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Christopher R S Banerji

Showing results (1-10 of 34) with videos related to

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Human Molecular Genetics|April 30, 2020
PAX7 target gene repression associates with FSHD progression and pathology over 1 yearChristopher R S Banerji
Human Molecular Genetics|June 10, 2020
Corrigendum to: PAX7 target gene repression associates with FSHD progression and pathology over one yearChristopher R S Banerji
EMBO Molecular Medicine|June 21, 2021
Pathomechanisms and biomarkers in facioscapulohumeral muscular dystrophy: roles of DUX4 and PAX7Christopher R S Banerji, Peter S Zammit
Human Molecular Genetics|May 9, 2019
PAX7 target gene repression is a superior FSHD biomarker than DUX4 target gene activation, associating with pathological severity and identifying FSHD at the single-cell levelChristopher R S Banerji, Peter S Zammit
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|June 18, 2013
Network transfer entropy and metric space for causality inferenceChristopher R S Banerji, Simone Severini, Andrew E Teschendorff
Nature Communications|March 14, 2024
Charting cellular differentiation trajectories with Ricci flowAnthony Baptista, Ben D MacArthur, Christopher R S Banerji
Human Molecular Genetics|April 4, 2020
DUX4 expressing immortalized FSHD lymphoblastoid cells express genes elevated in FSHD muscle biopsies, correlating with the early stages of inflammationChristopher R S Banerji, Maryna Panamarova, Peter S Zammit
Scientific Reports|July 22, 2025
Conformal prediction quantifies wearable cuffless blood pressure with certaintyZhan Shen, Tapabrata Chakraborti, Christopher R S Banerji, et al.
Nature Medicine|October 11, 2023
Clinical AI tools must convey predictive uncertainty for each individual patientChristopher R S Banerji, Tapabrata Chakraborti, Chris Harbron, et al.
Plos Computational Biology|March 21, 2015
Intra-tumour signalling entropy determines clinical outcome in breast and lung cancerChristopher R S Banerji, Simone Severini, Carlos Caldas, et al.
Pageof 4

Showing results (1-10 of 34) with videos related to

Sort By:
Pageof 4
Human Molecular Genetics|April 30, 2020
PAX7 target gene repression associates with FSHD progression and pathology over 1 yearChristopher R S Banerji
Human Molecular Genetics|June 10, 2020
Corrigendum to: PAX7 target gene repression associates with FSHD progression and pathology over one yearChristopher R S Banerji
EMBO Molecular Medicine|June 21, 2021
Pathomechanisms and biomarkers in facioscapulohumeral muscular dystrophy: roles of DUX4 and PAX7Christopher R S Banerji, Peter S Zammit
Human Molecular Genetics|May 9, 2019
PAX7 target gene repression is a superior FSHD biomarker than DUX4 target gene activation, associating with pathological severity and identifying FSHD at the single-cell levelChristopher R S Banerji, Peter S Zammit
Physical Review. E, Statistical, Nonlinear, and Soft Matter Physics|June 18, 2013
Network transfer entropy and metric space for causality inferenceChristopher R S Banerji, Simone Severini, Andrew E Teschendorff
Nature Communications|March 14, 2024
Charting cellular differentiation trajectories with Ricci flowAnthony Baptista, Ben D MacArthur, Christopher R S Banerji
Human Molecular Genetics|April 4, 2020
DUX4 expressing immortalized FSHD lymphoblastoid cells express genes elevated in FSHD muscle biopsies, correlating with the early stages of inflammationChristopher R S Banerji, Maryna Panamarova, Peter S Zammit
Scientific Reports|July 22, 2025
Conformal prediction quantifies wearable cuffless blood pressure with certaintyZhan Shen, Tapabrata Chakraborti, Christopher R S Banerji, et al.
Nature Medicine|October 11, 2023
Clinical AI tools must convey predictive uncertainty for each individual patientChristopher R S Banerji, Tapabrata Chakraborti, Chris Harbron, et al.
Plos Computational Biology|March 21, 2015
Intra-tumour signalling entropy determines clinical outcome in breast and lung cancerChristopher R S Banerji, Simone Severini, Carlos Caldas, et al.
Pageof 4