Parallel gene synthesis in a microfluidic device (2007)
Kong, David S., Carr, Peter A., Chen, Lu, Zhang, Shuguang, Jacobson, Joseph M.
The ability to synthesize custom de novo DNA constructs rapidly, accurately and inexpensively is highly desired by researchers, as synthetic genes and longer DNA constructs are enabling to numerous...
Protein-mediated error correction for de novo DNA synthesis (2004)
Carr, Peter A., Park, Jason S., Lee, Yoon-Jae, Yu, Tiffany, Zhang, Shuguang, Jacobson, Joseph M.
The availability of inexpensive, on demand synthetic DNA has enabled numerous powerful applications in biotechnology, in turn driving considerable present interest in the de novo synthesis of...
Ink-jet printed nanoparticle microelectromechanical systems (2002)
Sawyer B. Fuller, Eric J. Wilhelm, Joseph M. Jacobson
Abstract—We report a method to additively build threedimensional (3-D) microelectromechanical systems (MEMS) and electrical circuitry by ink-jet printing nanoparticle metal colloids. Fabricating...
The effect of 0.003 per cent sodium fluoride on the volumetric growth of the rat mandible. (1963)
Thesis (M.S.) [Dentistry]--University of Pittsburgh, 1963.
Protein-mediated error correction for de novo DNA synthesis
Carr, Peter A., Park, Jason S., Lee, Yoon-Jae, Yu, Tiffany, Zhang, Shuguang, Jacobson, Joseph M.
The availability of inexpensive, on demand synthetic DNA has enabled numerous powerful applications in biotechnology, in turn driving considerable present interest in the de novo synthesis of...
Protein-mediated error correction for de novo DNA synthesis
Carr, Peter A., Park, Jason S., Lee, Yoon-Jae, Yu, Tiffany, Zhang, Shuguang, Jacobson, Joseph M.
The availability of inexpensive, on demand synthetic DNA has enabled numerous powerful applications in biotechnology, in turn driving considerable present interest in the de novo synthesis of...
Parallel gene synthesis in a microfluidic device
Kong, David S., Carr, Peter A., Chen, Lu, Zhang, Shuguang, Jacobson, Joseph M.
The ability to synthesize custom de novo DNA constructs rapidly, accurately and inexpensively is highly desired by researchers, as synthetic genes and longer DNA constructs are enabling to numerous...