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41.
Germination of celery seed occurred after 6 d of imbibition in light. During this time the embryo enlarged at the expense of the adjacent endosperm cells and at the time of germination was 2–3 times as long as in the dry seed. Breakdown of the endosperm cells near the root cap preceeded radicle emergence. None of these changes occurred in darkness.Endosperm digestion began adjacent to the embryo and spread radially. In degrading cells, the aleurone grains often became larger and fewer in number. The cell walls were modified and appeared to undergo partial degradation. Ultimately the cells seemed to lose their contents. In cells adjacent to the root cap, similar changes occurred except there was a transient appearance of starch grains. Radial progression of endosperm breakdown also occurred in isolated endosperm treated with gibberellin A4+7.The results indicate that (1) the stimulus for breakdown of celery endosperm emanates from the embryo in response to light; (2) the stimulus may be a gibberellin because changes in endosperm cells and the sequence of endosperm digestion during germination resemble the responses of isolated endosperm to gibberellin; and (3) the radial progression of endosperm breakdown during germination may be the result of a sequential response of cells to a uniformly applied stimulus rather than the result of gradual embryo expansion. 相似文献
42.
E. Jacobsen 《Plant Cell, Tissue and Organ Culture》1981,1(1):77-84
Cytological studies on leaf callus cells and regenerated potato plants suggest that it may be possible to utilize somatic
chromosome doubling to obtain tetraploids from outstanding dihaploid breeding clones. The ploidy levels found in callus-derived
plants were diploid, tetraploid, and octaploid, but the proportion of these was dependent on the donor genotype. L1 and L3 germ layers were studied in more than 300 plants; periclinal ploidy chimerism, an undesirable feature of colchicine doubling,
was not found.
Leaf callus was more efficiently induced using NAA than 2, 4-D as an auxin source in the Murashige and Skoog medium. A high
proportion of dividing cells in young calli were polyploid. The frequency of doubled and octaploid plants regenerated was
significantly dependent on donor genotype. The extent of polyploidization was marginally higher after callus growth on a medium
containing 2, 4-D than in a medium containing NAA. In some genotypes the chromosome numbers of regenerated plants were variable,
being less than tetraploid (mixohypotetraploid). After tuber propagation, the original ploidy level was maintained although
mixohypotetraploidy persisted.
In a few somatically doubled clones, male fertility was tested and found to be satisfactory with respect to seed-setting. 相似文献
43.
E. Jacobsen S. K. Sopory 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1978,52(3):119-123
Summary In addition to physical and chemical factors, genotype appears to be a very important factor influencing success in anther culture. Recombination by making crosses with selected responding clones has been introduced as a possible helpful method to positively influence the success and response type via the factor genotype. From the progeny of such a cross, one genotype could be selected, producing in 30 to 40 percent of the cultured anthers, fully developed embryoids and plantlets, which are a mixture of polyploids, dihaploids and monohaploids.Further, a pleiotropic marker embryo spot visible as a nodal band in the plant stage, has been used to confirm the microsporic origin of dihaploids and polyploids and to prove their homozygous nature. This marker also shows potential use in confirming the origin of calli from individual microspores.On leave from Jawaharal Nehru University, New Delhi (India) 相似文献
44.
Rainer N. Zahlten Michael E. Nejtek Jan.C. Jacobsen 《Archives of biochemistry and biophysics》1982,213(1):200-231
Ethanol metabolism was studied in isolated hepatocytes of fed and fasted guinea pigs. Alcohol dehydrogenase (EC 1.1.1.1) activities of fed or fasted liver cells were 2.04 and 1.88 μmol/g cells/min, respectively. Under a variety of in vitro conditions, alcohol dehydrogenase operates in fed hepatocytes at 34–74% and in fasted liver cells at 23–61% of its maximum velocity, respectively. Hepatocytes of fed animals, incubated in Krebs-Ringer bicarbonate buffer, oxidized ethanol at an average rate of 0.69 μmol/g wet weight cells/min, whereas cells of 48-h fasted animals consumed only 0.44 μmol/g/min under identical conditions. Various substrates and metabolites of intermediary metabolism significantly enhanced ethanol oxidation in fed liver cells. Maximum stimulatory effects were achieved with alanine (+138%) and pyruvate (+102%), followed in decreasing order by propionate, lactate, fructose, dihydroxyacetone, and galactose. In contrast to substrate couples such as lactate/pyruvate and glycerol/dihydroxyacetone, sorbitol with or without fructose significantly inhibited ethanol oxidation. The addition of hydrogen shuttle components such as malate, aspartate, or glutamate to fasted hepatocytes resulted in significantly higher stimulation of ethanol uptake than in fed hepatocytes. Also, the degree of inhibition of shuttle activity by n-butylmalonate was more pronounced in fasted liver cells (77% inhibition) than in fed cells (59% inhibition). These data as well as oxygen kinetic studies in intact guinea pig hepatocytes utilizing uncouplers (carbonyl cyanide-p-trifluoromethoxyphenylhydrazone, dinitrophenol), electron-transport inhibitors (rotenone, antimycin), and malate-aspartate shuttle inhibitors (aminooxyacetate, n-butylmalonate) strongly suggested that the malate-aspartate shuttle is the predominant hydrogen transport system during ethanol oxidation in guinea pig liver.Comparison of the alcohol dehydrogenase-inhibitors 4-methylpyrazole and pyrazole on ethanol oxidation demonstrated that the alcohol dehydrogenase system is quantitatively the most important alcohol-metabolizing pathway in guinea pig liver. Supporting this conclusion, it was found that the H2O2-forming substrate glycolate slightly increased ethanol oxidation in liver cells of control animals (+26%), but prior inhibition of catalase by 3-amino-1,2,4-triazole resulted in a significant increase (+25%) instead of a decrease in alcohol oxidation. This finding does not support a quantitatively important role of peroxidatic oxidation of ethanol by catalase in liver.Cytosolic ratios were greatly shifted toward reduction during ethanol oxidation. These reductive shifts were even more pronounced when cells were incubated in the presence of fatty acids (octanoate, oleate) plus ethanol. Inhibitor studies with 4-methylpyrazole demonstrated that the decrease of the cytosolic ratio during fatty acid oxidation was due to an inhibition of hydrogen transport from cytosol to mitochondria and not the result of transfer of hydrogen, generated by fatty acid oxidation, from mitochondria to cytosol. Lactate plus pyruvate formation was slightly inhibited by ethanol in fed hepatocytes but greatly accelerated in fasted cells; this latter effect was mostly the result of increased lactate formation. Such regulation may represent a hepatic mechanism of alcoholic lactic acidosis as observed in human alcoholics. The ethanol-induced decrease of the mitochondrial ratio was prevented by addition of 4-methylpyrazole. Endogenous ketogenesis was greatly increased (+80%) by ethanol in fed liver cells. This effect of ethanol was blunted in the presence of glucose. Propionate, by competing with fatty acid oxidation, was strongly antiketogenic. This effect was alleviated by ethanol. In 48-h fasted hepatocytes, endogenous ketogenesis was enhanced by 84%. Although ethanol did not further stimulate endogenous ketogenesis under these conditions, alcohol significantly increased ketogenesis in the presence of octanoate or oleate. This stimulatory effect of ethanol was almost completely prevented by 4-methylpyrazole. These findings demonstrate that the syndrome of alcoholic ketoacidosis may be due, at least partially, to the additional stimulation of ketogenesis by or from ethanol during fatty acid oxidation in the fasting state. 相似文献
45.
Antifungal activity of chitin-binding PR-4 type proteins from barley grain and stressed leaf. 总被引:1,自引:0,他引:1
Antifungal activity in vitro has been associated with barley leaf and grain proteins which are homologous with pathogenesis related proteins of type 4 (PR-4) from tobacco and tomato and with C terminal domains of potato win and Hevea hevein precursor proteins. One protein (pI approximately 9.3, M(r) approximately 13.7 kDa) from barley grain and two very similar proteins from leaves infected with Erysiphe graminis were isolated by chitin affinity chromatography, but none of the proteins showed chitinase activity in vitro. The leaf proteins were increased several fold in response to either Erysiphe infection or NiCl2 infiltration and accumulated extracellularly. The three barley proteins were found to inhibit growth of Trichoderma harzianum in microtiter plate assays using approximately 10 micrograms/ml concentrations and in lower concentrations in a synergistic way when mixed either with barley chitinase C (a PR-3 type protein) or with barley protein R (a PR-5 type protein). Structurally similar proteins were detected in wheat, rye and oats grain extracts. 相似文献
46.
Mineralization of 2,4-dichlorophenoxyacetic acid (2,4-D) by two Alcaligenes eutrophus strains and one Pseudomonas cepacia strain containing the 2,4-D degrading plasmids pJP4 or pRO101 (=pJP4::Tn1721) was tested in 50 g (wet wt) samples of non-sterile soil. Mineralization was measured as 14C-CO2evolved during degradation of uniformly-ring-labelled 14C-2,4-D. When the strains were inoculated to a level of approximately 108 CFU/g soil, between 20 and 45% of the added 2,4-D (0.05 ppm, 10 ppm or 500 ppm) was mineralized within 72 h. Mineralization of 0.05 ppm and 10 ppm, 2,4-D by the two A. eutrophus strains was identical and rapid whereas mineralization by P. cepacia DBO1(pRO101) occurred more slowly. In contrast, mineralization of 500 ppm 2,4-D by the two A. eutrophus strains was very slow whereas mineralization by P. cepacia DBO1 was more rapid. Comparison of 2,4-D mineralization at different levels of inoculation with P. cepacia DBO1(pRO101) (6×104, 6×106 and 1×108 CFU/g soil) revealed that the maximum mineralization rate was reached earlier with the high inoculation levels than with the low level. The kinetics of mineralization were evaluated by nonlinear regression analysis using five different models. The linear or the logarithmic form of a three-half-order model were found to be the most appropriate models for describing 2,4-D mineralization in soil. In the cases in which the logarithmic form of the three-half-order model was the most appropriate model we found, in accordance with the assumptions of the model, a significant growth of the inoculated strains.Abbreviations 2,4-D
2,4-dichlorophenoxyacetic acid
- CFU
colony forming units
- PTYG
peptone, tryptone, yeast & glucose
- DPM
disintegrations per minute 相似文献
47.
J Bangsbo K Jacobsen N Nordberg N J Christensen T Graham 《Journal of applied physiology》1992,72(4):1297-1303
This study compared the exercise catecholamine and metabolic responses to a caffeine challenge in trained subjects before and after a 6-wk period of increased caffeine ingestion. Trained subjects (n = 6) were challenged with 500 mg of caffeine followed by prolonged exercise before and after 6 wk of increased caffeine ingestion (500 mg ingested before each daily run). A control group (n = 6) of trained subjects followed the same protocol except for caffeine ingestion. Acute caffeine ingestion resulted in increased plasma epinephrine and decreased respiratory exchange ratio (RER) during exercise. After 6 wk of caffeine supplementation, the epinephrine response to exercise or caffeine plus exercise was decreased, although the latter still resulted in a lower RER value compared with exercise without caffeine ingestion. Activity of key metabolic enzymes (hexokinase, citrate synthase, phosphorylase, and 3-hydroxyacyl-coenzyme A dehydrogenase) from biopsies of the gastrocnemius showed no response to 6 wk of this increased adrenergic receptor stimulation and, on the basis of the lower RER, enhanced fat metabolism. This study suggests that caffeine ingestion by trained subjects causes increases in plasma epinephrine and reduces the RER during exercise. However, habitual stimulation results in a general dampening of the epinephrine response to caffeine or exercise. There was no indication that increased adrenergic stimulation and fat oxidation caused any adaptation in the activity of metabolic enzymes. 相似文献
48.
The characteristics of 86Rb+ fluxes through conductive channels in basolateral-membrane vesicles isolated from pars convoluta of rabbit proximal tubule were investigated. In KCl loaded vesicles a transient accumulation of 86Rb+ was observed which was inhibited by BaCl2. The accumulation was driven by an electrical diffusion potential, as shown in experiments using membrane vesicles loaded with Li2SO4 and an outwardly directed Li+ gradient established with a Li(+)-ionophore. The vesicles containing the channel showed a cation selectivity with the order K+ = Rb+ much greater than Li+ greater than or equal to Na+ greater than choline+. The 86Rb+ flux was dependent on intravesicular Ca2+. Increasing concentrations of Ca2+ gradually decreased the 86Rb+ uptake. 相似文献
49.
Donald W. Jacobsen Yolanda D. Montejano F.M. Huennekens 《Analytical biochemistry》1981,113(1):164-171
Aminopropylcobalamin (AP-Cbl), prepared from 3-chloropropylamine and cob(I)alamin, was immobilized on CNBr-activated Sephacryl beads. The product, Sephacryl-aminopropylcobalamin, contained ca. 1 μmol of AP-Cbl/ml of beads. Cobalamin-binding proteins in biological fluids were adsorbed selectively and quantitatively by Sephacryl-aminopropylcobalamin. After being washed to remove extraneous protein, the beads were photoirradiated to release the cobalamin-binding proteins as their aquacobalamin complexes. The latter could be converted to labeled cyanocobalamin complexes by treatment with [14C]KCN. The efficacy of this affinity chromatographic method is illustrated by the purification to near homogeneity and in high yield of three representative proteins: transcobalamin II from rabbit serum, intrinsic factor from human gastric juice, and R binder from human saliva. 相似文献
50.
Folate polyglutamate and monoglutamate accumulation in normal and SV40-transformed human fibroblasts
Folate polyglutamate and monoglutamate accumulation was measured in normal diploid and SV40-transformed human fibroblasts by Sephadex G-10 gel filtration chromatography. The cells were first depleted of folates and then provided with limiting amounts of [3H]-folic acid in order that the cells would accumulate only forms of folate necessary for proliferation. Both the normal and the transformed cells accumulated monoglutamate and polyglutamate forms, but by 72 hours of labeling the transformed cells contained 3-10 times more polyglutamate than the normal cells. The growth rates for the normal and transformed cells were similar at this limiting folic acid concentration. Thus, if folate polyglutamates are more important for the proliferation of SV40-transformed cells than the normal cells, then inhibition of polyglutamate formation may be an important potential target for chemotherapy. 相似文献