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Metabolic flux modeling of detoxification of acetic acid by Ralstonia eutropha at slightly alkaline pH levels 总被引:8,自引:0,他引:8
Ralstonia eutropha grows on and produces polyhydroxyalkanoates (PHAs) from fermentation acids. Acetic acid, one major organic acid from acidogenesis of organic wastes, has an inhibitory effect on the bacterium at slightly alkaline pH (6 g HAc/L at pH 8). The tolerance of R. eutropha to acetate, however, was increased significantly up to 15 g/L at the slightly alkaline pH level with high cell mass concentration. A metabolic cell model with five fluxes is proposed to depict the detoxification mechanism including mass transfer and acetyl-CoA formation of acetic acid and the formation of three final metabolic products, polyhydroxybutyrate (PHB), active biomass, and CO(2). The fluxes were measured under different conditions such as cell mass concentration, acetic acid concentration, and medium composition. The experimental results indicate that the acetate detoxification by high cell mass concentration is attributed to the increased fluxes at high extracellular acetate concentrations. The fluxes could be doubled to reduce and hence detoxify the accumulated intracellular acetate anions. 相似文献
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壳聚糖的化学改性及其在生物医药领域的应用进展 总被引:1,自引:0,他引:1
本文综述了近年来壳聚糖的酰化、羧甲基化、接枝、烷基化和交联等化学改性方法及其在生物医用高分子方面的应用进展,总结了壳聚糖改性及其应用过程中存在的问题并对其发展趋势作了预测。 相似文献
14.
Kazuhiko Ishihara Yusuke Goto Madoka Takai Ryosuke Matsuno Yuuki Inoue Tomohiro Konno 《Biochimica et Biophysica Acta (BBA)/General Subjects》2011
Background
Materials with excellent biocompatibility on interfaces between artificial system and biological system are needed to develop any equipments and devices in bioscience, bioengineering and medicinal science. Suppression of unfavorable biological response on the interface is most important for understanding real functions of biomolecules on the surface. So, we should design and prepare such biomaterials.Scoop of review
One of the best ways to design the biomaterials is generated from mimicking a cell membrane structure. It is composed of a phospholipid bilayered membrane and embedded proteins and polysaccharides. The surface of the cell membrane-like structure is constructed artificially by molecular integration of phospholipid polymer as platform and conjugated biomolecules. Here, it is introduced as the effectiveness of biointerface with highly biological functions observed on artificial cell membrane structure.Major conclusions
Reduction of nonspecific protein adsorption is essential for suppression of unfavorable bioresponse and achievement of versatile biomedical applications. Simultaneously, bioconjugation of biomolecules on the phospholipid polymer platform is crucial for a high-performance interface.General significance
The biointerfaces with both biocompatibility and biofunctionality based on biomolecules must be installed on advanced devices, which are applied in the fields of nanobioscience and nanomedicine.This article is part of a Special Issue entitled Nanotechnologies - Emerging Applications in Biomedicine. 相似文献15.
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Vishnu Vijayakumar Yuhan Zhong Viktoriia Untilova Mounib Bahri Laurent Herrmann Laure Biniek Nicolas Leclerc Martin Brinkmann 《Liver Transplantation》2019,9(24)
Here, an effective design strategy of polymer thermoelectric materials based on structural control in doped polymer semiconductors is presented. The strategy is illustrated for two archetypical polythiophenes, e.g., poly(2,5‐bis(3‐dodecyl‐2‐thienyl)thieno[3,2‐b]thiophene) (C12‐PBTTT) and regioregular poly(3‐hexylthiophene) (P3HT). FeCl3 doping of aligned films results in charge conductivities up to 2 × 105 S cm?1 and metallic‐like thermopowers similar to iodine‐doped polyacetylene. The films are almost optically transparent and show strongly polarized near‐infrared polaronic bands (dichroic ratio >10). The comparative study of structure–property correlations in P3HT and C12‐PBTTT identifies three conditions to obtain conductivities beyond 105 S cm?1: i) achieve high in‐plane orientation of conjugated polymers with high persistence length; ii) ensure uniform chain oxidation of the polymer backbones by regular intercalation of dopant molecules in the polymer structure without disrupting alignment of π‐stacked layers; and iii) maintain a percolating nanomorphology along the chain direction. The highly anisotropic conducting polymer films are ideal model systems to investigate the correlations between thermopower S and charge conductivity σ. A scaling law S ∝ σ?1/4 prevails along the chain direction, but a different S ∝ ?ln(σ) relation is observed perpendicular to the chains, suggesting different charge transport mechanisms. The simultaneous increase of charge conductivity and thermopower along the chain direction results in a substantial improvement of thermoelectric power factors up to 2 mW m?1 K?2 in C12‐PBTTT. 相似文献
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质粒pRSET-A前导肽串联多聚体的构建及其多克隆抗体制备* 总被引:1,自引:0,他引:1
质粒pRSET-A是一个常用的高效原核表达载体,编码一N端含组氨酸标签(6×His)的34aa前导肽序列,以方便利用抗组氨酸标签抗体鉴定或纯化所表达的重组蛋白。本实验设计一对两侧含编码疏水性氨基酸密码子的引物,经过扩增前导序列10~34aa基因序列,并重新克隆入质粒pRSET-A构建串联二聚体后,再利用质粒pRSET-A的BamH I / Bgl II同尾酶克隆位点,经一系列简单的酶切和连接,快速构建这一前导肽中不含组氨酸标签序列的串联多聚体基因,并成功表达其六聚体重组蛋白。将此重组蛋白主动免疫山羊,获得了能够特异地识别pRSET-A编码的N端前导肽序列的抗体。结果显示,所制备的羊抗10~34aa前导肽抗体能够识别pRSET-A指导表达的含有完整前导肽的重组蛋白,但不能识别不含10~34aa序列的重组蛋白;同时,利用同位酶技术可以快速高效构建短肽的串联多聚体以制备具有高免疫原性的亚单位疫苗或免疫调控物质。 相似文献
20.
Electrogenerated chemiluminescence (ECL) of a ruthenium complex polymer modified carbon paste electrode and its analytical applications were investigated. The ruthenium complex polymer was prepared using bis(2,2‐bipyridine) (4,4‐dicarboxy‐2,2‐bipyridine) ruthenium(II). The ECL behaviours of ruthenium complex polymer modified carbon paste electrode were investigated in the absence and presence of tripropylamine (TPA). The modified carbon paste electrode exhibited long‐term stability and fine reproducibility. The ECL intensity of the modified carbon paste electrode was linear with the concentration of TPA in the range 2.0 × 10–6–3.8 × 10–3 mol/L, with a detection limit (S:N = 3) of 6 × 10–7 mol/L. It was also found that raceanisodamine could enhance the ECL intensity of the modified electrode. The ECL intensity of the modified carbon paste electrode was linear with the concentration of raceanisodamine in the range 1.1 × 10–5–6.0 × 10–4 mol/L, with a detection limit (S:N = 3) of 6 × 10–6 mol/L. This work demonstrates that the entrapment of ruthenium complex in a highly cross‐linked polymer is a promising approach to construct an ECL modified electrode with long‐term stability and fine reproducibility. The modified electrode designed has a potential application in the ECL detector. Copyright © 2008 John Wiley & Sons, Ltd. 相似文献