Header Leaderboard Ad

Collapse

Explore DNA Design & Construction on One Platform

Collapse

Announcement

Collapse
No announcement yet.
X
 
  • Filter
  • Time
  • Show
Clear All
new posts

  • Explore DNA Design & Construction on One Platform

    Amyris, Inc. (Nasdaq:AMRS), the industrial bioscience company, and Genome Compiler Corp., a synthetic biology platform company, today announced the availability of an open testing program for pharma and biotech companies to explore DNA design and construction solutions. The two companies announced a collaboration agreement in March 2015 to integrate Amyris’s automated lab services with Genome Compiler’s online design tools and e-commerce platform to enable users to design and order DNA or other biological products seamlessly. Today, the companies are extending an open invitation to interested parties to visit Genome Compiler’s website page (link here) where they can source helpful information and express their interest in the program.

    Researchers Can Achieve More – In Less Time at Lower Cost

    Through the integrated platform, researchers can leverage a comprehensive solution from design to delivery that represents a first-of-its-kind integrated DNA design and construction service. The service allows for greater levels of automation, enabling faster progress, and will be less expensive and more sophisticated than other available offerings. Prospective customers will have access to Genome Compiler’s advanced software tools, along with Amyris’s extensive libraries of verified genetic parts, DNA construction and editing methods, all derived from its expertise in innovative bioscience technology.

    “Amyris’s leadership role in bioscience technology has enabled us to secure legacy expertise in DNA construction research and automation to speed development and reduce costs,” said Joel Cherry, President of Research & Development at Amryis. “Today, we are able to open up key aspects of our DNA design and construction platform services, technical aptitude and knowledge base in synch with Genome Compiler’s powerful software tools to provide a fully integrated platform for companies and others seeking to pursue synthetic biology solutions.”

    “We’re pleased to announce the availability of this testing program with Amyris so quickly after announcing our partnership,” said Omri Amirav Drory, CEO of Genome Compiler. “We have been working closely with Amyris in recent months and are excited by what we have achieved in creating a truly integrated genomic research platform providing a unique outsourced solution for any organization’s synthetic biology development needs along with the ability to achieve significant time and cost savings.”

    This joint project between Amyris and Genome Compiler has been funded in part by a grant from the Binational Industrial Research and Development Foundation (BIRD Foundation), a U.S.-Israeli partnership between private sectors to expand private high-tech industries.

    Read more

Latest Articles

Collapse

  • seqadmin
    A Brief Overview and Common Challenges in Single-cell Sequencing Analysis
    by seqadmin


    ​​​​​​The introduction of single-cell sequencing has advanced the ability to study cell-to-cell heterogeneity. Its use has improved our understanding of somatic mutations1, cell lineages2, cellular diversity and regulation3, and development in multicellular organisms4. Single-cell sequencing encompasses hundreds of techniques with different approaches to studying the genomes, transcriptomes, epigenomes, and other omics of individual cells. The analysis of single-cell sequencing data i...

    01-24-2023, 01:19 PM
  • seqadmin
    Introduction to Single-Cell Sequencing
    by seqadmin
    Single-cell sequencing is a technique used to investigate the genome, transcriptome, epigenome, and other omics of individual cells using high-throughput sequencing. This technology has provided many scientific breakthroughs and continues to be applied across many fields, including microbiology, oncology, immunology, neurobiology, precision medicine, and stem cell research.

    The advancement of single-cell sequencing began in 2009 when Tang et al. investigated the single-cell transcriptomes
    ...
    01-09-2023, 03:10 PM

ad_right_rmr

Collapse
Working...
X