Abstract: Methods of increasing the resistance of plants, in particular soybeans, to nematodes, in particular soybean cyst nematodes, are provided herein. The methods include increasing the expression of Glyma18g02580, Glyma18g02590 and/or Glyma18g2610 in cells of a plant and in particular in root cells of a plant to increase the resistance of the plant and plant cells to nematodes. The methods include increasing the expression using constitutive promoters or by increasing the copy number of the polynucleotides. Constructs for expressing these polypeptides, transgenic cells, transgenic plants and methods of generating the same are also provided. Methods of screening plant cells for resistance or susceptibility to nematodes are also provided.

Abstract: Methods of increasing the resistance of plants, in particular soybeans, to nematodes, in particular soybean cyst nematodes, are provided herein. The methods include increasing the expression of Glyma18g02580, Glyma18g02590 and/or Glyma18g2610 in cells of a plant and in particular in root cells of a plant to increase the resistance of the plant and plant cells to nematodes. The methods include increasing the expression using constitutive promoters or by increasing the copy number of the polynucleotides. Constructs for expressing these polypeptides, transgenic cells, transgenic plants and methods of generating the same are also provided. Methods of screening plant cells for resistance or susceptibility to nematodes are also provided.

Abstract: This invention relates to an engineered leader-independent heterocyclase (also known as a cyclodehydratase) comprising a defined cyanobactin leader sequence which drives the efficient conversion of heterocyclisable amino acids, such as Ser, Thr and Cys, within a peptide substrate lacking a leader sequence into heterocycles produce a homogenous heterocycle-containing product. This may be useful in biotechnology and chemical synthesis.

Abstract: This invention relates to the in vitro production of cyclic peptides using cyanobacterial enzymes, such as patellamide biosynthesis enzymes. Linear peptide substrates are cyclized using an isolated cyanbacterial macrocyclase, such as PatG from Prochloron spp. Before cyclization, residues in the linear peptide substrates may be heterocyclized using isolated cyanbacterial heterocyclasses, such as PatD or TruD heterocyclase. Methods of the invention may be useful, for example, for the production of cyclic peptidyl molecules, including cyclotides, such as katalas, and cyanobactins, such as patellamides and telomestatins, for example for use in the development of therapeutics.

Abstract: This invention relates to an engineered leader-independent heterocyclase (also known as a cyclodehydratase) comprising a defined cyanobactin leader sequence which drives the efficient conversion of heterocyclisable amino acids, such as Ser, Thr and Cys, within a peptide substrate lacking a leader sequence into heterocycles produce a homogenous heterocycle-containing product. This may be useful in biotechnology and chemical synthesis.

Abstract: This invention relates to the in vitro production of cyclic peptides using cyanobacterial enzymes, such as patellamide biosynthesis enzymes. Linear peptide substrates are cyclized using an isolated cyanbacterial macrocyclase, such as PatG from Prochloron spp. Before cyclisation, residues in the linear peptide substrates may be heterocyclised using isolated cyanbacterial heterocyclasses, such as PatD or TruD heterocyclase. Methods of the invention may be useful, for example, for the production of cyclic peptidyl molecules, including cyclotides, such as katalas, and cyanobactins, such as patellamides and telomestatins, for example for use in the development of therapeutics.

Abstract: This invention relates to the in vitro production of cyclic peptides using cyanobacterial enzymes, such as patellamide biosynthesis enzymes. Linear peptide substrates are cyclized using an isolated cyanbacterial macrocyclase, such as PatG from Prochloron spp. Before cyclisation, residues in the linear peptide substrates may be heterocyclised using isolated cyanbacterial heterocyclases, such as PatD or TruD heterocyclase. Methods of the invention may be useful, for example, for the production of cyclic peptidyl molecules, including cyclotides, such as katalas, and cyanobactins, such as patellamides and telomestatins, for example for use in the development of therapeutics.