DNA Biofoundry

SERVICIOS

Juan Nogales

Head of DNA Biofoundry

FACILITY CONTACT

CNB-CSIC

C/Darwin 3, Madrid 280249

Email: Click here

Tel: 91 585

FEES

FACILITY WEBSITE

CNB DNA Biofoundry (CNBIO) offers a comprehensive service for the design, construction, validation, and evolution of metabolic pathways and synthetic genetic circuits. CNBIO operates under the principles of the Design, Built, Test and Learn (DBTL) iterative optimization cycle.

In Design, CNBIO provides metabolic modelling, analysis, and in silico designing of pathways, microorganisms, and microbial communities optimized for biotechnological applications.

In Build, CNBIO offers a large repertoire of cloning services and automatic combinatorial assembly of transcription units for their expression in model and non-model organisms.

In Test, CNBIO provides high-throughput screening assisted by a robotic platform and the construction of prototypes. CNBIO also offers automated evolutionary engineering services for bacterial biocatalyst evolution.

In Learn, CNBIO provide Model and AI-based bioprocess and prototype optimization.

Equipment

Thermocyclers, Opentrons Lab Robot, 3D printer, Chi.bio mini bioreactor platform and 2L bioreactor for initial scallin-up.

Scientific Offer

Consulting and integral design of microorganisms, routes and improved prototypes for biotechnological applications. Clients can raise a biological problem and the node team undertakes to study the problem and offer a dossier with possible R&D&i actions. These solutions may later be implemented in the service through a specific agreement following the CSIC contracting models.

Design:

D.1 Metabolic modeling at the genomic scale of individual strains and natural and synthetic microbial communities.

D.2 Systems analysis and definition of the metabolic space of environmental, industrial and medically relevant bacterial strains.

D.3 Design and optimization of strains with biotechnological interest

D.4 Multi-strain modeling of clinical isolates and functional comparison

D.5 Modeling and design of environmental microbial communities, as well as their functional study and identification of key species from metagenomic data from massive sequencing (16S/18S/ITS/Metagenome/Metatranscriptome).

D.6 Modeling and analysis of human microbiome systems for the inference of metabolic interactions

BUILT:

B.1 DNA fragments cloning service

This service offers the cloning of DNA fragments into plasmids using classical molecular biology techniques. Such methodology includes the use of restriction enzymes.

B.1.1. Cloning modality A. Fragment to clone provided by the user.

B.1.2. Cloning modality B. Small fragment to clone (less than 1 kb) not provided by the user.

B.1.3. Cloning modality C. Fragment to clone of large size (~3 kb) not provided by the user.

B.2 DNA Assembly Service by Gibson

This service offers the cloning of DNA fragments using the isothermal assembly technique (Gibson assembly).