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本文研究了纤维体积分数对三维编织芳纶纤维增强铸性尼龙(简称K3D/MCPA)复合材料力学性能的影响。研究表明,K3D/MCPA复合材料有优异的抗冲击性能,冲击强度比三维编织芳纶纤维增强铸性尼龙(简称C3D/MCPA)和纯基体均有大幅度的提高,且随着纤维体积的提高而升高。K3D/MCPA复合材料剪切强度随纤维体积比的增大而增大,其纵向剪切强度低于纯基体和C3D/MCPA复合材料,但其横向剪切强度高于它们。K3D/MCPA复合材料弯曲强度与弯曲模量随纤维体积比的提高而提高,但与相同体积比的C3D/MCPA相比,K3D/MCPA的弯曲强度与弯曲模量均较低。 相似文献
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PURPOSE: Nitric oxide (NO) is generated in mammalian tissue by the conversion of L-arginine to L-citrulline. The reaction is catalyzed by nitric oxide synthase (NOS). NO has been suggested to have a dual role in tumor biology with both antitumor and tumor promoter activity. Furthermore, it has been proposed that NO contributes to interleukin-2-induced antitumor activity. Since interleukin-2 is used in the treatment of renal cell carcinoma (RCC) it was of interest to study the NOS activity in the human kidney and in RCC and its correlation to tumor grade. Furthermore, the effect of cytokine treatment on NOS activity and the effect of NO donor application was studied in cultured cells. MATERIALS AND METHODS: The effect of cytokine treatment on NOS activity and the effect of NO donor application on cell proliferation was studied in cultured human proximal tubular cells and in RCC cell lines HN4 and HN51. NOS activity was measured by the L-arginine to L-citrulline conversion assay. RESULTS: Calcium-dependent NOS activity was found in all non-malignant kidney tissues (486+/-63 pmol. min(-1) g(-1) tissue). The activity was significantly lower in RCC (24+/-6 pmol. min(-1) g(-1) tissue) and correlated with tumor grade; thus high grade tumors showed lower activity than low grade tumors. Calcium-independent NOS activity was not detected in non-malignant kidney tissue or in RCC tissue. In cultured proximal tubular cells and RCC cell lines HN4 and HN51, cytokine treatment induced a marked increase in NOS activity and NO exerted cytostatic effects on these cell lines. Conclusions: The NOS activity was higher in non-malignant kidney tissue than in RCC tissue and was inversely correlated with tumor grade. Furthermore, cytokine treatment induced a marked increase in NOS activity and NO exerted cytostatic effects on cultured proximal tubular cells and RCC cell lines. 相似文献
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Crystal structure of TNF-alpha mutant R31D with greater affinity for receptor R1 compared with R2 总被引:2,自引:0,他引:2
Reed C; Fu ZQ; Wu J; Xue YN; Harrison RW; Chen MJ; Weber IT 《Protein engineering, design & selection : PEDS》1997,10(10):1101-1107
Crystal structures have been determined of recombinant human tumor necrosis
factor-alpha (TNF-alpha) and its R31D mutant that preferentially binds to
TNF receptor R1 with more than seven times the relative affinity of binding
to receptor R2. Crystals of the wild-type TNF were of space group
P4(1)2(1)2 and had unit cell dimensions of a = b = 94.7 and c = 117.4 A.
Refinement of the structure gave an R-factor of 22.3% at 2.5 A resolution.
The crystals of TNF R31D mutant diffracted to 2.3 A resolution, and were of
identical space group to the wild type with unit cell dimensions of a = b =
95.4 and c = 116.2 A, and the structure was refined to an R-factor of
21.8%. The trimer structures of the wild-type and mutant TNF were similar
with a root mean square (r.m.s.) deviation of 0.56 A for Calpha atoms;
however, the subunits within each trimer were more variable with an average
r.m.s. deviation of 1.00 A on Calpha atoms for pairwise comparison of
subunits. Model complexes of TNF with receptors R1 and R2 have been used to
predict TNF-receptor interactions. Arg31 in all three subunits of wild-type
TNF is predicted to form an ionic interaction with the equivalent glutamic
acid in both receptors R1 and R2. Asp31 of the TNF R31D mutant is predicted
to interact differently with the two receptors. The side chain of Asp31 in
two subunits of the TNF mutant is predicted to form hydrogen bond
interactions with Ser59 or Cys70 of R1, while it has no predicted
interactions with R2. The loss of three strong ionic interactions of Arg31
and the electrostatic repulsion of Asp31 with Glu in the receptors is
consistent with the reduced binding of the R31D mutant to both receptors
relative to wild-type TNF. The replacement of these ionic interactions by
two weaker hydrogen bond interactions between Asp31 of the R31D mutant and
R1, compared with no interactions with R2, is in agreement with the
observed preferential binding of the R31D mutant to R1 over R2. Analysis of
the structure and function of receptor-discriminating mutants of TNF will
help understand the biological role of TNF and facilitate its use as an
antitumor agent.
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1. Little is known about spontaneous slow rhythms in regional circulations. The present study was aimed at characterizing low-frequency (LF; 78-269 mHz) oscillations in the mesenteric and hindquarter circulations of conscious rats. 2. Mean arterial pressure (MAP) and indices (pulsed Doppler technique) of mesenteric (n = 25) and hindquarter (n = 23) blood flows were recorded in conscious, freely moving rats during 1 h periods. Fast Fourier transform analysis was applied to beat-to-beat data after resampling at 10 Hz of consecutive 205 s time series. 3. A major oscillation centred at 164 +/- 4 mHz was present in the mesenteric, but not in hindquarter, circulation. Consequently, LF power accounted for approximately 43% of the overall variability of mesenteric blood flow. Cross-spectral analysis performed between MAP and mesenteric blood flow indicated that fractional changes in flow were approximately two-fold of those in MAP, in pressure, at the peak frequency. 4. Acute blockade of the autonomic, renin-angiotensin and vasopressin systems combined with noradrenaline infusion (n = 7) reduced the frequency of the mesenteric blood flow oscillation (115 +/- 6 mHz) but did not change its contribution to overall flow variability (approximately 48%). A clear oscillation was still present after acute inhibition of nitric oxide (NO) synthesis with NG-nitro-L-arginine methyl ester (n = 8), but was virtually absent in chronically guanethidine-sympathectomized rats (n = 12). 5. In conclusion, the mesenteric blood flow of conscious rats exhibits a major slow oscillation that originates in the mesenteric vasculature and is not secondary to the activity of the major pressor systems or to the cyclic release of NO. Because of the strong attenuation of the oscillation in sympathectomized rats, we suggest that adrenergic vasoconstrictor tone plays a permissive role in its genesis. 相似文献
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