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951.
Summary In the North American harvester antEphebomyrmex imberbiculus, in addition to dealate queens, wingless female reproductives occur that have greatly reduced ocelli and thoracic sutures (intermorphic queens). Both queen types are equivalent in function, and do not differ in ovarian morphology. Colonies may contain several inseminated and egg-laying intermorphic queens. We discuss queen polymorphism in respect to the biology of this desert-dwelling species. 相似文献
952.
J. T. P. Albrechtová J. Ullmann J. Krekule A. Blažková I. Machžčková Z. Vondráková J. Blažková S. Procházka V. Borkovec D. A. Baker F. Didehvar Z. Tesařová V. Czaková M. Zima K. Doležal T. Doleželová V. Psota M. Dundelová V. Reinöhl S. Prochàzka J. Mikulík M. Dvořěk J. Černohorskě O. Auxtová B. Cholvadová D. Lišková M. Kubačková S. Karácsonyi L. Bilisics 《Biologia Plantarum》1992,34(1):569-587
953.
B A Messerle A Sch?ffer M Vasák J H K?gi K Wüthrich 《Journal of molecular biology》1992,225(2):433-443
The solution structure of native human [Zn7]-metallothionein-2 has been compared with the previously determined structure of human [Cd7]-metallothionein-2. The comparison was based on complete sequence-specific 1H nuclear magnetic resonance assignments for human [Zn7]-metallothionein-2 obtained using the sequential assignment method. The secondary structure was found to be very similar in the [Zn7]- and [Cd7]- forms of the protein. Only seven amide protons in [Zn7]- metallothionein-2 were found to have exchange rates lower than approximately 0.2 min-1 at pH 7.0 and 10 degrees C, which corresponds closely to the results of amide proton exchange studies with the [Cd7]- form of the protein. Finally, the 1H-1H distance constraints determined from nuclear Overhauser enhancement spectroscopy for human [Zn7]-metallothionein-2 were checked for compatibility with the [Cd7]-metallothionein-2 structure. Overall, although no direct method is available for identifying the metal-polypeptide co-ordinative bonds in the Zn(2+)-containing protein, these measurements provided several independent lines of evidence showing that the [Zn7]- and [Cd7]- forms of human metallothionein-2 have the same molecular architecture. 相似文献
954.
Seasonal leaf water relations characteristics were studied in fully irrigated spring barley (Hordeum distichum L. cv. Gunnar) fertilized at low (50 kg K ha−1) or high (200 kg K ha−1) levels of potassium applied as KCl. The investigation was undertaken from about 14 days before anthesis until the milk ripe
stage in leaves of different position and age. Additionally, the effects of severe water stress on leaf water relations were
studied in the middle of the grain filling period in spring barley (cv. Alis). The leaf water relations characteristics were
determined by the pressure volume (PV) technique.
Water relations of fully irrigated plants were compared in leaf No 7 with the water relations of slowly droughted plants (cv.
Alis). Leaf osmotic potential at full turgor (ψ
π
100
) decreased 0.1 to 0.3 MPa in droughted leaves indicating a limited osmotic adjustment due to solute accumulation. The leaf
osmotic potential at zero turgor (ψ
π
0
) was about −2.2 MPa in fully irrigated plants and −2.6 MPa in droughted plants. The relative water content at zero turgor
(R0) decreased 0.1 unit in severely droughted leaves. The ratio of turgid leaf weight to dry weight (TW/DW) tended to be increased
by drought. The tissue modulus of elasticity (ε) decreased in droughted plants and together with osmotic adjustment mediated
turgor maintenance during drought. A similar response to drought was found in low and high K plants except that the R0 and ε values tended to be higher in the high K plants. Conclusively, during drought limited osmotic adjustment and increase
in elasticity of the leaf tissue mediated turgor maintenance. These effects were only slightly modified by high potassium
application.
The seasonal analysis in fully irrigated plants (cv. Gunnar) showed that within about 14 days from leaf emergence ψ
π
100
decreased from about −0.9 to −1.6 MPa in leaf No 7 (counting the first leaf to emerge as number one) and from about −1.1
to −1.9 MPa in leaf No 8 (the flag leaf) due to solute accumulation. A similar decrease took place in ψ
π
0
except that the level of ψ
π
0
was displaced to a lower level of about 0.2 to 0.3 MPa. Both ψ
π
100
and ψ
π
0
tended to be 0.05 to 0.10 MPa lower in high K than in low K plants. R0 was about 0.8 to 0.9 and was independent of leaf position and age, but tended to be highest in high K plants. The TW/DW ratio
decreased from about 5.5 in leaf No 6 to 4.5 in leaf No 7 and 3.8 in leaf No 8. The TW/DW ratio was 4 to 10% higher in high
K than in low K plants indicating larger leaf cell size in the former. The apoplastic water content (Va) at full turgor constituted about 15% in leaf No 7. ε was maximum at full turgor and varied from about 11 to 34 MPa. ε tended
to be higher in high K plants. Conclusively, in fully watered plants an ontogenetically determined accumulation of solutes
(probably organic as discussed) occurred in the leaves independent of K application. The main effect of high K application
on water relations was an increase in leaf water content and a slight decrease in leaf ψπ.
The effect of K status on growth and drought resistance is discussed. 相似文献
955.
956.
Repression of the Plastidic Isoenzymes of Aldolase, 3-Phosphoglycerate Kinase, and Triosephosphate Isomerase in the Barley Mutant "albostrians" 下载免费PDF全文
White leaves of the mutant line albostrians and green leaves of the wild-type cultivar Salome of barley (Hordeum vulgare L.) were screened for the presence of plastidic and cytosolic isoenzymes of sugar-phosphate metabolism. Isoenzyme separation was achieved by anion-exchange chromatography on Fractogel TSK DEAE-650(S). The mutant tissue had a markedly reduced level of plastidic 3-phosphoglycerate kinase, triosephosphate isomerase, and aldolase activity. In contrast, the activity of plastidic glucosephosphate isomerase, fructose 1,6-bisphosphatase, 6-phosphogluconate dehydrogenase, starch phosphorylase, and ADP-glucose pyrophosphorylase was in the same range as in wild-type leaf tissue. The activity of the corresponding cytosolic isoenzymes (including UDP-glucose pyrophosphorylase) showed essentially no differences in mutant and wild type. The same trend was observed in dark-grown mutant and wild-type leaves. Interestingly, the total activity levels of all isoenzymes were about the same when comparing dark-grown and light-grown mutant or wild-type plants. From these data, it is concluded that mutant leaves exhibit a selective decrease of a subgroup of plastidic isoenzymes associated with the Calvin cycle. 相似文献
957.
Short-term effects of rhizosphere microorganisms on fe uptake from microbial siderophores by maize and oat 总被引:3,自引:2,他引:1 下载免费PDF全文
Effects of rhizosphere microorganisms on Fe uptake by oat (Avena sativa) and maize (Zea mays) were studied in short-term (10 h) nutrient solution experiments. Fe was supplied either as microbial siderophores (pseudobactin [PSB] or ferrioxamine B [FOB]) or as phytosiderophores obtained as root exudates from barley (epi-3-hydroxy-mugineic acid [HMA]) under varied population densities of rhizosphere microorganisms (axenic, uninoculated, or inoculated with different microorganism cultures). When maize was grown under axenic conditions and supplied with FeHMA, Fe uptake rates were 100 to 300 times higher compared to those in plants supplied with Fe siderophores. Fe from both sources was taken up without the involvement of an extracellular reduction process. The supply of FeHMA enhanced both uptake rate and translocation rate to the shoot (more than 60% of the total uptake). However, increased density of microorganisms resulted in a decrease in Fe uptake rate (up to 65%), presumably due to microbial degradation of the FeHMA. In contrast, when FeFOB or FePSB was used as the Fe source, increased population density of microorganisms enhanced Fe uptake. The enhancement of Fe uptake resulted from the uptake of FeFOB and FePSB by microorganisms adhering to the rhizoplane or living in the free space of cortical cells. The microbial apoplastic Fe pool was not available for root to shoot transport or, thus, for utilization by the plants. These results, in addition to the low uptake rate under axenic conditions, are in contrast to earlier hypotheses suggesting the existence of a specific uptake system for Fe siderophores in higher plants. The bacterial siderophores PSB and FOB were inefficient as Fe sources for plants even when supplied by stem injection. It was concluded that microorganisms are involved in degradation processes of microbial siderophores, as well as in competition for Fe with higher plants. 相似文献
958.
The effect of daily heat-shock treatments on gene expression and morphogenesis of etiolated barley (Hordeum vulgare) was investigated. Heat-shock treatments in the dark induced shortening of the primary leaves and the coleoptiles to the length of those in light-grown plantlets. In addition, the mRNA levels of the light-induced genes that were investigated were raised under these conditions and showed distinct oscillations over a period of at least 3 d. While the mRNA levels for chlorophyll a/b binding protein (LHC II), plastocyanin, and the small subunit of ribulose-1,5-bisphosphate carboxylase had maxima between 8 and 12 pm (12-16h after the last heat-shock treatment), the mRNA levels for thionin oscillated with a phase opposed to that of LHC II. Etiolated barley, the circadian oscillator of which was synchronized by cyclic heatshock treatments, was illuminated for a constant interval at different times of the day; this led to the finding that greening was fastest at the time when the maximal levels of mRNA for LHC II were also observed. Whereas accumulation of chlorophyll a during a 4-h period of illumination oscillated by a factor of 3, chlorophyll b accumulation changed 10- to 15-fold. Similarly, accumulation of LHC II was highest when pigments accumulated maximally. Hence, greening or, in other words, thylakoid membrane assembly is under control of the circadian oscillator. 相似文献
959.
960.