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91.
Wolfram Eberstein Yannis Georgalis Wolfram Saenger 《European biophysics journal : EBJ》1993,22(5):359-366
Hen-egg white lysozyme was used for studying the influence of temperature on crystallization. The reaction was initiated at variable temperatures, covering the range between 5–50 °C, and was monitored with photon correlation spectroscopy. When aggregation was induced by addition of NaCl, the clusters formed exhibited diffusion limited aggregation behavior and crystals appeared in less than two days. In contrast, (NH4)2SO4 induced aggregation took place mostly in the cross-over regime. In this case, solutions either remained transparent and void of crystals or formed gels within a few weeks. In both cases the kinetics could be dynamically scaled into master curves indicating that the precrystallization formed aggregates are fractals resulting from different collision processes. 相似文献
92.
We examined the effect of soil NH4+ and NO3? content upon the root systems of field-grown tomatoes, and the influence of constant, low concentrations of NH4+ or NO3? upon root growth in solution culture. In two field experiments, few roots were present in soil zones with low extractable NH4+ or NO3?; they increased to a maximum in zones having 2μg-N NO3? g?1 soil and 6 μg-N NO3= g?1 soil, but decreased in zones having higher NH4+ or NO3? levels. Root branching was relatively insensitive to available mineral nitrogen. Plants maintained in solution culture at constant levels of NH4+ or NO3?, had similar shoot biomass, but all root parameters – biomass, length, branching and area – were greater under NH4 nutrition than under NO3?. These results suggest that the size of root system depends on a functional equilibrium between roots and shoots (Brouwer 1967) and on the balance between soil NH4+ and NO3?. 相似文献
93.
Enhanced ethylene production by primary roots of Zea mays L. in response to sub-ambient partial pressures of oxygen 总被引:1,自引:0,他引:1
R. W. BRAILSFORD L. A. C. J. VOESENEK C. W. P. M. BLOM A. R. SMITH M. A. HALL M. B. JACKSON 《Plant, cell & environment》1993,16(9):1071-1080
Ethylene production by primary roots of 72–h-old intact seedlings of Zea mays L. cv. LG11 was studied under ambient and sub-ambient oxygen partial pressures (pO2) using a gas flow-through system linked to a photoacoustic laser detector. Despite precautions to minimize physical perturbation to seedlings while setting-up, ethylene production in air was faster during the first 6h than later, in association with a small temporary swelling of the roots. When roots were switched from air (20–8kPa O2) to 3 or 5kPa O2 after 6h, ethylene production increased within 2—3 h. When, the roots were returned to air 16 h later, ethylene production decreased within 2—3 h. The presence of 10kPa CO2 did not interfere with the effect of 3kPa O2. Transferring roots from air to 12–5kPa did not change ethylene production, while a reduction to 1 kPa O2 induced a small increase. The extra ethylene formed in 3 and 5 kPa O2 was associated with plagiotropism, swelling, root hair production, and after 72 h, increased amounts of intercellular space (aerenchyma) in the root cortex. Root extension was also slowed down, but the pattern of response to oxygen shortage did not always match that of ethylene production. On return to air, subsequent growth patterns became normal within a few hours. In the complete absence of oxygen, no ethylene production was detected, even when anaerobic roots were returned to air after 16 h. 相似文献
94.
Responses of individual roots of the widely cultivated cactus Opuntia ficus-indica to salinity stress were evaluated using a split-root system. Three roots from a plant with at least 20 roots were isolated from the remainder of the root system and exposed to 0, 30 or 100 mol m-3 NaCl for up to 28 d. Cortical cells became shorter and lateral root development was substantially reduced as salinity increased. Compared with the control, the increase in dry weight for the isolated roots was reduced 40% by 30 mol m-3 NaCl and 93% by 100mol m-3 NaCl. The sodium content of roots increased only two-fold with increasing salinity. Respiration rates of roots exposed to 30 or 100 mol m-3 NaCl were higher than those of the control. Carbon accumulation in roots measured 2 d after exposing shoots to 14CO2 was not initially affected by 30 mol m-3 NaCl but was substantially reduced at 100 mol m-3 NaCl. Thus, roots exposed to short periods of moderate salinity stress maintained sufficient carbon sink strength for continued growth of the roots. Moreover, increased salinity led to decreased efficiency of carbon usage for the expansion of root surface area. 相似文献
95.
NMR imaging of root water distribution in intact Vicia faba L plants in elevated atmospheric CO2 总被引:1,自引:1,他引:0
The effect of elevated atmospheric CO2 on water distribution in the intact roots of Vicia faba L. bean seedlings grown in natural soil was studied noninvasively with proton (1H) nuclear magnetic resonance (NMR) imaging. Exposure of 24-d-old plants to atmospheric CO2-enriched air at 650 cm3 m?3 produced significant increases in water imaged in upper roots, hypogeal cotyledons and lower stems in response to a short-term drying-stress cycle. Above ground, drying produced negligible stem shrinkage and stomatal resistance was unchanged. In contrast, the same drying cycle caused significant depletion of water imaged in the same upper root structures in control plants subject to ambient CO2 (350 m3 m?3), and stem shrinkage and increased stomatal resistance. The results suggest that inhibition of transpiration caused by elevated CO2 does not necessarily result in attenuation of water transport from lower root structures. Inhibition of water loss from upper roots and lower stem in elevated CO2 environments may be a mitigating factor in assessing deleterious effects of greenhouse changes on crops during periods of dry climate. 相似文献
96.
Takao Yagi Takahiro Yano Akemi Matsuno-Yagi 《Journal of bioenergetics and biomembranes》1993,25(4):339-345
A comparison of the mitochondrial NADH-ubiquinone oxidoreductase and the energy-transducing NADH-quinone oxidoreductase (NDH-1) ofParacoccus denitrificans revealed that both systems have similar electron-transfer and energy-transduction pathways. In addition, both complexes are sensitive to the same inhibitors and contain similar electron carriers, suggesting that theParacoccus NDH-1 may serve as a useful model system for the study of the human enzyme complex. The gene cluster encoding theParacoccus NDH-1 has been cloned and sequenced. It is composed of 18,106 base pairs and contains 14 structural genes and six unidentified reading frames (URFs). The structural genes, URFs, and their polypeptides have been characterized. We also discuss nucleotide sequences which are believed to play a role in the regulation of the NDH-1 gene cluster andParacoccus NDH-1 subunits which may contain the binding sites of substrates and/or electron carriers. 相似文献
97.
L. Schreiber H.-W. Breiner M. Riederer M. Düggelin R. Guggenheim 《Plant biology (Stuttgart, Germany)》1994,107(5):353-361
The root endodermis of Clivia miniata Reg. was successfully isolated using the cell wall degrading enzymes cellulase and pectinase. The enzymes did not depolymerize those regions of the primary cell walls of anticlinal endodermal root cells where the Casparian strips were located. Since the endodermis of C. miniata roots remained in its primary developmental state over the whole root length, endodermal isolates essentially represented Casparian strips. Thus, sufficient amounts of isolated Casparian strips could be obtained to allow further detailed investigations of the isolates by microscopic, histochemical and analytical methods. Scanning electron microscopy revealed the reticular structure of the Casparian strips completely surrounding the central cylinder of the roots. Whereas in younger parts of the root only the anticlinal cell walls of the endodermis remained intact in the isolates, in older parts of the root the periclinal walls also restricted enzymatic degradation due to the deposition of lignin. Extracts of the isolates with organic solvents did not reveal any wax-like substances which might have been deposited within the cell wall forming a transport barrier, as is the case with cutin and suberin. However, several histochemical and analytical methods (elemental analysis and FTIR spectroscopy) showed that the chemical nature of the Casparian strips of C. miniata roots can definitely be a lignified cell wall. These findings are in complete agreement with studies carried out at the beginning of this century on the chemical nature of the Casparian strips of several other plant species. The implications of these results concerning apoplasmatic transport of solutes and water across Casparian strips are discussed. 相似文献
98.
Of the 39 species composing the Xiphinema americanum group, 14 were described originally from North America and two others have been reported from this region. Many species are very similar morphologically and can be distinguished only by a difficult comparison of various combinations of some morphometric characters. Study of morphometrics of 49 populations, including the type populations of the 39 species attributed to this group, by principal component analysis and hierarchical cluster analysis placed the populations into five subgroups, proposed here as the X. brevicolle subgroup (seven species), the X. americanum subgroup (17 species), the X. taylori subgroup (two species), the X. pachtaicum subgroup (eight species), and the X. lambertii subgroup (five species). 相似文献
99.
Elevated tropospheric ozone (O3) affects the allocation of biomass aboveground and belowground and influences terrestrial ecosystem functions. However, how belowground functions respond to elevated O3 concentrations ([O3]) remains unclear at the global scale. Here, we conducted a detailed synthesis of belowground functioning responses to elevated [O3] by performing a meta-analysis of 2395 paired observations from 222 publications. We found that elevated [O3] significantly reduced the primary productivity of roots by 19.8%, 16.3%, and 26.9% for crops, trees and grasses, respectively. Elevated [O3] strongly decreased the root/shoot ratio by 11.3% for crops and by 4.9% for trees, which indicated that roots were highly sensitive to O3. Elevated [O3] impacted carbon and nitrogen cycling in croplands, as evidenced by decreased dissolved organic carbon, microbial biomass carbon, total soil nitrogen, ammonium nitrogen, microbial biomass nitrogen, and nitrification rates in association with increased nitrate nitrogen and denitrification rates. Elevated [O3] significantly decreased fungal phospholipid fatty acids in croplands, which suggested that O3 altered the microbial community and composition. The responses of belowground functions to elevated [O3] were modified by experimental methods, root environments, and additional global change factors. Therefore, these factors should be considered to avoid the underestimation or overestimation of the impacts of elevated [O3] on belowground functioning. The significant negative relationships between O3-treated intensity and the multifunctionality index for croplands, forests, and grasslands implied that elevated [O3] decreases belowground ecosystem multifunctionality. 相似文献