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Xue Bai Dongdong Meng Xinlei Wei Xigui Zhou Fuping Lu Chun You 《Biotechnology and bioengineering》2019,116(10):2710-2719
(−)-vibo-Quercitol (VQ: 1L-1,2,4/3,5-cyclohexanepentol), a form of deoxyinositol, is an alternative chiral building block in the synthesis of bioactive compounds to control diabetes. In this study, an adenosine triphosphate-free in vitro synthetic enzymatic biosystem composed of five enzymes (including one enzyme for NADH regeneration) was constructed to produce VQ from maltodextrin in one-pot. After optimization of reaction conditions, 7.6 g/L VQ was produced from 10 g/L maltodextrin with a product yield (mol/mol) of 77%, and 25.3 g/L VQ with a purity of 87% was produced from 50 g/L maltodextrin through simple scaling up of this nonfermentative enzymatic biosystem. Therefore, this study provides an economical and environmentally friendly method for the envisioned quercitol biosynthesis. 相似文献
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Chow Yen Mei Tey Beng Ti Mohammad Nordin Ibrahim Arbakariya Ariff Ling Tau Chuan 《Biotechnology and Bioprocess Engineering》2005,10(3):284-288
Baker’s yeast was disrupted in a 1.4-L stainless steel horizontal bead mill under a continuous recycle mode using 0.3 mm diameter
zirconia beads as abrasive. A single pass in continuous mode bead mill operation liberates half of the maximally released
protein. The maximum total protein release can only be achieved after passaging the cells 5 times through the disruption chamber.
The degree of cell disruption was increased with the increase in feeding rate, but the total protein release was highest at
the middle range of feeding rate (45 L/h). The total protein release was increased with an increase in biomass concentration
from 10 to 50% (w/v). However, higher heat dissipation as a result of high viscosity of concentrated biomass led to the denaturation
of labile protein such as glucose 6-phosphate dehydrogenase (G6PDH). As a result the highest specific activity of G6PDH was
achieved at biomass concentration of 20% (ww/v). Generally, the degree of cell disruption and total protein released were
increased with an increase in impeller tip speed, but the specific activity of G6PDH was decreased substantially at higher
impeller tip speed (14 m/s). Both the degree of cell disruption and total protein release increased, as the bead loading increased
from 75 to 85% (v/v). Hence, in order to obtain a higher yield of labile protein such as G6PDH, the yeast cell should not
be disrupted at biomass concentration and impeller tip speed higher than 20% (w/v) and 10 m/s, respectively. 相似文献
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When chlorophyll-lipid microvesicles under aerobic conditions were illuminated with intense white light; (a) the media became more acidic, (b) the lipid microvesicles bleached from green to yellow and (c) oxygen was taken up from the bathing solution. The bleaching, which was followed spectrophotometrically, resulted in a decrease in the total chlorophyll content as well as the chlorophyll a : b ratio. Some bleaching, which was slowed by the presence of electron donors, occurred in the dark. Water-soluble electron donors were shown to increase the rate of oxygen consumption with the order of effectiveness being; control = KI = ferrocyanide < hydroquinone < thiourea < cysteine < NADH < Fe+2 < ascorbic acid < phenylhydrazine. Chlorophyll mediated electron transfer from donors to oxygen is similar to that of the well known Krasnovsky reactions (in organic solvents and aqueous detergent suspensions) and Mehler reaction (in chloroplast suspension). Electron acceptors and β-carotene had no effect on the oxygen consumption. Lipid-soluble quinones and α-tocopherol affected the oxygen reaction to different extents. The reactions reported here are closely related to those previously described for chlorophyll in organic solvents, “quantasomes” and chloroplasts. The demonstration of these reactions in chlorophyll-lipid microvesicles is an advance in making the chlorophyll-lipid microvesicles a better model of the thylakoid membrane. 相似文献
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Large-scale purification of a Dictyostelium discoideum cell surface glycoprotein, which is anchored in the membrane via a glycosylphosphatidylinositol (GPI) moiety, is described. The purification protocol involved four steps: separation of crude cell membranes by low-speed centrifugation, delipidization of these membranes using acetone, extraction of the membrane proteins using the detergent Octyl beta-D-thioglucopyranoside (OTP), and purification of a specific membrane protein by monoclonal antibody immunoaffinity chromatography. The protein purified, PsA (prespore-specific antigen), is a developmentally regulated membrane glycoprotein found on a subset of cells from the cellular slime mould, D. discoideum. The protocol provides an efficient, economical, and technically simple way to purify GPI proteins in sufficient quantities for structural and functional studies. PsA was recovered at a yield of about 60%; with a purity of 97%, the extraction of 1 x 10(10) cells (1.1 g dry weight) yielded about 0.5 mg PsA glycoprotein. Techniques are described for growing kilogram quantities of D. discoideum cells in stainless steel trays at little cost. D. discoideum has considerable potential as a novel expression system for the production of foreign membrane-associated proteins. The purification strategy provides a means of purifying other GPI proteins, including those produced by protein engineering techniques. 相似文献
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