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81.
Supra-optimal levels of zinc in primary leaves of Phaseolus vulgaris increased the CO2 compensation point and inhibited net photosynthesis. Leaf morphology was modified: mesophyll intercellular area, stomatal slit length and interstomatal distance were reduced, but stomatal density increased. Internal and stomatal conductances to CO2 diffusion decreased. These changes are discussed in relation to the observed effects on leaf gas exchange and to the previously reported inhibition of different photosynthetic and photorespiratory enzymes. 相似文献
82.
Bo Lönnerdal Barbara O. Schneeman Carl L. Keen Lucille S. Hurley 《Biological trace element research》1980,2(3):149-158
Rat bile and pancreatic fluid were examined for the presence of low molecular weight zinc complexes. Fluids were collected
separately by cannulation, and zinc distribution in collected samples was analyzed by gel filtration on Sephadex G-50. Most
of the zinc in bile was associated with low molecular weight zinc complexes; only a small amount of zinc was present in the
high molecular weight fraction. In contrast, pancreatic secretions did not contain low molecular weight zinc complexes, but
there were considerable amounts of zinc bound to high molecular weight compounds. The addition of zinc to bile resulted in
an increased amount of zinc in the low molecular weight fraction, while the addition of zinc to pancreatic fluid resulted
primarily in an increase in zinc bound to the high molecular weight components. Like pancreatic fluid, homogenates of pancreatic
tissue had no low molecular weight zinc complex. In rats whose bile and pancreatic fluid were removed and not returned into
the intestine, the amount of zinc bound to low molecular weight complexes in intestinal homogenates was reduced. This alteration
of the molecular distribution of zinc in intestinal homogenates by removal of bile and pancreatic fluid suggests the potential
importance of low molecular weight zinc complexes for zinc homeostasis. 相似文献
83.
Previous work in our laboratory led to the isolation of a cadmium (Cd)-resistant variant (Cdr2C10) of the line CHO Chinese Hamster cell having a 10-fold greater resistance to the cytotoxic action of Cd2+ compared with the CHO cell. This resistance was attributed to an increased capacity of the Cd2+-resistant Cdr2C10 subline to induce synthesis of the Cd2+- and Zn2+-binding protein(s), metallothionein(s) (MT). Evidence that Cd2+ behaves as an analog of the essential trace metal, Zn2+, especially as an inducer of MT synthesis, suggested that the Cdr and CHO cell types could be employed to investigate cellular Zn2+ metabolism. In the present study, measurements were made to compare CHO and Cdr cell types for (a) growth as a function of the level of ZnCl2 added to the culture medium, (b) uptake and subcellular distribution of Zn2+, and (c) capacity to induce MT synthesis. The results of these measurements indicated that (a) both CHO and Cdr cell types grew normally (T
d≊16–18 h) during exposures to Zn2+ at levels up to 100 μM added to the growth medium, but displayed abrupt growth inhibition at higher Zn2+ levels, (b) Cdr cells incorporate fourfold more Zn2+ during a 24-h exposure to the maximal subtoxic level of Zn2+ and (c) the CHO cell lacks the capacity to induce MT synethesis while the Cdr cell is proficient in this response during exposure to the maximal subtoxic Zn2+ level. These findings suggest that (a) the CHO and Cdr cell systems will be useful in further studies of cellular Zn2+ metabolism, especially in comparisons of Zn2+ metabolism in the presence and absence of induction of the Zn2+-sequestering MT and (b) a relationship exists between cellular capacity to induce MT synthesis and capacity for cellular
Zn2+ uptake. 相似文献
84.
Carl L. Keen Bo Lönnerdal Theodore N. Stein Lucille S. Hurley 《Biological trace element research》1980,2(3):221-227
The presence of superoxide dismutase in bovine and human milk was investigated by ultrafiltration, gel filtration, and isoelectric
focusing. Conclusive evidence for the presence of this enzyme in both milks is presented. The molecular weight of the enzyme
was estimated by gel filtration on Sephadex G-100 to be 30,000, which is consistent with reported values for the copper, zinc
form of superoxide dismutase. In addition, enzyme activity was inhibited by cyanide, thus eliminating the possibility that
the enzyme was present in the manganese form. Several isoenzymes were detected by isoelectric focusing in polyacrylamide gel,
and the isoenzyme pattern in bovine milk was the same as that found for bovine plasma, suggesting that milk superoxide dismutase
originates from plasma. It may be that the presence of copper, zinc superoxide dismutase in milk is important for the maintenance
of its oxidative stability. 相似文献
85.
A review of experimental studies of the effect of zinc nutrition on insulin metabolism is presented. In addition to a short
introduction to the synthesis, secretion, and action of insulin, the effects of zinc deficiency—specifically on glucose tolerance,
insulin secretion, insulin synthesis and storage, and on total insulin-like activity—are dealt with. The concentrations of
zinc and chromium in serum, pancreas, and liver are compared to those of zinc-deficient animals and pair-fed controls.
In contrast to pair-fed controls, zinc-deficient rats had unaltered proinsulin contents after glucose stimulation, but they
showed a diminished glucose tolerance, lowered serum insulin content, and an elevated total insulin-like activity. The serum
zinc concentration of the deficient animals was greatly reduced and did not change during glucose stimulation, whereas it
rose in the case of the pair-fed controls. The serum chromium concentration increased in both groups in response to glucose
stimulation. In the pancreas of the deficient animals, the zinc concentration was reduced 60% and it increased during the
glucose tolerance test. In the liver there were no significant differences. The chromium concentrations were elevated in both
the pancreas and liver of the zinc-deficient rats by 60 and 100%, respectively, and were not influenced by glucose injection.
These studies show clearly that nutritional zinc deficiency influences insulin metabolism and action. 相似文献
86.
The active site metal in horse liver alcohol dehydrogenase has been studied by metal-directed affinity labeling of the native zinc(II) enzyme and that substituted with cobalt(II) or cadmium(II). Reversible binding of bromoimidazolyl propionic acid to the cobalt enzyme blueshifts the visible absorption band originating from the catalytic cobalt atom at 655 to 630 nm. Binding of imidazole to the cobalt(II) enzyme redshifts the 655 nm band to 667 nm. Addition of bromoimidazolyl propionic acid blueshifts this 667 nm band back to 630 nm. This proves direct binding of the label to the active site metal in competition with imidazole. The affinity of the label for the reversible binding site in the three enzymes follows the order Zn ? Cd ? Co. After reversible complex formation, bromoimidazolyl propionic acid alkylates cysteine-46, one of the protein ligands to the active site metal. The nucleophilic reactivity of this metal-mercaptide bond in each reversible complex follows the order Co ? Zn ? Cd. 相似文献
87.
Donna M. Charponiere-Rickenberg Mukta M. Webber 《In vitro cellular & developmental biology. Plant》1983,19(5):373-375
Summary Adult human prostatic epithelium was cultured in a defined medium consisting of RPMI 1640 supplemented with transferrin, insulin,
epidermal growth factor, dexamethasone, and vitamin A. In the presence of insulin, stabilized with zinc, maximum epithelial
multiplication was obtained at an insulin concentration of 0.03 to 0.1 U/ml, corresponding to a zinc concentration of 1.4×10−7
M. At higher insulin concentrations, growth stimulation declined. Zinc-free insulin, on the other hand, stimulated cell multiplication
with an optimum concentration of 0.3 to 1.0 U/ml. At this concentration the maximum growth was twice that obtained with zinc-stabilized
insulin. Results demonstrate that growth inhibition caused by zinc limits the concentration of zinc-stabilized insulin, which
can be used in serum-free, defined culture media.
This work was supported by the Division of Cancer Cause and Prevention, National Cancer Institute, DHHS Grant No. CA-28279
to Webber. 相似文献
88.
T. J. B. Simons 《The Journal of membrane biology》1991,123(1):73-82
Summary Zinc efflux from human red blood cells is largely brought about by a saturable mechanism that depends upon extracellular Ca2+ ions. It has aV
max of about 35 mol/1013 cells hr, aK
m
for external Ca2+ of 1×10–4
m, and aK
m
for internal Zn2+ of 1×10–9
m. External Zn2+ inhibits with aK
0.5 of 3×10–6
m. Sr2+ is a substitute for external Ca2+, but changes in monovalent anions or cations have little effect on the Zn2+ efflux mechanism. It is unaffected by most inhibitors of red cell transport systems, although amiloride and D-600 (methoxyverapamil, a Ca2+ channel blocker) are weakly inhibitory. The transport is capable of bringing about the net efflux of Zn2+, against an electrochemical gradient, provided Ca2+ is present externally. This suggests it may be a Zn2+:Ca2+ exchange, which would be able to catalyze the uphill movement of Zn2+ at the expense of an inward Ca2+ gradient, which is it self maintained by the Ca2+ pump. 相似文献
89.
Extremely high degrees of lead tolerance, measured by comparing rates of root extension in culture solutions, are reported from populations of Festuca ovina growing at two lead-mining sites (Westschacht and Keldenich-II) near Mechernich in the Eifel Mountains, Germany. Other populations from nearby heavy metal-contaminated areas show a considerably smaller degree of lead tolerance. Samples of Festuca ovina collected in the field at Westschacht and Keldenich-II contain higher levels of lead in their aerial organs than do those from other lead-contaminated sites. The main soil factor determining the high degree of lead tolerance is the high Pb/Ca ratio. Populations from soils with a low Pb/Ca ratio display a very low degree of tolerance. It is therefore concluded that in Westschacht and Keldenich-II plants, a genuine intracellular tolerance mechanism is present, allowing the accumulation of lead in aerial organs.Leaf samples of zinc-tolerant Festuca contain higher levels of zinc than do samples of non-tolerant plants. Lead and zinc amounts in leaves are correlated with the soil ratios of Pb/Ca and Zn/Ca, respectively, rather than with the absolute soil-metal levels.In a slightly lead-tolerant, but highly zinc-tolerant clone of Festuca ovina from a site contaminated with large amounts of lead and zinc (Plombières), lead was found to be the major factor affecting the inhibition of root extension with combined treatments of lead and zinc in culture solutions. In the highly lead-tolerant, zinc-sensitive population from Westschacht, zinc governs the response of root growth to combinations of the two metals. The results are discussed in terms of discriminating distinct types of heavy-metal tolerance. 相似文献
90.
In five consecutive years lettuce, spinach, spring wheat, endive and maize were grown in pots and the effects of native and soil-applied Zn and Cd on plant Zn and Cd concentrations were studied. The normal interactive pattern was antagonistic, Zn reducing plant Cd uptake, and conversely, but less so. Only in loam soil Zn and Cd were synergistic to some extent, plant Zn uptake increasing with applied Cd.When relating total soil Cd/Zn to plant Cd/Zn separate sets of data could be distinguished for loam and sandy soil, each fitting a straight line. The use of 0.1 M CaCl2 instead of total extractable soil Cd/Zn makes the two sets of data to coalesce around a single straight line. All crops were found to show a positive linear relationship between 0.1 M CaCl2-extractable soil Cd/Zn and plant Cd/Zn. 相似文献