumption that the energetic cost of arousal has been minimised are tested using data for 35 species. The observation that across-species warm-up rate correlates negatively with body mass is confirmed using a comparative technique which removes confounding effects due to the non-independence of species data due to shared common ancestry. Mean warm-up rate during arousal correlates negatively with basal metabolic rate and positively with the temperature difference through which the animal warms, having controlled for other factors. These results suggest that selection has operated to minimise the overall energetic, cost of warm-up. In contrast, peak warm-up rate during arousal correlates positively with peak metabolic rate during arousal, and negatively with thermal conductance, when body mass has been taken into account. These results suggest that peak warm-up rate is more sensitive to the fundamental processes of heat generation and loss. Although heterothermic marsupials have lower normothermic body temperatures and basal metabolic rates, marsupials and heterothermic eutherian mammals do not differ systematically in warm-up rate. Pre-flight warm-up rates in one group of endothermic insects, the bees, are significantly higher than predictions based on rates of arousal of a mammal of the same body mass.Abbreviations BMR
basal metabolic rate
- ICM
independent comparisons method
- MWR
mean warm-up rate
- PMR
peak metabolic rate
- PWR
peak·warm-up rate
-
Tbactivity
body temperature during activity
-
Tbtorpor
body temperature during torpor
- T
arousal
increase in body temperature during arousal 相似文献
48.
Exploration of disorder in protein structures by X-ray restrained molecular dynamics 总被引:2,自引:0,他引:2
Conformational disorder in crystal structures of ribonuclease-A and crambin is studied by including two independent structures in least-squares optimizations against X-ray data. The optimizations are carried out by X-ray restrained molecular dynamics (simulated annealing refinement) and by conventional least-squares optimization. Starting from two identical structures, the optimizations against X-ray data lead to significant deviations between the two, with rms backbone displacements of 0.45 A for refinement of ribonuclease at 1.53 A resolution, and 0.31 A for crambin at 0.945 A. More than 15 independent X-ray restrained molecular dynamics runs have been carried out for ribonuclease, and the displacements between the resulting structures are highly reproducible for most atoms. These include residues with two or more conformations with significant dihedral angle differences and alternative hydrogen bonding, as well as groups of residues that undergo displacements that are suggestive of rigid-body librations. The crystallographic R-values obtained are approximately 13%, as compared to 15.3% for a comparable refinement with a single structure. Least-squares optimization without an intervening restrained molecular dynamics stage is sufficient to reproduce most of the observed displacements. Similar results are obtained for crambin, where the higher resolution of the X-ray data allows for refinement of unconstrained individual anisotropic temperature factors. These are shown to be correlated with the displacements in the two-structure refinements. 相似文献
49.
P.M. Matthews J.L. Bland D.G. Gadian G.K. Radda 《Biochimica et Biophysica Acta (BBA)/Molecular Cell Research》1982,721(3)
(1) 31P nuclear magnetic resonance was used to measure the creatine kinase-catalysed fluxes in Langendorff-perfused rat hearts consuming oxygen at different rates and using either of two exogenous substrates (11 mM glucose or 5 mM acetate). (2) Fluxes in the direction of ATP synthesis were between 3.5–12-times the steady-state rates of ATP utilization (estimated from rates of O2-consumption), demonstrating that the reaction is sufficiently rapid to maintain the cytosolic reactants near their equilibrium concentrations. (3) Under all conditions studied, the cytosolic free [ADP] was primarily responsible for regulating the creatine kinase fluxes. The enzyme displayed a Km for cytosolic ADP of 35 μM and an apparent Vmax of 5.5 mM/s in the intact tissue. (4) Although the reaction is maintained in an overall steady-state, the measured ratio of the forward flux (ATP synthesis) to the reverse flux (phosphocreatine synthesis) was significantly greater than unity under some conditions. It is proposed that this discrepancy may be a consequence of participation of ATP in reactions other than the PCr /ag ATP or ATP /ag ADP + Pi interconversions specifically considered in the analysis. (5) The results support the view that creatine kinase functions primarily to maintain low cytosolic concentrations of ADP during transient periods in which energy utilization exceeds production. 相似文献
50.
Sulphate uptake by the unicellular marine red algaRhodella maculata conforms to Michaelis-Menten kinetics. Two uptake systems have been found: a low affinity system with an apparentK
m
of 22 mM, and a high affinity system with an apparentK
m
of 63.4 M. Transition from the low to the high affinity system can occur within 2.5 min, in response to a decrease in the ambient sulphate concentration to below 10 mM. Assimilation rates in the dark are about 20% those in the light, although enhancement by light is independent of the quanlity of light supplied above 27 mol m-2 s-1. Use of metabolic inhibitors indicates that photophosphorylation provides the main source of energy for sulphate assimilation, through both cyclic and non-cyclic electron flow.Abbreviations used APS-kinase
ATP:adenylyl-sulphate 3-phosphotransferase (E.C. 2.7.1.25)
- ATP-sulphurylase
ATP:sulphate adenylyltransferase (E.C.2.7.74)
- DCMU
[3-(3,4-dichlorophenyl)]-1,1 dimethylurea
- 2,4 DNP
2,4-dinitrophenol
- DBMIB
Dibromothymoquinone (2,5-dibromo-3-methyl-6-isopropyl-p-benzoquinone) 相似文献