Provided herein are recombinant host cells having an active 3-Hydroxypropionic Acid (3-HP) pathway wherein the host cells comprise a disruption to an endogenous gene that encodes for a pyruvate reductase. Also described are methods of making the host cells, and methods using the cells to produce 3-HP and derivatives of 3-HP (e.g., acrylic acid).

A method of enhancing vanillin resistance of Saccharomyces cerevisiae, including: knocking out SNG1 gene from a genome of Saccharomyces cerevisiae. This application further provides a mutant of SNG1 gene of Saccharomyces cerevisiae including the nucleotide sequence shown in SEQ ID NO: 1, where the sequence shown in SEQ ID NO: 1, from left to right, consists of a ?18?+203 bp fragment of SNG1 gene of Saccharomyces cerevisiae, a nucleotide fragment of loxp-KanMX4-loxp and a +1446?+1644 bp fragment of the SNG1 gene of Saccharomyces cerevisiae.

An isolated nucleic acid encoding a leader, which has a specific sequence, an isolated leader peptide encoded by such nucleic acid, an expression cassette comprising such nucleic acid encoding a leader operably linked to a nucleic acid sequence encoding a POI, a recombinant yeast host cell or a vector comprising such expression cassette, a method of producing a POI in such yeast host cell, and further the use of the specific nucleic acid for the secretion of a POI from a host cell and/or to increase the secretion of a POI from a host cell.

The present invention describes the expression cassette for transforming eukaryotic cell which comprises the peptide encoding non-natural sequence of nucleotides with xylose isomerase feature (SEQ ID NO: 1), optionally also comprising other genes of pentose phosphate route. Additionally, it is described the microorganism filed under the number DSM28739, which, in addition to the above-mentioned modifications, also present genetic modifications from adaptive evolution. The described microorganism shows efficient consumption of xylose and conversion of ethanol when compared to its correspondent without said genetic modifications and mutations from evolution. It is also described the process for producing biofuels e biochemicals, preferably ethanol, mainly from the lignocellulosic portion of the vegetal biomass. Biofuels, preferably ethanol, and biochemicals produced by the process of the invention are also described.

The invention relates to a recombinant yeast cell, in particular a transgenic yeast cell, functionally expressing one or more recombinant, in particular heterologous, nucleic acid sequences encoding ribulose-1,5-biphosphate carboxylase oxygenase (Rubisco) and phosphoribulokinase (PRK). The invention further relates to the use of carbon dioxide as an electron acceptor in a recombinant chemotrophic micro-organism, in particular a eukaryotic micro-organism.

Provided herein are compositions and methods of integrating one or more exogenous donor nucleic acids into one or more exogenous landing pads engineered into a host cell's genome. In certain embodiments, the exogenous landing pads and exogenous donor nucleic acids comprise standardized, compatible homology regions so that exogenous donor nucleic acids can integrate into any of the landing pads, independent of the genomic sequences surrounding the landing pads. In certain embodiments, the methods comprise contacting the host cell comprising landing pads with one or more exogenous donor nucleic acids, and a nuclease capable of causing a double-strand break within the landing pads, and recovering a host cell comprising one or more exogenous donor nucleic acids integrated in any of the landing pads.

A yeast cell having a reduced level of activity of NAD dependent glyceraldehyde-3-phosphate dehydrogenase (GAPDH) has at least one exogenous gene encoding NADP dependent GAPDH and/or has up-regulation of at least one endogenous gene expressing NADP dependent GAPDH, wherein combined expression of the enzymes NADP dependent GAPDH, PDC, ALD, ACS, ACC* and MCR in said host cell increases metabolic flux towards 3-HP via malonyl-CoA compared to an otherwise similar yeast cell lacking said genetic modification.

The present disclosure relates to methods for producing recombinant proteins, as well as compositions used in and produced by such methods. Specifically, the present disclosure relates to methods for producing high secreted yields of recombinant proteins, and the compositions provided herein include recombinant host cells that comprise polynucleotide sequences encoding proteins operably linked to at least 2 distinct secretion signals.

The invention relates to a yeast strain and to a method for microbial production of pentacyclic triterpenes and/or triterpenoids in yeast. More particularly, the invention relates to a modified yeast strain for production of pentacyclic triterpenoids comprising at least one copy of a gene for encoding an oxidosqualene cyclase, at least one copy of a gene for encoding an NADPH-cytochrome P450 reductase and/or at least one copy of a gene for encoding a cytochrome P450 monooxygenase.

The disclosure provides engineered enzymes that are capable of mediating the conversion of acetoacetyl-CoA to acetoacetate that do not react with the same order of magnitude with acetyl-CoA as they do with acetoacetyl-CoA (e.g., the engineered enzymes have a specific acetoacetyl-CoA hydrolase activity at least 10 higher than its acetyl-CoA hydrolase activity). Additionally, the disclosure provides modified microorganisms that comprise the engineered enzymes disclosed herein and methods of using same.