about
MiRNA expression patterns predict survival in glioblastomaA novel function for the Mre11-Rad50-Xrs2 complex in base excision repair.Enhanced CD95-mediated apoptosis contributes to radiation hypersensitivity of NBS lymphoblasts.The DNA repair protein NBS1 influences the base excision repair pathway.Biosynthesis of riboflavin in archaea. 6,7-dimethyl-8-ribityllumazine synthase of Methanococcus jannaschii.Evaluation of different biomarkers to predict individual radiosensitivity in an inter-laboratory comparison--lessons for future studies.Cell survival following radiation exposure requires miR-525-3p mediated suppression of ARRB1 and TXN1.UVA and UVB irradiation differentially regulate microRNA expression in human primary keratinocytes.Ionising radiation immediately impairs synaptic plasticity-associated cytoskeletal signalling pathways in HT22 cells and in mouse brain: an in vitro/in vivo comparison study.Exosomes Derived from Squamous Head and Neck Cancer Promote Cell Survival after Ionizing Radiation.Circulating microRNAs as prognostic therapy biomarkers in head and neck cancer patients.Changes in circulating microRNAs after radiochemotherapy in head and neck cancer patients.Proteome analysis of irradiated endothelial cells reveals persistent alteration in protein degradation and the RhoGDI and NO signalling pathways.Differential response of normal and transformed mammary epithelial cells to combined treatment of anti-miR-21 and radiation.Hyperthermia adds to trabectedin effectiveness and thermal enhancement is associated with BRCA2 degradation and impairment of DNA homologous recombination repair.PARTICLE, a Triplex-Forming Long ncRNA, Regulates Locus-Specific Methylation in Response to Low-Dose Irradiation.Quantitative changes in the protein and miRNA cargo of plasma exosome-like vesicles after exposure to ionizing radiation.Radiation-induced alterations of histone post-translational modification levels in lymphoblastoid cell linesRENEB accident simulation exercise.MicroRNA-mediated processes are essential for the cellular radiation response.The WST survival assay: an easy and reliable method to screen radiation-sensitive individuals.Low-dose irradiation causes rapid alterations to the proteome of the human endothelial cell line EA.hy926.Quantitative and integrated proteome and microRNA analysis of endothelial replicative senescence.The cognitive defects of neonatally irradiated mice are accompanied by changed synaptic plasticity, adult neurogenesis and neuroinflammation.Radiation alters the cargo of exosomes released from squamous head and neck cancer cells to promote migration of recipient cellsErratum: Changes in circulating microRNAs after radiochemotherapy in head and neck cancer patients.Regulation of double-stranded DNA gap repair by the RAD6 pathway.The circRNA interactome-innovative hallmarks of the intra- and extracellular radiation response.Radiation induced transcriptional and post-transcriptional regulation of the hsa-miR-23a~27a~24-2 cluster suppresses apoptosis by stabilizing XIAP.Low-dose ionizing radiation rapidly affects mitochondrial and synaptic signaling pathways in murine hippocampus and cortex.Examining Radiation-Induced In Vivo and In Vitro Gene Expression Changes of the Peripheral Blood in Different Laboratories for Biodosimetry Purposes: First RENEB Gene Expression Study.NBS1 is required for IGF-1 induced cellular proliferation through the Ras/Raf/MEK/ERK cascade.MicroRNAs as novel elements in personalized radiotherapyA novel function of Ubc13 in TNFR1 receptor activationXrs2 facilitates crossovers during DNA double-strand gap repair in yeast
P50
Q24629525-52A6A9A1-5ECB-46CA-A79F-88BE7819BC30Q27934572-15D20FF3-ECC3-4C9D-AF84-44C69467C970Q33269017-65D7E693-4582-483C-BA21-5EBC32BCA1CEQ33397915-460FE221-48CA-41BD-9245-865797A07CD2Q34179532-2E20699F-A7DC-4048-97BA-ED56BD3B22C4Q34460363-70E4CF44-6948-423C-9B68-B26884B916C2Q35023163-196495D8-1590-4624-AC21-B7F9FC46841CQ35082450-95049596-EC46-4F93-8D66-209B3AA052DAQ35348622-5EF6BF80-2C34-4964-B2EC-CB82BC20980DQ35967214-F3619F30-4C5A-486C-BFB8-F62708343F0AQ36286699-C1AAD0EE-3673-408C-8020-BA5EEEB23F48Q37438786-B5AE6208-2215-435C-84C4-5530655A60DDQ38684029-B9B1453C-1C64-4710-8107-3104389D4AD6Q38722374-6F62F65F-2E68-40D0-8603-66482D83A9E3Q38789729-4744630A-F9AC-43FA-B320-744D11C7BBABQ38883808-ECD9AC00-AC6B-441B-A2BB-A16394AF6591Q38926438-3623405B-1AB7-4AF2-84DA-171595ED224FQ39035998-708708E4-E59E-4765-8BED-1289012F51A2Q39454934-FB0D1D7C-7757-4F8E-99FB-D391285D4977Q39487970-31C730F5-302B-4EEB-9A1F-96886FC038BBQ39616269-E6A460B8-B178-4AF6-B747-6B927183899BQ39628272-A04C9B44-1F3D-4EF2-8522-2ABC1DD5284FQ40899938-C931724F-DD5C-4669-B83A-8A27F4B5E20CQ41682461-66AB56CE-773D-42F7-B13A-7321703F373BQ42172217-1173FEEA-9653-4409-9C4E-02A39C213B8BQ42592612-D94ABB4E-4F1D-4C15-B11B-5EAB1E4A3B33Q46414560-A8054B99-9A84-403C-A412-67441762F817Q47136647-2777B56F-3CE7-4B48-B70C-501F43C3FC7AQ47887794-B4170D0A-5894-4810-A68C-1188F7513E95Q48263729-0D16EAAC-4EE9-4944-8EB0-3191F550E730Q48692401-0CF16E9C-1FAC-4240-9C0D-A66F1886E6F3Q53454007-575C7D74-64A4-47A8-BC5A-9AE7EE605100Q60056859-6A9C0182-E489-40C9-8232-F10D4C22E528Q60056861-2EEB71F5-995D-4245-9CA1-C0B3301DB48CQ60056863-EE268983-78B7-40F4-B4AE-E0EE02D20466
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Simone Moertl
@ast
Simone Moertl
@en
Simone Moertl
@es
Simone Moertl
@nl
Simone Moertl
@sl
type
label
Simone Moertl
@ast
Simone Moertl
@en
Simone Moertl
@es
Simone Moertl
@nl
Simone Moertl
@sl
altLabel
Simone Mörtl
@en
prefLabel
Simone Moertl
@ast
Simone Moertl
@en
Simone Moertl
@es
Simone Moertl
@nl
Simone Moertl
@sl
P1053
M-7353-2014
P106
P1153
24465261600
P21
P31
P3829
P496
0000-0003-0644-0878