The present invention provides a resin capable of contributing greatly to solve environmental problems and problems related to exhaustion of fossil fuel resources and having physical properties suited for practical use. The polyester according to the present invention has a diol and a dicarboxylic acid as constituent components and has an amount of terminal acid of 50 equivalents/metric ton or less.

A method for preparing a universal microbial medium by eutectic system-based cellulose liquefaction. The method includes: 1) mixing ionic liquid and cellulose, where the ionic liquid is preheated; 2) mixing a mixed solution I obtained in step 1) and distilled water; 3) filtering a mixed solution II obtained in step 2); and 4) diluting a filtrate obtained in step 3) with the distilled water to obtain the carbon source. A medium prepared from the carbon source can be used for culturing various microorganisms, with a desirable growth state of the microorganisms.

The present invention provides a resin capable of contributing greatly to solve environmental problems and problems related to exhaustion of fossil fuel resources and having physical properties suited for practical use.

The polyester according to the present invention has a diol and a dicarboxylic acid as constituent components and has an amount of terminal acid of 50 equivalents/metric ton or less.

The present invention provides a resin capable of contributing greatly to solve environmental problems and problems related to exhaustion of fossil fuel resources and having physical properties suited for practical use. The polyester according to the present invention has a diol and a dicarboxylic acid as constituent components and has an amount of terminal acid of 50 equivalents/metric ton or less.

A method for producing RNA is provided. Objective RNA is produced by culturing a coryneform bacterium having an expression unit for the objective RNA, which has been modified so that the activity of ribonuclease III is reduced, in a medium, to express the objective RNA and accumulate the objective RNA in cells of the bacterium, and collecting the objective RNA from the cells.

The invention relates to the technical field of industrial biotechnologies, and discloses a keratinase mutant with improved thermal stability and use thereof. The asparagine at position 181, the tyrosine at position 217, and the serine at position 236 in the keratinase derived from Brevibacillus parabrevis (CGMCC No. 10798) are engineered by site-direction mutation, and combined at random to obtain an enzyme with combined mutations. The invention realizes the remarkable improvement of the thermal stability of keratinase, and has good theoretical value and application prospect.

The present invention provides a resin capable of contributing greatly to solve environmental problems and problems related to exhaustion of fossil fuel resources and having physical properties suited for practical use.

The polyester according to the present invention has a diol and a dicarboxylic acid as constituent components and has an amount of terminal acid of 50 equivalents/metric ton or less.

An aliphatic dicarboxylic acid, an aliphatic diol or a derivatives thereof and/or as succinic acid, a butane diol, or a both-hydroxy-terminated polyether having the number of carbon atoms of 4 to 1000, each of which is derived from a biomass resource and has nitrogen atoms in an amount of 0.01 to 100 ppm. Products and methods using these materials are also provided.

The invention relates to the technical field of industrial biotechnologies, and discloses a keratinase mutant with improved thermal stability and use thereof. The asparagine at position 181, the tyrosine at position 218, and the serine at position 236 in the keratinase derived from Brevibacillus parabrevis (CGMCC No. 10798) are engineered by site-direction mutation, and combined at random to obtain an enzyme with combined mutations. The invention realizes the remarkable improvement of the thermal stability of keratinase, and has good theoretical value and application prospect.

A recombinant bacterium for producing L-lysine, a construction method thereof, and a method for producing L-lysine by using the recombinant bacterium. The recombinant bacterium has increased expression and/or activity of asparaginase compared to a starting bacterium.