Zobrazeno 1 - 3
of 3
pro vyhledávání: '"Jerrad Morton"'
Autor:
Todd T Eckdahl, A Malcolm Campbell, Laurie J Heyer, Jeffrey L Poet, David N Blauch, Nicole L Snyder, Dustin T Atchley, Erich J Baker, Micah Brown, Elizabeth C Brunner, Sean A Callen, Jesse S Campbell, Caleb J Carr, David R Carr, Spencer A Chadinha, Grace I Chester, Josh Chester, Ben R Clarkson, Kelly E Cochran, Shannon E Doherty, Catherine Doyle, Sarah Dwyer, Linnea M Edlin, Rebecca A Evans, Taylor Fluharty, Janna Frederick, Jonah Galeota-Sprung, Betsy L Gammon, Brandon Grieshaber, Jessica Gronniger, Katelyn Gutteridge, Joel Henningsen, Bradley Isom, Hannah L Itell, Erica C Keffeler, Andrew J Lantz, Jonathan N Lim, Erin P McGuire, Alexander K Moore, Jerrad Morton, Meredith Nakano, Sara A Pearson, Virginia Perkins, Phoebe Parrish, Claire E Pierson, Sachith Polpityaarachchige, Michael J Quaney, Abagael Slattery, Kathryn E Smith, Jackson Spell, Morgan Spencer, Telavive Taye, Kamay Trueblood, Caroline J Vrana, E Tucker Whitesides
Publikováno v:
PLoS ONE, Vol 10, Iss 2, p e0118322 (2015)
Current use of microbes for metabolic engineering suffers from loss of metabolic output due to natural selection. Rather than combat the evolution of bacterial populations, we chose to embrace what makes biological engineering unique among engineerin
Externí odkaz:
https://doaj.org/article/dc0ac0400eb84b1c9b9669fc8650bd6c
Autor:
Shamita Punjabi, Clif Davis, Annie Temmink, Siya Sun, Cody Barta, Ashley Schnoor, Jerrad Morton, Laurie J. Heyer, Eric M. Sawyer, William Vernon, Bryce Szczepanik, Todd T. Eckdahl, Romina Clemente, Michel Conn, A. Malcolm Campbell, Jeffrey L. Poet, Olivia Ho-Shing, Mary Gearing, Catherine Doyle, D. Leland Taylor, Alyndria Mooney, Shashank Suresh
Publikováno v:
Interdisciplinary Bio Central. 4:1-12
Introduction: We investigated frameshift suppressor tRNAs previously reported to use five-base anticodon-codon interactions in order to provide a collection of frameshift suppressor tRNAs to the synthetic biology community and to develop modular fram
Autor:
David R. Carr, Erich J. Baker, Abagael Slattery, Jackson Spell, Jerrad Morton, Shannon E. Doherty, Sean A. Callen, Hannah L. Itell, Todd T. Eckdahl, Bradley Isom, Sarah Dwyer, Jonathan N. Lim, David N. Blauch, Katelyn Gutteridge, Jeffrey L. Poet, Telavive Taye, Dustin T. Atchley, Micah Brown, Laurie J. Heyer, Joel Henningsen, Betsy L. Gammon, Phoebe Parrish, Ben R. Clarkson, Sara A. Pearson, Claire E. Pierson, Kathryn E. Smith, Nicole L. Snyder, Grace I. Chester, Jesse S. Campbell, Virginia Perkins, Morgan Spencer, Caleb J. Carr, Spencer A. Chadinha, Josh Chester, Brandon Grieshaber, Meredith J. Nakano, Jonah Galeota-Sprung, Catherine Doyle, Taylor Fluharty, Linnea M. Edlin, Erin P. McGuire, Caroline J. Vrana, Kelly E. Cochran, Sachith Polpityaarachchige, Janna Frederick, Elizabeth C. Brunner, Jessica Gronniger, Alexander K. Moore, Kamay Trueblood, Michael J. Quaney, Rebecca A. Evans, A. Malcolm Campbell, Andrew J. Lantz, E. Tucker Whitesides, Erica Keffeler
Publikováno v:
PLoS ONE, Vol 10, Iss 2, p e0118322 (2015)
PLoS ONE
PLoS ONE
Current use of microbes for metabolic engineering suffers from loss of metabolic output due to natural selection. Rather than combat the evolution of bacterial populations, we chose to embrace what makes biological engineering unique among engineerin