Search research articles
Contact Us
Filters
Showing results (1-10 of 5) with videos related to
Page
of 1
Sort By:
F1000Research
|
July 16, 2019
TFutils: Data structures for transcription factor bioinformatics
Benjamin J Stubbs, Shweta Gopaulakrishnan, Kimberly Glass, et al.
JCO Clinical Cancer Informatics
|
May 27, 2020
Global Alliance for Genomics and Health Meets Bioconductor: Toward Reproducible and Agile Cancer Genomics at Cloud Scale
Vincent J Carey, Marcel Ramos, Benjamin J Stubbs, et al.
F1000Research
|
March 5, 2019
restfulSE: A semantically rich interface for cloud-scale genomics with Bioconductor
Shweta Gopaulakrishnan, Samuela Pollack, B J Stubbs, et al.
Synthetic Biology (Oxford, England)
|
April 19, 2023
Robustness and reproducibility of simple and complex synthetic logic circuit designs using a DBTL loop
Breschine Cummins, Justin Vrana, Robert C Moseley, et al.
Synthetic Biology (Oxford, England)
|
October 26, 2022
Highly-automated, high-throughput replication of yeast-based logic circuit design assessments
Robert P Goldman, Robert Moseley, Nicholas Roehner, et al.
Page
of 1
Search research articles
Search
Showing results (1-10 of 5) with videos related to
Sort By:
Page
of 1
F1000Research
|
July 16, 2019
TFutils: Data structures for transcription factor bioinformatics
Benjamin J Stubbs, Shweta Gopaulakrishnan, Kimberly Glass, et al.
JCO Clinical Cancer Informatics
|
May 27, 2020
Global Alliance for Genomics and Health Meets Bioconductor: Toward Reproducible and Agile Cancer Genomics at Cloud Scale
Vincent J Carey, Marcel Ramos, Benjamin J Stubbs, et al.
F1000Research
|
March 5, 2019
restfulSE: A semantically rich interface for cloud-scale genomics with Bioconductor
Shweta Gopaulakrishnan, Samuela Pollack, B J Stubbs, et al.
Synthetic Biology (Oxford, England)
|
April 19, 2023
Robustness and reproducibility of simple and complex synthetic logic circuit designs using a DBTL loop
Breschine Cummins, Justin Vrana, Robert C Moseley, et al.
Synthetic Biology (Oxford, England)
|
October 26, 2022
Highly-automated, high-throughput replication of yeast-based logic circuit design assessments
Robert P Goldman, Robert Moseley, Nicholas Roehner, et al.
Page
of 1