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Gailus-Durner V Fuchs H Becker L Bolle I Brielmeier M Calzada-Wack J Elvert R Ehrhardt N Dalke C Franz TJ Grundner-Culemann E Hammelbacher S Hölter SM Hölzlwimmer G Horsch M Javaheri A Kalaydjiev SV Klempt M Kling E Kunder S Lengger C Lisse T Mijalski T Naton B Pedersen V Prehn C Przemeck G Racz I Reinhard C Reitmeir P Schneider I Schrewe A Steinkamp R Zybill C Adamski J Beckers J Behrendt H Favor J Graw J Heldmaier G Höfler H Ivandic B Katus H Kirchhof P Klingenspor M Klopstock T Lengeling A 《Nature methods》2005,2(6):403-404
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Miguel A. Providenti Hung Lee Jack T. Trevors 《Journal of industrial microbiology & biotechnology》1993,12(6):379-395
Summary The focus of this review is to examine some of the reasons biodegradation may not take place in the environment even though its occurrence in the laboratory has been demonstrated. Some approaches for dealing with chemical persistence will be discussed. In addition, the potential of bioremediation as an in situ clean-up technology will be considered. 相似文献
115.
When optimization is used to evaluate a joint contact model's ability to reproduce experimental measurements, the high computational cost of repeated contact analysis can be a limiting factor. This paper presents a computationally-efficient response surface optimization methodology to address this limitation. Quadratic response surfaces were fit to contact quantities (contact force, maximum pressure, average pressure, and contact area) predicted by a discrete element contact model of the tibiofemoral joint for various combinations of material modulus and relative bone pose (i.e., position and orientation). The response surfaces were then used as surrogates for costly contact analyses in optimizations that minimized differences between measured and predicted contact quantities. The methodology was evaluated theoretically using six sets of synthetic (i.e., computer-generated) contact data, and practically using one set of experimental contact data. For the synthetic cases, the response surface optimizations recovered all contact quantities to within 3.4% error. For the experimental case, they matched all contact quantities to within 6.3% error except for maximum contact pressure, which was in error by up to 50%. Response surface optimization provides rapid evaluation of joint contact models within a limited range of relative bone poses and can help identify potential weaknesses in contact model formulation and/or experimental data quality. 相似文献
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Wisselink HW Toirkens MJ del Rosario Franco Berriel M Winkler AA van Dijken JP Pronk JT van Maris AJ 《Applied and environmental microbiology》2007,73(15):4881-4891
For cost-effective and efficient ethanol production from lignocellulosic fractions of plant biomass, the conversion of not only major constituents, such as glucose and xylose, but also less predominant sugars, such as l-arabinose, is required. Wild-type strains of Saccharomyces cerevisiae, the organism used in industrial ethanol production, cannot ferment xylose and arabinose. Although metabolic and evolutionary engineering has enabled the efficient alcoholic fermentation of xylose under anaerobic conditions, the conversion of l-arabinose into ethanol by engineered S. cerevisiae strains has previously been demonstrated only under oxygen-limited conditions. This study reports the first case of fast and efficient anaerobic alcoholic fermentation of l-arabinose by an engineered S. cerevisiae strain. This fermentation was achieved by combining the expression of the structural genes for the l-arabinose utilization pathway of Lactobacillus plantarum, the overexpression of the S. cerevisiae genes encoding the enzymes of the nonoxidative pentose phosphate pathway, and extensive evolutionary engineering. The resulting S. cerevisiae strain exhibited high rates of arabinose consumption (0.70 g h(-1) g [dry weight](-1)) and ethanol production (0.29 g h(-1) g [dry weight](-1)) and a high ethanol yield (0.43 g g(-1)) during anaerobic growth on l-arabinose as the sole carbon source. In addition, efficient ethanol production from sugar mixtures containing glucose and arabinose, which is crucial for application in industrial ethanol production, was achieved. 相似文献
118.
Shtyrlin Valery G. Borissenok Valery A. Serov Nikita Yu. Simakov Vladimir G. Bragunets Vyacheslav A. Trunin Ivan R. Tereshkina Irina A. Koshkin Sergey A. Bukharov Mikhail S. Gilyazetdinov Edward M. Shestakov Evgeny E. Sirotkina Anna G. Zakharov Alexey V. 《Origins of life and evolution of the biosphere》2019,49(1-2):1-18
Origins of Life and Evolution of Biospheres - Syntheses under shock in nitrogen bubbled samples of the water – formamide – bicarbonate – sodium hydroxide system at... 相似文献
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Cells from a mouse B lymphoma were transfected by DQ alpha and DQ beta genes derived from a DR4 haplotype. Quantitatively, the resulting expression of human class II molecules was similar to that of human B lymphoblastoid cell lines. Qualitatively, the transformant class II molecules differed from normal class II molecules in their carbohydrate moiety. As for their antigenic specificity, they were shown to carry two determinants previously identified on DQ molecules controlled by DR4 haplotypes, i. e., DQw3 and DCHON. The transformant molecules did not carry a third DR4-associated specificity, DC5 (equivalent to TA10), and must possess a structure allelic to DC5. However, no corresponding alloantigenic specificity was detected by a screening of relevant alloantisera. 相似文献