Segui
Kaustubh Wagh
Kaustubh Wagh
Postdoctoral Fellow, National Cancer Institute, NIH
Email verificata su nih.gov
Titolo
Citata da
Citata da
Anno
Mechanical regulation of transcription: recent advances
K Wagh, M Ishikawa, DA Garcia, DA Stavreva, A Upadhyaya, GL Hager
Trends in cell biology 31 (6), 457-472, 2021
1222021
An intrinsically disordered region-mediated confinement state contributes to the dynamics and function of transcription factors
DA Garcia, TA Johnson, DM Presman, G Fettweis, K Wagh, L Rinaldi, ...
Molecular Cell 81 (7), 1484-1498. e6, 2021
1052021
Phase separation in transcription factor dynamics and chromatin organization
K Wagh, DA Garcia, A Upadhyaya
Current Opinion in Structural Biology 71, 148-155, 2021
642021
Transcription factor dynamics: one molecule at a time
K Wagh, DA Stavreva, A Upadhyaya, GL Hager
Annual Review of Cell and Developmental Biology 39 (1), 277-305, 2023
252023
Dynamic switching of transcriptional regulators between two distinct low-mobility chromatin states
K Wagh, DA Stavreva, RAM Jensen, V Paakinaho, G Fettweis, RL Schiltz, ...
Science Advances 9 (24), eade1122, 2023
23*2023
The glucocorticoid receptor potentiates aldosterone-induced transcription by the mineralocorticoid receptor
TA Johnson, G Fettweis, K Wagh, D Ceacero-Heras, M Krishnamurthy, ...
Proceedings of the National Academy of Sciences 121 (47), e2413737121, 2024
8*2024
A tug of war between filament treadmilling and myosin induced contractility generates actin ring
Q Ni, K Wagh, A Pathni, H Ni, V Vashisht, A Upadhyaya, GA Papoian
Elife 11, e82658, 2022
82022
Bcl10 is associated with actin dynamics at the T cell immune synapse
K Wagh, BA Wheatley, MK Traver, I Hussain, BC Schaefer, A Upadhyaya
Cellular Immunology 356, 104161, 2020
62020
Transcription dynamics and genome organization in the mammalian nucleus: Recent advances
K Wagh, DA Stavreva, GL Hager
Molecular Cell, 2024
52024
Mechanical regulation of lymphocyte activation and function
A Pathni, K Wagh, I Rey-Suarez, A Upadhyaya
Journal of Cell Science 137 (13), jcs219030, 2024
12024
Quantifying incompatibility beyond entropic uncertainty
S Kundu, K Wagh, P Mandayam
arXiv preprint arXiv:1510.04093, 2015
12015
8644 Dynamic Insights into Glucocorticoid Receptor Dysfunction: Novel patient-derived T437I Mutation and Its Impact on Glucocorticoid Receptor Function
T Tettey, S Kim, K Wagh, Q Lao, LR Schiltz, A Lafuente, DA Stavreva, ...
Journal of the Endocrine Society 8 (Supplement_1), bvae163. 1429, 2024
2024
Transcription factors form a ternary complex with NIPBL/MAU2 to localize cohesin at enhancers
G Fettweis, K Wagh, DA Stavreva, A Jiménez-Panizo, S Kim, M Lion, ...
bioRxiv, 2024.12. 09.627537, 2024
2024
FRI164 The Glucocorticoid Receptor is Required for Efficient Aldosterone-induced Transcription by the Mineralocorticoid Receptor
TA Johnson, G Fettweis, K Wagh, B Almeida-Prieto, GL Hager, ...
Journal of the Endocrine Society 7 (Supplement_1), bvad114. 1729, 2023
2023
OR33-02 The Effects Of Timing And Patterns Of Hormone Stimulation On Single Molecule Dynamics And Gene Regulation In Vivo
DA Stavreva, L Hoang, K Wagh, R Chari, A Upadhyaya, GL Hager
Journal of the Endocrine Society 7 (Supplement_1), bvad114. 1770, 2023
2023
Abstract P3-11-06: Chromatin landscape analysis based on ATAC-seq and RNA-seq reveals that GRHL2 is a novel key transcription factor for endocrine therapy resistance
S Fujiwara, S Baek, K Wagh, D Stavreva, L Varticovski, G Hager
Cancer Research 83 (5_Supplement), P3-11-06-P3-11-06, 2023
2023
REGULATING GENE EXPRESSION: THE ROLE OF TRANSCRIPTION FACTOR DYNAMICS
K Wagh
2023
Data for" A tug of war between filament treadmilling and myosin induced contractility generates actin ring"
Q Ni, K Wagh, A Pathni, H Ni, V Vashisht, A Upadhyaya, GA Papoian
2022
Single molecule tracking reveals distinct mobility states that contribute to the dynamics and function of nuclear receptors
K Wagh, RA Jensen, RL Schiltz, V Paakinaho, S Mandrup, D Presman, ...
APS March Meeting Abstracts 2022, Q06. 008, 2022
2022
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
Articoli 1–19