The present invention relates to methods and systems for the directed evolution of macromolecules. The methods involve increasing the mutation rate of an evolving organism comprising a gene of interest that encodes a gene product lacking a desired activity, whereby a mutated gene of interest is produced that encodes an evolved gene product comprising the desired activity and causing a suppression of mutagenesis. The systems comprise an evolving organism comprising a gene of interest encoding a gene product to be evolved, a host organism, and optionally, a lagoon, a cellstat and/or a suitable growth medium.

The present invention relates to methods and systems for the directed evolution of macromolecules. The methods involve increasing the mutation rate of an evolving organism comprising a gene of interest that encodes a gene product lacking a desired activity, whereby a mutated gene of interest is produced that encodes an evolved gene product comprising the desired activity and causing a suppression of mutagenesis. The systems comprise an evolving organism comprising a gene of interest encoding a gene product to be evolved, a host organism, and optionally, a lagoon, a cellstat and/or a suitable growth medium.

Novel methods that may be used for the manufacture of plant alkaloid compounds and novel polynucleotide compounds are provided. The plant alkaloid compounds are useful as medicinal compounds.

The present invention relates functional ligands to target molecules, particularly to functional nucleic acids and modifications thereof, and to methods for simultaneously generating, for example, numerous different functional biomolecules, particularly to methods for generating numerous different functional nucleic acids against multiple target molecules simultaneously. The present invention further relates to functional ligands which bind with affinity to target molecules, such as molecules used proteins or peptides, such as LL37.

The present invention relates functional ligands to target molecules, particularly to functional nucleic acids and modifications thereof, and to methods for simultaneously generating, for example, numerous different functional biomolecules, particularly to methods for generating numerous different functional nucleic acids against multiple target molecules simultaneously. The present invention further relates to functional ligands which bind with affinity to target molecules, such as molecules used proteins or peptides, such as LL37.

The present invention relates to a modified yeast strain of Saccharomyces cerevisiae having MCC accession number 0069 with osmo-tolerant, thermo-tolerant, ethanol tolerant and self-flocculation properties. Further, the present invention relates to a method for obtaining modified yeast strain. The present invention also relates to a method of production of ethanol at high temperature using said yeast strain. The ethanol produced by the method disclosed in the present invention is used as fuel.

The present invention relates to a novel method of generating libraries of polynucleotides encoding a framework region and at least one adjacent complementarity determining region (CDR) of an antibody of interest. These libraries are suitable for use in affinity maturation procedures in order to obtain maturated antibodies with improved characteristics compared to the parent antibody.

A general method and recombinant nucleic acid sequences, by means which the method selects a recombinant protein containing an FHA domain for binding a target molecule from a library proteins with a high-throughput method of creating protein variations within the FHA domain in non-conserved or non-structural sequences of the FHA scaffold, and the library may also be in the form of a phagemid or phage library wherein the ALP nucleic acid sequence is inserted into a vector capable of allowing the vector and expressed ALP protein from being virally packaged, and the recombinant nucleic acid sequences which are randomly mutated at varying non-conserved or non-structural FHA domain sequences.

A general method and recombinant nucleic acid sequences, by means which the method selects a recombinant protein containing an FHA domain for binding a target molecule from a library proteins with a high-throughput method of creating protein variations within the FHA domain in non-conserved or non-structural sequences of the FHA scaffold, and the library may also be in the form of a phagemid or phage library wherein the ALP nucleic acid sequence is inserted into a vector capable of allowing the vector and expressed ALP protein from being virally packaged, and the recombinant nucleic acid sequences which are randomly mutated at varying non-conserved or non-structural FHA domain sequences.

According to a first aspect of the invention, a method for the generation of a cell line is provided, comprising the steps of (a) providing a plurality of mammalian B cells, wherein each of the plurality of B cells comprises a transgenic genomic DNA sequence encoding a marker protein inserted into an endogenous immunoglobulin locus comprised in said B cell, and wherein the transgenic genomic DNA sequence is amenable to cleavage by a site directed nuclease, particularly Cas9; (b) replacing the transgenic genomic DNA sequence encoding a marker protein with a second transgenic DNA sequence encoding a protein of interest; (c) sorting B cells based on the presence or absence of the marker protein; and (d) collecting B cells in which the marker protein is absent.