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Clemens B. Hug
Clemens B. Hug
Harvard Medical School
Bestätigte E-Mail-Adresse bei hms.harvard.edu - Startseite
Titel
Zitiert von
Zitiert von
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Chromatin architecture emerges during zygotic genome activation independent of transcription
CB Hug, AG Grimaldi, K Kruse, JM Vaquerizas
Cell 169 (2), 216-228. e19, 2017
4362017
Machine learning identifies candidates for drug repurposing in Alzheimer’s disease
S Rodriguez, C Hug, P Todorov, N Moret, SA Boswell, K Evans, G Zhou, ...
Nature communications 12 (1), 1033, 2021
1522021
FAN-C: a feature-rich framework for the analysis and visualisation of chromosome conformation capture data
K Kruse, CB Hug, JM Vaquerizas
Genome biology 21, 1-19, 2020
1132020
TADtool: visual parameter identification for TAD-calling algorithms
K Kruse, CB Hug, B Hernández-Rodríguez, JM Vaquerizas
Bioinformatics 32 (20), 3190-3192, 2016
772016
The birth of the 3D genome during early embryonic development
CB Hug, JM Vaquerizas
Trends in Genetics 34 (12), 903-914, 2018
732018
JDP2: An oncogenic bZIP transcription factor in T cell acute lymphoblastic leukemia
MR Mansour, S He, Z Li, R Lobbardi, BJ Abraham, C Hug, S Rahman, ...
Journal of Experimental Medicine 215 (7), 1929-1945, 2018
262018
A resource for exploring the understudied human kinome for research and therapeutic opportunities
N Moret, C Liu, BM Gyori, JA Bachman, A Steppi, C Hug, R Taujale, ...
BioRxiv, 2020.04. 02.022277, 2020
242020
Xrp1 genetically interacts with the ALS-associated FUS orthologue caz and mediates its toxicity
M Mallik, M Catinozzi, CB Hug, L Zhang, M Wagner, J Bussmann, J Bittern, ...
Journal of Cell Biology 217 (11), 3947-3964, 2018
232018
FAN-C: A Feature-rich Framework for the Analysis and Visualisation of C data
K Kruse, CB Hug, JM Vaquerizas
BioRxiv, 2020.02. 03.932517, 2020
92020
A community-based approach to image analysis of cells, tissues and tumors
JC Vizcarra, EA Burlingame, CB Hug, Y Goltsev, BS White, DR Tyson, ...
Computerized Medical Imaging and Graphics 95, 102013, 2022
62022
Multi-range ERK responses shape the proliferative trajectory of single cells following oncogene induction
JY Chen, C Hug, J Reyes, C Tian, L Gerosa, F Fröhlich, B Ponsioen, ...
Cell reports 42 (3), 2023
52023
Generation of genome-wide chromatin conformation capture libraries from tightly staged early Drosophila embryos
CB Hug, JM Vaquerizas
JoVE (Journal of Visualized Experiments), e57001, 2018
32018
Loss of Pip4k2c confers liver-metastatic organotropism through insulin-dependent PI3K-AKT pathway activation
M Rogava, TJ Aprati, WY Chi, JC Melms, C Hug, SH Davis, EM Earlie, ...
Nature Cancer, 1-15, 2024
12024
Machine learning identifies novel candidates for drug repurposing in Alzheimer’s Disease
S Rodriguez, C Hug, P Todorov, N Moret, SA Boswell, K Evans, G Zhou, ...
bioRxiv, 2020.05. 15.098749, 2020
12020
Sendai virus persistence questions the transient naive reprogramming method for iPSC generation
A De Los Angeles, CB Hug, VN Gladyshev, GM Church, S Velychko
bioRxiv, 2024.03. 07.583804, 2024
2024
A genetic-metabolic circuit of liver-specific metastatic organotropism
M Rogava, TJ Aprati, WY Chen, J Melms, C Hug, AD Amin, B Ngo, M Lee, ...
Cancer Research 83 (7_Supplement), 3514-3514, 2023
2023
Multi range ERK responses shape the proliferative trajectory of single cells following oncogene induced senescence
JY Chen, C Hug, J Reyes, C Tian, L Gerosa, F Fröhlich, B Ponsioen, ...
bioRxiv, 2022.10. 06.511142, 2022
2022
A genetic-metabolic axis of metastatic liver organotropism
M Rogava, JC Melms, S Davis, C Hug, B Ngo, MJ Lee, P Ho, AD Amin, ...
Cancer Research 82 (12_Supplement), 981-981, 2022
2022
Gene Expression in Time and Space
S Timmermans, C Libert, CB Hug, JM Vaquerizas, J Yeung, F Naef, ...
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