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Highly-automated, high-throughput replication of yeast-based logic circuit design assessments
Author(s) -
Robert P. Goldman,
Robert C. Moseley,
Nicholas Roehner,
Bree Cummins,
Justin D. Vrana,
Katie J. Clowers,
Daniel Bryce,
Jacob Beal,
Matthew DeHaven,
Joshua Nowak,
Trissha Higa,
Vanessa Biggers,
Peter Lee,
Jeremy P. Hunt,
Lorraine Mosqueda,
Steven B. Haase,
Mark Weston,
George Zheng,
Anastasia Deckard,
Shweta Gopaulakrishnan,
Joseph F Stubbs,
Niall Gaffney,
Matthew Vaughn,
Narendra Maheshri,
Ekaterina Mikhalev,
Bryan Bartley,
Richard Markeloff,
Tom Mitchell,
Tramy Nguyen,
Daniel Sumorok,
Nicholas Walczak,
Chris J. Myers,
Zach Zundel,
Benjamin Hatch,
James Scholz,
John Colonna-Romano
Publication year - 2022
Publication title -
synthetic biology
Language(s) - Uncategorized
Resource type - Journals
ISSN - 2397-7000
DOI - 10.1093/synbio/ysac018
Subject(s) - computer science , throughput , replication (statistics) , computer architecture , register transfer level , logic synthesis , synthetic biology , logic gate , embedded system , computational biology , biology , algorithm , telecommunications , virology , wireless

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