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Facilities

We host world-class, end-to-end facilities to rapidly design, scale and de-risk sustainable protein innovations from lab to market.

Cell engineering

Our AI-powered biofoundry automates pathway design, DNA assembly and high-throughput screening to generate optimised strains in days.

A droplet-microfluidic CRISPR platform with on-chip phenotyping plus real-time multi-omics dashboards and machine-learning slash fermentation optimisation from months to weeks.

Core Research Areas

  • In-silico design oligo synthesis: ML-powered pathway modelling feeds a DNA Script SYNTAX printer for overnight, on-site oligo production.

  • Construct build assembly: Labcyte Echo 525/550 acoustic dispensers and Biomek i7 robotics assemble thousands of plasmids daily in nanolitre volumes.

  • Genome editing: A droplet-microfluidic array delivers multiplex CRISPR edits and electroporation at >10³ strains min-¹.

  • HT screening & analytics: PIXL colony picker, iSeq100/MinION sequencing and Clariostar plate readers stream genotype-phenotype data to live dashboards.

  • World class biofoundry access: London, DTU Biosustain & National University of Singapore

Scale UP – Microbial

Our AI-powered biofoundry automates pathway design, DNA assembly and high-throughput screening to generate optimised strains in days.

A droplet-microfluidic CRISPR platform with on-chip phenotyping plus real-time multi-omics dashboards and machine-learning slash fermentation optimisation from months to weeks.

Core Research Areas

  • In-silico design oligo synthesis: ML-powered pathway modelling feeds a DNA Script SYNTAX printer for overnight, on-site oligo production.

  • Construct build assembly: Labcyte Echo 525/550 acoustic dispensers and Biomek i7 robotics assemble thousands of plasmids daily in nanolitre volumes.

  • Genome editing: A droplet-microfluidic array delivers multiplex CRISPR edits and electroporation at >10³ strains min-¹.

  • HT screening & analytics: PIXL colony picker, iSeq100/MinION sequencing and Clariostar plate readers stream genotype-phenotype data to live dashboards.

  • World class biofoundry access: London, DTU Biosustain & National University of Singapore

Food Processing Technologies

Our AI-powered biofoundry automates pathway design, DNA assembly and high-throughput screening to generate optimised strains in days.

A droplet-microfluidic CRISPR platform with on-chip phenotyping plus real-time multi-omics dashboards and machine-learning slash fermentation optimisation from months to weeks.

Core Research Areas

  • In-silico design oligo synthesis: ML-powered pathway modelling feeds a DNA Script SYNTAX printer for overnight, on-site oligo production.

  • Construct build assembly: Labcyte Echo 525/550 acoustic dispensers and Biomek i7 robotics assemble thousands of plasmids daily in nanolitre volumes.

  • Genome editing: A droplet-microfluidic array delivers multiplex CRISPR edits and electroporation at >10³ strains min-¹.

  • HT screening & analytics: PIXL colony picker, iSeq100/MinION sequencing and Clariostar plate readers stream genotype-phenotype data to live dashboards.

  • World class biofoundry access: London, DTU Biosustain & National University of Singapore

Food Technologies Analysis

Our AI-powered biofoundry automates pathway design, DNA assembly and high-throughput screening to generate optimised strains in days.

A droplet-microfluidic CRISPR platform with on-chip phenotyping plus real-time multi-omics dashboards and machine-learning slash fermentation optimisation from months to weeks.

Core Research Areas

  • In-silico design oligo synthesis: ML-powered pathway modelling feeds a DNA Script SYNTAX printer for overnight, on-site oligo production.

  • Construct build assembly: Labcyte Echo 525/550 acoustic dispensers and Biomek i7 robotics assemble thousands of plasmids daily in nanolitre volumes.

  • Genome editing: A droplet-microfluidic array delivers multiplex CRISPR edits and electroporation at >10³ strains min-¹.

  • HT screening & analytics: PIXL colony picker, iSeq100/MinION sequencing and Clariostar plate readers stream genotype-phenotype data to live dashboards.

  • World class biofoundry access: London, DTU Biosustain & National University of Singapore

Nutrition

Our AI-powered biofoundry automates pathway design, DNA assembly and high-throughput screening to generate optimised strains in days.

A droplet-microfluidic CRISPR platform with on-chip phenotyping plus real-time multi-omics dashboards and machine-learning slash fermentation optimisation from months to weeks.

Core Research Areas

  • In-silico design oligo synthesis: ML-powered pathway modelling feeds a DNA Script SYNTAX printer for overnight, on-site oligo production.

  • Construct build assembly: Labcyte Echo 525/550 acoustic dispensers and Biomek i7 robotics assemble thousands of plasmids daily in nanolitre volumes.

  • Genome editing: A droplet-microfluidic array delivers multiplex CRISPR edits and electroporation at >10³ strains min-¹.

  • HT screening & analytics: PIXL colony picker, iSeq100/MinION sequencing and Clariostar plate readers stream genotype-phenotype data to live dashboards.

  • World class biofoundry access: London, DTU Biosustain & National University of Singapore

Artificial Intelligence

Our AI-powered biofoundry automates pathway design, DNA assembly and high-throughput screening to generate optimised strains in days.

A droplet-microfluidic CRISPR platform with on-chip phenotyping plus real-time multi-omics dashboards and machine-learning slash fermentation optimisation from months to weeks.

Core Research Areas

  • In-silico design oligo synthesis: ML-powered pathway modelling feeds a DNA Script SYNTAX printer for overnight, on-site oligo production.

  • Construct build assembly: Labcyte Echo 525/550 acoustic dispensers and Biomek i7 robotics assemble thousands of plasmids daily in nanolitre volumes.

  • Genome editing: A droplet-microfluidic array delivers multiplex CRISPR edits and electroporation at >10³ strains min-¹.

  • HT screening & analytics: PIXL colony picker, iSeq100/MinION sequencing and Clariostar plate readers stream genotype-phenotype data to live dashboards.

  • World class biofoundry access: London, DTU Biosustain & National University of Singapore

Cell Banks

Our AI-powered biofoundry automates pathway design, DNA assembly and high-throughput screening to generate optimised strains in days.

A droplet-microfluidic CRISPR platform with on-chip phenotyping plus real-time multi-omics dashboards and machine-learning slash fermentation optimisation from months to weeks.

Core Research Areas

  • In-silico design oligo synthesis: ML-powered pathway modelling feeds a DNA Script SYNTAX printer for overnight, on-site oligo production.

  • Construct build assembly: Labcyte Echo 525/550 acoustic dispensers and Biomek i7 robotics assemble thousands of plasmids daily in nanolitre volumes.

  • Genome editing: A droplet-microfluidic array delivers multiplex CRISPR edits and electroporation at >10³ strains min-¹.

  • HT screening & analytics: PIXL colony picker, iSeq100/MinION sequencing and Clariostar plate readers stream genotype-phenotype data to live dashboards.

  • World class biofoundry access: London, DTU Biosustain & National University of Singapore