Co-Immobilization of GOD & HRP on Y-Shaped DNA Scaffold and the Regulation of Inter-Enzyme Distance.

In multienzymes cascade reaction, the inter-enzyme spacing is supposed to be a factor affecting the cascade activity. Here, a simple and efficient Y-shaped DNA scaffold is assembled using two partially complementary DNA single strands on magnetic microspheres, which is used to coimmobilize glucose oxidase (GOD) and horseradish peroxidase (HRP). As a result, on poly(vinyl acetate) magnetic microspheres (PVAC), GOD/HRP-DNA@PVAC multienzyme system is obtained, which can locate GOD and HRP accurately and control the inter-enzyme distance precisely.

Biosynthesis of benzyl cinnamate using an efficient immobilized lipase entrapped in nano-molecular cages.

To improve the performance of lipase in biosynthesis of benzyl cinnamate, a new immobilized lipase by entrapping enzyme into nano-molecular cages was designed. Consequently, the entrapped lipase showed a robust immobilization, which diminished the leakage of lipase notably in use. Moreover, the entrapped lipase exhibited higher activity (57.

PEI-crosslinked lipase on the surface of magnetic microspheres and its characteristics.

Here, PEI@PMMA microspheres were prepared by grafting polyethyleneimine (PEI) on poly(methyl methacrylate) (PMMA) magnetic microspheres and successfully used to immobilize lipase. The results showed that PEI@PMMA microspheres had strongly adsorbed lipase (49.1 mg/g microsphere) via electrostatic attraction.

Fabricating cholyglycine-glucose-6-phosphate dehydrogenase conjugates for cholyglycine detection.

To establish cholyglycine (CG) detection via enzyme-multiplied immunoassay technique (EMIT), glucose-6-phosphate dehydrogenase (G6PD) was used as a reporter enzyme to prepare hapten-enzyme conjugate. Gel electrophoresis and UV scanning demonstrated that G6PD was successfully labeled with cholyglycine, and CG-G6PD conjugate was obtained. Furthermore, the effects of various parameters on the preparation of CG-G6PD conjugates were investigated.

[Effects of clipping on nitrogen allocation strategy and compensatory growth of Leymus chinensis under saline-alkali conditions].

Soil salinization and overgrazing are two main factors limiting animal husbandry in the Songnen Grassland. Leymus chinensis is a dominant rhizome grass, resistant to grazing as well as to-lerant to salt stress. Foliar labeled with N-urea was used to study the nitrogen allocation strategy and compensatory growth response to clipping under saline-alkali conditions.

Synthesis of benzyl cinnamate by enzymatic esterification of cinnamic acid.

In this study, lipase catalysis was successfully applied in synthesis of benzyl cinnamate through esterification of cinnamic acid with benzyl alcohol. Lipozyme TLIM was found to be more efficient for catalyzing this reaction than Novozym 435. In order to increase the yield of benzyl cinnamate, several media, including acetone, trichloromethane, methylbenzene, and isooctane, were used in this reaction.

High-yield synthesis of bioactive ethyl cinnamate by enzymatic esterification of cinnamic acid.

In this paper, Lipozyme TLIM-catalyzed synthesis of ethyl cinnamate through esterification of cinnamic acid with ethanol was studied. In order to increase the yield of ethyl cinnamate, several media, including acetone, isooctane, DMSO and solvent-free medium, were investigated in this reaction. The reaction showed a high yield by using isooctane as reaction medium, which was found to be much higher than the yields reported previously.

Kinetic and thermodynamic investigation of enzymatic L-ascorbyl acetate synthesis.

Kinetics and thermodynamics of lipase-catalyzed esterification of l-ascorbic acid in acetone were investigated by using vinyl acetate as acyl donor. The results showed that l-ascorbic acid could generate inhibition effect on lipase activity. A suitable model, Ping-Pong Bi-Bi mechanism having substrate inhibition, was thus introduced to describe the enzymatic kinetics.

Kinetic biosynthesis of L-ascorbyl acetate by immobilized Thermomyces lanuginosus lipase (Lipozyme TLIM).

Thermomyces lanuginosus lipase (Lipozyme TLIM)-catalyzed esterification of L-ascorbic acid was studied. It was suggested that Lipozyme TLIM was a suitable biocatalyst for enzymatic esterification of L-ascorbic acid. Three solvents were investigated for the reaction, and acetone was found to be a suitable reaction medium.

Resource manipulation effects on net primary production, biomass allocation and rain-use efficiency of two semiarid grassland sites in Inner Mongolia, China.

Productivity of semiarid grasslands is affected by soil water and nutrient availability, with water controlling net primary production under dry conditions and soil nutrients constraining biomass production under wet conditions. In order to investigate limitations on plants by the response of root-shoot biomass allocation to water and nitrogen (N) availability, a field experiment, on restoration plots with rainfed, unfertilized control plots, fertilized plots receiving N (25 kg urea-N ha(-1)) and water (irrigation simulating a wet season), was conducted at two sites with different grazing histories: moderate (MG) and heavy (HG) grazing. Irrigation and N addition had no effect on belowground biomass.

Effect of hydrophobic/hydrophilic characteristics of magnetic microspheres on the immobilization of BSA.

Core-shell magnetic poly(styrene-acrylamide-acrylic acid) microspheres with carboxyl groups were successfully synthesized via dispersion copolymerization in the presence of nano-particle of Fe(3)O(4). The microspheres were characterized by FTIR spectra. They were used as carrier to immobilize bovine serum albumin (BSA).

Structure monomorphism of RNA G-quadruplex that is independent of surrounding condition.

G-quadruplex structures in nucleic acids have become attractive targets of study because their distinct structural forms may have diverse biological functions. Here, we preliminary investigated the structure and thermodynamics of G-quadruplexes of RNAs and corresponding DNAs of the same sequence by CD, UV and PAGE. Structural analysis demonstrated that the RNA sequences folded into a parallel-stranded G-quadruplex independently of surrounding conditions with different cations (K(+) and Na(+)) under both dilute and molecular crowding conditions.

[Research advances in the responses of carbohydrates in grassland plants to environmental stress].

Carbohydrates are the main energy materials for plant metabolic activities. Enough carbohydrates stored in roots are necessary for plant re-growth, its tolerance against environmental stress, and the maintenance of grassland ecosystem stability. This paper summarized the influences of grazing, nitrogen fertilization, salt stress, drought, low temperature, and low oxygen stress on the carbohydrates in grassland plants, and introduced the advanced methods of measuring root carbohydrates.