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Full-Text Articles in Biotechnology
Enabling Precision Medicine Via Standard Communication Of Hts Provenance, Analysis, And Results, Gil Alterovitz, Dennis Dean, Carole Globe, Michael R. Crusoe, Stiam Soiland-Reyes, Amanda Bell, Anais Hayes, Anita Suresh, Anjan Purkkayastha, Charles H. King, Dan Taylor, Elaine Johanson, Elaine E. Thompson, Eric Donaldson, Hiroki Morizono, Hsinyi Tsang, Jeet K. Vora, Jeremy Goecks, Jianchao Yao, Jonas S. Almeida, Jonathon Keeney, Kanakadurga Addepalli, Konstantinos Krampis, Krista M. Smith, Lydia Guo, Mark Walderhaug, Marco Schito, Matthew Ezewudo, Nuria Guimera, Paul Walsh, Robel Kahsay, Srikanth Gottipati, Timothy C. Rodwell, Toby Bloom, Yuching Lai, Vahan Simonyan, Raja Mazumder
Enabling Precision Medicine Via Standard Communication Of Hts Provenance, Analysis, And Results, Gil Alterovitz, Dennis Dean, Carole Globe, Michael R. Crusoe, Stiam Soiland-Reyes, Amanda Bell, Anais Hayes, Anita Suresh, Anjan Purkkayastha, Charles H. King, Dan Taylor, Elaine Johanson, Elaine E. Thompson, Eric Donaldson, Hiroki Morizono, Hsinyi Tsang, Jeet K. Vora, Jeremy Goecks, Jianchao Yao, Jonas S. Almeida, Jonathon Keeney, Kanakadurga Addepalli, Konstantinos Krampis, Krista M. Smith, Lydia Guo, Mark Walderhaug, Marco Schito, Matthew Ezewudo, Nuria Guimera, Paul Walsh, Robel Kahsay, Srikanth Gottipati, Timothy C. Rodwell, Toby Bloom, Yuching Lai, Vahan Simonyan, Raja Mazumder
Publications and Research
A personalized approach based on a patient's or pathogen’s unique genomic sequence is the foundation of precision medicine. Genomic findings must be robust and reproducible, and experimental data capture should adhere to findable, accessible, interoperable, and reusable (FAIR) guiding principles. Moreover, effective precision medicine requires standardized reporting that extends beyond wet-lab procedures to computational methods. The BioCompute framework (https://w3id.org/biocompute/1.3.0) enables standardized reporting of genomic sequence data provenance, including provenance domain, usability domain, execution domain, verification kit, and error domain. This framework facilitates communication and promotes interoperability. Bioinformatics computation instances that employ the BioCompute framework are easily relayed, repeated …
Directly Light-Regulated Binding Of Rgs-Lov Photoreceptors To Anionic Membrane Phospholipids, Spencer T. Glantz, Erin E. Berlew, Zaynab Jaber, Benjamin S. Schuster, Kevin H. Gardner, Brian Y. Chow
Directly Light-Regulated Binding Of Rgs-Lov Photoreceptors To Anionic Membrane Phospholipids, Spencer T. Glantz, Erin E. Berlew, Zaynab Jaber, Benjamin S. Schuster, Kevin H. Gardner, Brian Y. Chow
Publications and Research
We report natural light–oxygen–voltage (LOV) photoreceptors with a blue light-switched, high-affinity (KD ∼ 10−7 M), and direct electrostatic interaction with anionic phospholipids. Membrane localization of one such photoreceptor, BcLOV4 from Botrytis cinerea, is directly coupled to its flavin photocycle, and is mediated by a polybasic amphipathic helixinthelinker regionbetween the LOV sensor and its C-terminal domain of unknown function (DUF), as revealed through a combination of bioinformatics, computational protein modeling, structure–function studies, and optogenetic assays in yeast and mammalian cell line expression systems. In model systems, BcLOV4 rapidly translocates from the cytosol to plasma membrane (∼1 second). The reversible electrostatic interaction …