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Christopher R S Banerji

Showing results (11-20 of 30) with videos related to

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Elife|May 15, 2023
An in silico FSHD muscle fiber for modeling DUX4 dynamics and predicting the impact of therapyMatthew V Cowley, Johanna Pruller, Massimo Ganassi, et al.
Scientific Reports|October 8, 2024
Deep learning as Ricci flowAnthony Baptista, Alessandro Barp, Tapabrata Chakraborti, et al.
Nature Communications|December 31, 2025
Generating crossmodal gene expression from cancer histopathology improves multimodal AI predictionsSamiran Dey, Christopher R S Banerji, Partha Basuchowdhuri, et al.
Neuromuscular Disorders : NMD|April 25, 2020
Facioscapulohumeral muscular dystrophy 1 patients participating in the UK FSHD registry can be subdivided into 4 patterns of self-reported symptomsChristopher R S Banerji, Phillip Cammish, Teresinha Evangelista, et al.
Eclinicalmedicine|June 11, 2025
Clinicians must participate in the development of multimodal AIChristopher R S Banerji, Aroon Bhardwaj Shah, Ben Dabson, et al.
Brain Communications|September 21, 2023
The FSHD muscle-blood biomarker: a circulating transcriptomic biomarker for clinical severity in facioscapulohumeral muscular dystrophyChristopher R S Banerji, Anna Greco, Leo A B Joosten, et al.
Nature Communications|December 20, 2017
PAX7 target genes are globally repressed in facioscapulohumeral muscular dystrophy skeletal muscleChristopher R S Banerji, Maryna Panamarova, Husam Hebaishi, et al.
Cell Proliferation|December 12, 2019
DEPDC1B is a key regulator of myoblast proliferation in mouse and manNicolas Figeac, Johanna Pruller, Isabella Hofer, et al.
Scientific Reports|October 25, 2013
Cellular network entropy as the energy potential in Waddington's differentiation landscapeChristopher R S Banerji, Diego Miranda-Saavedra, Simone Severini, et al.
Journal of the Royal Society, Interface|January 1, 2015
β-Catenin is central to DUX4-driven network rewiring in facioscapulohumeral muscular dystrophyChristopher R S Banerji, Paul Knopp, Louise A Moyle, et al.
Pageof 3

Showing results (11-20 of 30) with videos related to

Sort By:
Pageof 3
Elife|May 15, 2023
An in silico FSHD muscle fiber for modeling DUX4 dynamics and predicting the impact of therapyMatthew V Cowley, Johanna Pruller, Massimo Ganassi, et al.
Scientific Reports|October 8, 2024
Deep learning as Ricci flowAnthony Baptista, Alessandro Barp, Tapabrata Chakraborti, et al.
Nature Communications|December 31, 2025
Generating crossmodal gene expression from cancer histopathology improves multimodal AI predictionsSamiran Dey, Christopher R S Banerji, Partha Basuchowdhuri, et al.
Neuromuscular Disorders : NMD|April 25, 2020
Facioscapulohumeral muscular dystrophy 1 patients participating in the UK FSHD registry can be subdivided into 4 patterns of self-reported symptomsChristopher R S Banerji, Phillip Cammish, Teresinha Evangelista, et al.
Eclinicalmedicine|June 11, 2025
Clinicians must participate in the development of multimodal AIChristopher R S Banerji, Aroon Bhardwaj Shah, Ben Dabson, et al.
Brain Communications|September 21, 2023
The FSHD muscle-blood biomarker: a circulating transcriptomic biomarker for clinical severity in facioscapulohumeral muscular dystrophyChristopher R S Banerji, Anna Greco, Leo A B Joosten, et al.
Nature Communications|December 20, 2017
PAX7 target genes are globally repressed in facioscapulohumeral muscular dystrophy skeletal muscleChristopher R S Banerji, Maryna Panamarova, Husam Hebaishi, et al.
Cell Proliferation|December 12, 2019
DEPDC1B is a key regulator of myoblast proliferation in mouse and manNicolas Figeac, Johanna Pruller, Isabella Hofer, et al.
Scientific Reports|October 25, 2013
Cellular network entropy as the energy potential in Waddington's differentiation landscapeChristopher R S Banerji, Diego Miranda-Saavedra, Simone Severini, et al.
Journal of the Royal Society, Interface|January 1, 2015
β-Catenin is central to DUX4-driven network rewiring in facioscapulohumeral muscular dystrophyChristopher R S Banerji, Paul Knopp, Louise A Moyle, et al.
Pageof 3