The state of DNA synthesis is a bit like humanity’s journey to the moon—just because something has been achieved before doesn’t mean we should cease figuring out how to do it better.” That is how ...

DNA enzymatic synthesis represents an enormously valuable next step in harnessing the power of DNA replication and our ability to use it for developing cutting-edge, biotechnology solutions. DNA (or ...

The DNA strands used in applications such as the polymerase chain reaction, DNA sequencing, and DNA data storage are typically made using nucleoside phosphoramidite building blocks. These ...

Biology is no longer being hampered by the cell environment thanks to cell-free technology that makes it easier to clone DNA. Located in Tokyo, Japan, OriCiro Genomics is a pioneer in cell-free ...

Artificially synthesizing genomes has broad prospects in fields such as medical research and industrial strains. From the synthesis of the artificial life JCVI-syn1.0 by Craig Venter's team in 2010, ...

The bacteria growing on stacks of petri dishes in Daniel Gibson’s lab are the first living creatures with a completely artificial genome. The microbes’ entire collection of genes was edited on a ...

In the early 1980s, Dr. Caruthers invented an efficient, automated technology for synthesizing DNA that remains the leading method today. The chemical reactions that Caruthers discovered accurately ...

Imagine a deadly virus emerging in a part of the world without the resources for vaccine development. Now imagine if researchers on the other side of the world could send local medics an effective ...