Genome Project-write 5.0

Events
23/10/2021
Genome Project-write 5.0
Events
Communication unit
T + 34 848 422 448
23/10/2021
Añadir al calendario 2021-10-23 09:00:00 2021-04-26 12:49:26 Genome Project-write 5.0 October 23-24, 2021, Virtual Meeting. Registration available. GP-write 5.0 The field of genome engineering is progressing at warp speed, transforming the way scientists execute large-scale genome modifications and evolution of biological function. Advances from this field are mapping vast genotypes to complex physiology and disease, enabling the reprogramming of cellular behavior, and realizing applications for gene therapy. Collectively, genome writing technologies are ushering in a new era in which precise genomic manipulation is becoming feasible across diverse organisms. The continued development of high-throughput genome editing technologies holds the promise to substantially improve our understanding of complex biological systems and to engineer novel organisms and biomolecules for improving human and environmental health. The Genome Project-write (GP-write) Consortium has rallied around the unifying goal of re-designing and re-writing the genomes of organisms. Toward this end, since our last meeting in 2019, we have advanced plans for the Ultra-safe Cells Community Project as an internationally distributed effort. There is also a nascent Technology Launch: the GP-write Computer-Aided Design Platform for whole genome design. This meeting will bring together leading experts in genome editing, genome synthesis, and large-scale DNA assembly technologies to discuss cutting-edge advances in the field, featuring keynote lectures by: George Church (Harvard Medical School) Jennifer Doudna (UC Berkeley) Emily Leproust (Twist) David Liu (Harvard & The Broad Institute)   Meeting Topics: Microbial genome engineering Viral genome engineering Mammalian genome engineering Technology advances in genome synthesis and editing Chromosome-scale engineering and manipulations Engineering undomesticated species ELSI of genome writing Computational design advances (GPW-CAD)   Scientific Chairs: Dr. George Church, Harvard University Dr. Farren Isaacs, Yale University Dr. Junbiao Dai, Shenzhen Institute of Advanced Technology Coming Soon: Abstracts for posters and short talks Virtual meeting https://www.agilent.com/ https://ansabio.com/ https://www.twistbioscience.com/ https://www.inscripta.com/ https://latticeautomation.com/ https://www.agilent.com/ https://ansabio.com/ https://www.twistbioscience.com/ https://www.inscripta.com/ https://latticeautomation.com/ Europe/Madrid public
Lugar
Virtual meeting

October 23-24, 2021, Virtual Meeting. Registration available.

GP-write 5.0

The field of genome engineering is progressing at warp speed, transforming the way scientists execute large-scale genome modifications and evolution of biological function. Advances from this field are mapping vast genotypes to complex physiology and disease, enabling the reprogramming of cellular behavior, and realizing applications for gene therapy. Collectively, genome writing technologies are ushering in a new era in which precise genomic manipulation is becoming feasible across diverse organisms. The continued development of high-throughput genome editing technologies holds the promise to substantially improve our understanding of complex biological systems and to engineer novel organisms and biomolecules for improving human and environmental health.

The Genome Project-write (GP-write) Consortium has rallied around the unifying goal of re-designing and re-writing the genomes of organisms. Toward this end, since our last meeting in 2019, we have advanced plans for the Ultra-safe Cells Community Project as an internationally distributed effort. There is also a nascent Technology Launch: the GP-write Computer-Aided Design Platform for whole genome design.

This meeting will bring together leading experts in genome editing, genome synthesis, and large-scale DNA assembly technologies to discuss cutting-edge advances in the field, featuring keynote lectures by:

  • George Church (Harvard Medical School)
  • Jennifer Doudna (UC Berkeley)
  • Emily Leproust (Twist)
  • David Liu (Harvard & The Broad Institute)
     

Meeting Topics:

  • Microbial genome engineering
  • Viral genome engineering
  • Mammalian genome engineering
  • Technology advances in genome synthesis and editing
  • Chromosome-scale engineering and manipulations
  • Engineering undomesticated species
  • ELSI of genome writing
  • Computational design advances (GPW-CAD)
     

Scientific Chairs:

  • Dr. George Church, Harvard University
  • Dr. Farren Isaacs, Yale University
  • Dr. Junbiao Dai, Shenzhen Institute of Advanced Technology

Coming Soon:
Abstracts for posters and short talks