The invention provides an improved host strain for production of desired protein.

Described are compositions and methods relating to modified yeast that over-express MIG transcriptional regulator polypeptides. The yeast produces a deceased amount of acetate compared to parental cells. Such yeast is particularly useful for large-scale ethanol production from starch substrates where acetate in an undesirable end product.

Described herein are recombinant host organisms expressing a sugar transporter and an active pentose fermentation pathway. Also described are processes for producing a fermentation product, such as ethanol, from starch or cellulosic-containing material with the recombinant host organisms.

The present invention relates to isolated polypeptides having beta-glucanase activity, catalytic domains, carbohydrate binding modules and polynucleotides encoding the polypeptides, catalytic domains or carbohydrate binding modules. The invention also relates to nucleic acid constructs, vectors, and host cells comprising the polynucleotides as well as methods of producing and using the polypeptides, catalytic domains or carbohydrate binding modules. The present invention further relates to processes for producing fermentation products from starch-containing or cellulosic-containing material, as well as an enzyme blend or composition, or a recombinant host cell or fermenting organism suitable for use in processes of the invention.

Embodiments provide a modified microbe capable of growing in or fermenting a solution, or lignocellulosic hydrolysate, comprising ferulic acid and/or coniferyl aldehyde. The microbe has one or more modifications to provide: (a) a decrease in copy number or expression of a BNA7 gene; (b) an increase in copy number or expression of one or more pentose phosphate pathway genes; and/or (c) localization of one or more products of the pentose phosphate pathway genes to the mitochondria or endoplasmic reticulum. Also provided is a microbe having modified expression or copy number of BNA7 and/or one or more of the pentose phosphate pathway genes. The pentose phosphate pathway genes may in certain embodiments be selected from at least one of ZWF1, TKL1, RPE1 and GND1. Also provided is a method for fermenting a substrate comprising ferulic acid and/or coniferyl aldehyde to produce a fermentation product.

The present relates to a yeast strain and use thereof and a preparation method of ergothioneine. The present invention relates to the field of biotechnology. The yeast strain is obtained through traditional mutagenesis and screening, and its deposit number is CCTCC M 20211505. The present invention provides a preparation method of ergothioneine. The preparation method of ergothioneine comprises: mixing the aforementioned yeast strain with a fermentation medium and an optional substrate, fermenting, and then homogenizing cells and separating to obtain ergothioneine. The aforementioned yeast strain can be used for the preparation of ergothioneine, and the ergothioneine prepared by the yeast strain has the advantages of high yield, low cost and fast preparation speed. The preparation method has the advantages of low cost, environmental protection, high product quality, high yield, less impurities, less drug residues, short fermentation period and the like.

The invention provides a hybrid ale strain of Saccharomyces cerevisiae and uses thereof.

The invention concerns a strain of Saccharomyces bayanus subsp. uvarum identified as SERIUS and deposited at the DBVPG with deposit number 36P. The invention further concerns the use of the strain of Saccharomyces bayanus subsp. uvarum identified as SERIUS (DBVPG 36P) as a food inoculate in the production of foods obtained through alcoholic fermentation, and a selection method for yeast strains of the group Saccharomyces adapted to alcoholic fermentation, particularly of grape, consisting of an isolation step for such yeasts from flowers.

Provided are a novel yeast strain producing glutathione and a method of producing glutathione using the same.

The invention relates to a process for the production of ethanol, the process comprising fermenting of a carbon source composition with a recombinant yeast,

wherein the carbon source composition comprises at least glucose and arabinose; and
wherein the recombinant yeast comprises arabinose isomerase activity, ribulokinase activity, ribulose phosphate epimerase activity, glycerol uptake activity and glycerol conversion capacity; and
wherein the recombinant yeast further comprises a genetic modification leading to the reduction, downregulation, inhibition and/or elimination of the activity of a homologous protein with glycerol-efflux activity; and
wherein each of the glucose and the arabinose is converted into ethanol.

In addition, the invention relates to a recombinant yeast that can be used in such a process.