Bioenergetic metabolites regulate base excision repair-dependent cell death in response to DNA damage.
about
Human ALKBH7 is required for alkylation and oxidation-induced programmed necrosisNew strategies to maximize therapeutic opportunities for NAMPT inhibitors in oncologyFluorescent protein biosensors applied to microphysiological systemsARTD1 (PARP1) activation and NAD(+) in DNA repair and cell deathAag DNA glycosylase promotes alkylation-induced tissue damage mediated by Parp1PDGFRα up-regulation mediated by sonic hedgehog pathway activation leads to BRAF inhibitor resistance in melanoma cells with BRAF mutation.ARTD1/PARP1 negatively regulates glycolysis by inhibiting hexokinase 1 independent of NAD+ depletion.Alkylation sensitivity screens reveal a conserved cross-species functionome.HSP90 regulates DNA repair via the interaction between XRCC1 and DNA polymerase βMitochondria, energetics, epigenetics, and cellular responses to stress.Poly(ADP-ribose)glycohydrolase is an upstream regulator of Ca2+ fluxes in oxidative cell deathOvercoming temozolomide resistance in glioblastoma via dual inhibition of NAD+ biosynthesis and base excision repairN-methylpurine DNA glycosylase and DNA polymerase beta modulate BER inhibitor potentiation of glioma cells to temozolomideBase excision repair and lesion-dependent subpathways for repair of oxidative DNA damage.15-Hydroxyprostaglandin dehydrogenase generation of electrophilic lipid signaling mediators from hydroxy ω-3 fatty acids.Increased PARP-1 association with DNA in alkylation damaged, PARP-inhibited mouse fibroblasts.Enzyme mechanism-based, oxidative DNA-protein cross-links formed with DNA polymerase β in vivoTranscriptional profiling reveals elevated Sox2 in DNA polymerase ß null mouse embryonic fibroblasts.A human liver microphysiology platform for investigating physiology, drug safety, and disease modelsXRCC1 and base excision repair balance in response to nitric oxideSynthesis and characterization of DNA minor groove binding alkylating agentsNutrient deprivation regulates DNA damage repair in cardiomyocytes via loss of the base-excision repair enzyme OGG1.Targeting DNA polymerase ß for therapeutic intervention.The strategy for enhancing temozolomide against malignant glioma.Advances and challenges in the molecular biology and treatment of glioblastoma-is there any hope for the future?Cross-species Functionome analysis identifies proteins associated with DNA repair, translation and aerobic respiration as conserved modulators of UV-toxicity.UBE3B Is a Calmodulin-regulated, Mitochondrion-associated E3 Ubiquitin Ligase.Constrained Inversion and Spectral Unmixing in Multispectral Optoacoustic Tomography.Regulation of DNA Alkylation Damage Repair: Lessons and Therapeutic Opportunities.Loss of caspase-3 sensitizes colon cancer cells to genotoxic stress via RIP1-dependent necrosis.Genome instability caused by a germline mutation in the human DNA repair gene POLB.Base excision repair imbalance in colorectal cancer has prognostic value and modulates response to chemotherapyDeveloping an in silico model of the modulation of base excision repair using methoxyamine for more targeted cancer therapeutics.DNA repair deficiency sensitizes lung cancer cells to NAD+ biosynthesis blockade.
P2860
Q24339614-B89AE9BE-F4B2-4356-81B8-AF287495050AQ26745678-3B134B17-B65A-483F-9F8C-660FDA875CBCQ26827752-57F3BA7A-BA0E-4C31-BA58-D0C28C0EEF44Q27027461-18A603F1-634C-4940-AFF3-A770C8471A37Q27323759-7F4441AA-920D-4DCD-A908-72AF5A0C3B74Q33688428-23A9C472-3B32-4C97-B2CA-8BFE85496F22Q34254806-D2B7CED5-64B9-4141-A0B1-C01020DD8D12Q34434871-43BF0F9B-F9AF-45F7-8613-F4C1C37D21D5Q34581562-89A71983-D144-46DC-A69A-58DD35061B59Q34635899-0670E978-C616-44F9-B7C5-6DB02FF60336Q34724628-A21AE758-DBC3-46F6-8EC8-2D7261F08F16Q34802264-95A11882-4591-47BD-AD3C-601A40F64993Q34977358-442F52F3-E836-4A44-8547-CB495043DD6AQ34987124-4E5B427A-2CE2-4555-A0C2-F6E80B19F627Q35126717-B86A7482-45DA-49BD-969F-F3867DB85D31Q35840328-D9C02A83-266A-457C-BC6E-3F0173C04A6AQ35865649-79F678C2-EA8F-4ED8-8118-7899E5760EF5Q36439915-4B5158B4-8A8C-47C2-981D-3730C20439BEQ36491320-764BCA60-3A44-4069-8DF2-0CCC55ACA332Q36672334-C2F5E321-92A1-4F64-BB2D-48EB1D94EDDAQ36746192-D2DACBF6-D030-4217-8A65-34CDAEC6760DQ36778862-2D01C58E-F64D-4D72-8748-9181902B6751Q37489149-00E0924A-A87B-459D-84FA-15F441011AB8Q38036657-AD710119-C70E-4199-A642-DFDC63494FC3Q38364234-4A8EEC52-03D6-4094-801C-2E282E2C1077Q38503825-8E469ABA-F570-48FD-8E3D-F89C1DA627F7Q38724896-3B35CD7F-8878-4CAE-B4C6-600BC2BD18A1Q38883469-27934F3F-CC0B-40E8-A2CB-19042BD438F5Q38999756-4C04E20B-FA5D-42F8-81DF-20D29CF034E7Q41023161-BC1C1DB1-0B8F-4DFC-9676-5CAFF1FA0F7DQ41333908-AC7B0F0B-7198-4EF9-9CD0-97871FB9B399Q41552855-F709F23A-F244-431A-8EF3-D40D980732CBQ41858731-49F1E851-D42A-4B5B-A589-553786D297E9Q49981106-6D5DB971-3BDA-4E97-BE69-A41CFBC4B39A
P2860
Bioenergetic metabolites regulate base excision repair-dependent cell death in response to DNA damage.
description
2010 nî lūn-bûn
@nan
2010 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Bioenergetic metabolites regul ...... ath in response to DNA damage.
@ast
Bioenergetic metabolites regul ...... ath in response to DNA damage.
@en
type
label
Bioenergetic metabolites regul ...... ath in response to DNA damage.
@ast
Bioenergetic metabolites regul ...... ath in response to DNA damage.
@en
prefLabel
Bioenergetic metabolites regul ...... ath in response to DNA damage.
@ast
Bioenergetic metabolites regul ...... ath in response to DNA damage.
@en
P2093
P2860
P1476
Bioenergetic metabolites regul ...... ath in response to DNA damage.
@en
P2093
Ashley R Brown
Claudette M St Croix
David Svilar
Elena Jelezcova
Eva M Goellner
Jiang-bo Tang
Ram N Trivedi
Robert W Sobol
Xiao-hong Wang
P2860
P356
10.1158/1541-7786.MCR-09-0411
P577
2010-01-12T00:00:00Z