about
Ubiquitin-dependent recruitment of the Bloom syndrome helicase upon replication stress is required to suppress homologous recombinationING2 regulates the onset of replicative senescence by induction of p300-dependent p53 acetylationFunctional interaction between BLM helicase and 53BP1 in a Chk1-mediated pathway during S-phase arrestBLM helicase-dependent and -independent roles of 53BP1 during replication stress-mediated homologous recombination.The p53 tumour suppressor inhibits glucocorticoid-induced proliferation of erythroid progenitors.Phosphorylation of nucleoporin Tpr governs its differential localization and is required for its mitotic functionTime to bloom.BLM helicase stimulates the ATPase and chromatin-remodeling activities of RAD54.Synthesis, Structure-Activity Relationship, and Mechanistic Investigation of Lithocholic Acid Amphiphiles for Colon Cancer Therapy.Physiological and pathological consequences of the interactions of the p53 tumor suppressor with the glucocorticoid, androgen, and estrogen receptors.Mitochondrial functions of RECQL4 are required for the prevention of aerobic glycolysis-dependent cell invasion.Mitotic phosphorylation of Bloom helicase at Thr182 is required for its proteasomal degradation and maintenance of chromosomal stability.Injectable small molecule hydrogel as a potential nanocarrier for localized and sustained in vivo delivery of doxorubicin.Design, synthesis, and mechanistic investigations of bile acid-tamoxifen conjugates for breast cancer therapy.RECQL4 is essential for the transport of p53 to mitochondria in normal human cells in the absence of exogenous stress.The mismatch DNA repair heterodimer, hMSH2/6, regulates BLM helicase.p53-induced up-regulation of MnSOD and GPx but not catalase increases oxidative stress and apoptosis.RECQL4 and p53 potentiate the activity of polymerase γ and maintain the integrity of the human mitochondrial genome.Tethering of Chemotherapeutic Drug/Imaging Agent to Bile Acid-Phospholipid Increases the Efficacy and Bioavailability with Reduced Hepatotoxicity.Molecular Self-Assembly of Bile Acid-Phospholipids Controls the Delivery of Doxorubicin and Mice Survivability.Enhancement of c-Myc degradation by BLM helicase leads to delayed tumor initiation.MRN complex-dependent recruitment of ubiquitylated BLM helicase to DSBs negatively regulates DNA repair pathways.The Med8 mediator subunit interacts with the Rpb4 subunit of RNA polymerase II and Ace2 transcriptional activator in Schizosaccharomyces pombe.BLM Potentiates c-Jun Degradation and Alters Its Function as an Oncogenic Transcription FactorA novel autophosphorylation mediated regulation of nitrite reductase in Candida utilisIn vitro and in vivo regulation of assimilatory nitrite reductase from Candida utilisMycobacterium tuberculosis exploits host ATM kinase for survival advantage through SecA2 secretomeA Localized Chimeric Hydrogel Therapy Combats Tumor Progression through Alteration of Sphingolipid MetabolismAbrogation of FBW7α-dependent p53 degradation enhances p53's function as a tumor suppressor
P50
Q24293610-2FFD6328-45F0-4A24-8760-A1B26B7FCFBFQ24529998-5C5AC2A1-88C7-4102-9CF8-4DB307F4AADFQ24677047-9F20F083-10D8-4E0B-A1DC-24BFC66C6E75Q30480499-E9F019A8-3A92-49C2-B4B3-DE70D63C2582Q33757941-8D718D55-AB43-4845-B186-24773B0D349DQ34076444-CB7CE28B-F651-41C9-B5BD-7C06665C48A9Q34350912-78E2D363-3920-43E7-AAD6-5A3EA8D18387Q34659003-878E0684-1594-4A4B-80C4-BC2E2581BB06Q35067235-C2147BB4-84E9-43E8-90CA-F13172D76A0DQ35841873-DA6DE826-324A-4892-B6C8-B3B3AE01B172Q38791703-01F0253F-07CE-4152-8CE4-F905CE2B91D2Q38869143-834B33B5-D175-4C40-877F-C7A6CFE03CE9Q38956013-8F084CE4-37DA-4990-9667-399F1BE06D48Q39116518-34DDC600-3847-4007-B114-8B31C973E101Q39391892-CFCC7627-8993-4930-816A-FBD6009519CDQ40570055-434C08B0-166D-4547-91D8-EE6F28144F5EQ40571016-02AC78F1-09EA-4A71-A27E-B77F1382739BQ46690178-AA7AE20B-4E0D-47BA-9106-CEEE78560944Q48103616-AC2B93F5-B806-4A9F-A7FF-E1A308AF98ECQ48194948-E67E94C3-50C6-45E7-839F-2733ED6B5E6FQ50922520-76DAE549-4893-4B75-8B8C-2391B13E09CBQ52361058-260E2231-FB03-4855-98BB-3C1F00522FC7Q53374172-568C913E-DE9B-45BA-83DB-6D54734102A7Q57753588-8E141F7E-6A29-4BCB-B2E0-DAF8F4422B09Q73879385-AB238C87-8A43-4586-86E3-F98CD98B95D3Q74454184-47EA4D2F-B09B-4866-B2FD-D4E8754B1EF9Q90730088-70F48AA8-BAD6-455F-A776-E7BD0EFC528FQ90981237-E645BC3F-33E9-49A1-9572-91DB8105849AQ92185145-F25174DE-3E6A-4A67-B8F9-76F4AD44FDD0
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Sagar Sengupta
@ast
Sagar Sengupta
@en
Sagar Sengupta
@es
Sagar Sengupta
@nl
Sagar Sengupta
@sl
সাগর সেনগুপ্ত
@bn
type
label
Sagar Sengupta
@ast
Sagar Sengupta
@en
Sagar Sengupta
@es
Sagar Sengupta
@nl
Sagar Sengupta
@sl
সাগর সেনগুপ্ত
@bn
prefLabel
Sagar Sengupta
@ast
Sagar Sengupta
@en
Sagar Sengupta
@es
Sagar Sengupta
@nl
Sagar Sengupta
@sl
সাগর সেনগুপ্ত
@bn
P106
P1153
7402546520
P31
P496
0000-0002-6365-1770