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Natalie S Scholes

Showing results (1-10 of 11) with videos related to

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Current Opinion in Chemical Biology|May 3, 2017
A three-step framework for programming pattern formationNatalie S Scholes, Mark Isalan
Plos Computational Biology|May 14, 2016
Molecular Dynamics of "Fuzzy" Transcriptional Activator-Coactivator InteractionsNatalie S Scholes, Robert O J Weinzierl
Cell Chemical Biology|April 3, 2021
Identification and selectivity profiling of small-molecule degraders via multi-omics approachesNatalie S Scholes, Cristina Mayor-Ruiz, Georg E Winter
Cell Systems|November 29, 2019
A Comprehensive Network Atlas Reveals That Turing Patterns Are Common but Not RobustNatalie S Scholes, David Schnoerr, Mark Isalan, et al.
Cell Systems|September 23, 2019
A Comprehensive Network Atlas Reveals That Turing Patterns Are Common but Not RobustNatalie S Scholes, David Schnoerr, Mark Isalan, et al.
ACS Chemical Biology|December 15, 2023
Discovery of Molecular Glue Degraders via Isogenic Morphological ProfilingAmanda Ng, Fabian Offensperger, Jose A Cisneros, et al.
Cell Systems|December 3, 2024
A three-node Turing gene circuit forms periodic spatial patterns in bacteriaJure Tica, Martina Oliver Huidobro, Tong Zhu, et al.
Nature Communications|June 26, 2024
Alkylamine-tethered molecules recruit FBXO22 for targeted protein degradationChrysanthi Kagiou, Jose A Cisneros, Jakob Farnung, et al.
Biorxiv : the Preprint Server for Biology|July 19, 2024
Identification of a Monovalent Pseudo-Natural Product Degrader Class Supercharging Degradation of IDO1 by its native E3 KLHDC3Elisabeth Hennes, Belén Lucas, Natalie S Scholes, et al.
Nature Chemistry|January 7, 2026
Monovalent pseudo-natural products supercharge degradation of IDO1 by its native E3 KLHDC3Elisabeth Hennes, Belén Lucas, Natalie S Scholes, et al.
Pageof 2

Showing results (1-10 of 11) with videos related to

Sort By:
Pageof 2
Current Opinion in Chemical Biology|May 3, 2017
A three-step framework for programming pattern formationNatalie S Scholes, Mark Isalan
Plos Computational Biology|May 14, 2016
Molecular Dynamics of "Fuzzy" Transcriptional Activator-Coactivator InteractionsNatalie S Scholes, Robert O J Weinzierl
Cell Chemical Biology|April 3, 2021
Identification and selectivity profiling of small-molecule degraders via multi-omics approachesNatalie S Scholes, Cristina Mayor-Ruiz, Georg E Winter
Cell Systems|November 29, 2019
A Comprehensive Network Atlas Reveals That Turing Patterns Are Common but Not RobustNatalie S Scholes, David Schnoerr, Mark Isalan, et al.
Cell Systems|September 23, 2019
A Comprehensive Network Atlas Reveals That Turing Patterns Are Common but Not RobustNatalie S Scholes, David Schnoerr, Mark Isalan, et al.
ACS Chemical Biology|December 15, 2023
Discovery of Molecular Glue Degraders via Isogenic Morphological ProfilingAmanda Ng, Fabian Offensperger, Jose A Cisneros, et al.
Cell Systems|December 3, 2024
A three-node Turing gene circuit forms periodic spatial patterns in bacteriaJure Tica, Martina Oliver Huidobro, Tong Zhu, et al.
Nature Communications|June 26, 2024
Alkylamine-tethered molecules recruit FBXO22 for targeted protein degradationChrysanthi Kagiou, Jose A Cisneros, Jakob Farnung, et al.
Biorxiv : the Preprint Server for Biology|July 19, 2024
Identification of a Monovalent Pseudo-Natural Product Degrader Class Supercharging Degradation of IDO1 by its native E3 KLHDC3Elisabeth Hennes, Belén Lucas, Natalie S Scholes, et al.
Nature Chemistry|January 7, 2026
Monovalent pseudo-natural products supercharge degradation of IDO1 by its native E3 KLHDC3Elisabeth Hennes, Belén Lucas, Natalie S Scholes, et al.
Pageof 2