The topography of mutational processes in breast cancer genomes.
about
DNA Repair Pathway Alterations in Bladder Cancer.Progressive APOBEC3B mRNA expression in distant breast cancer metastases.When Genome Maintenance Goes Badly Awry.The DNA cytosine deaminase APOBEC3H haplotype I likely contributes to breast and lung cancer mutagenesis.Reactivation of dormant anti-tumor immunity - a clinical perspective of therapeutic immune checkpoint modulation.Risks at the DNA Replication Fork: Effects upon Carcinogenesis and Tumor HeterogeneityChromatin Dynamics in Genome Stability: Roles in Suppressing Endogenous DNA Damage and Facilitating DNA RepairWhole-genome sequencing of chronic lymphocytic leukaemia reveals distinct differences in the mutational landscape between IgHVmut and IgHVunmut subgroups.Human mismatch repair system balances mutation rates between strands by removing more mismatches from the lagging strand.Deciphering and Targeting Oncogenic Mutations and Pathways in Breast Cancer.Hereditary breast and ovarian cancer: new genes in confined pathways.APOBEC3A/B-induced mutagenesis is responsible for 20% of heritable mutations in the TpCpW context.Perturbations in the Replication Program Contribute to Genomic Instability in Cancer.Comparative clinical utility of tumor genomic testing and cell-free DNA in metastatic breast cancer.A somatic-mutational process recurrently duplicates germline susceptibility loci and tissue-specific super-enhancers in breast cancers.Elementary: breast cancer culprits leave their signatures on the double helix.Avoidance of APOBEC3B-induced mutation by error-free lesion bypassBLIP-II Employs Differential Hotspot Residues To Bind Structurally Similar Staphylococcus aureus PBP2a and Class A β-Lactamases.Breast cancers are rare diseases-and must be treated as such.BeWith: A Between-Within method to discover relationships between cancer modules via integrated analysis of mutual exclusivity, co-occurrence and functional interactionsMutational signatures reveal the dynamic interplay of risk factors and cellular processes during liver tumorigenesis.Reduced mutation rate in exons due to differential mismatch repair.Comprehensive Analysis of Hypermutation in Human Cancer.Detecting presence of mutational signatures in cancer with confidence.The diverse functions of the hepatitis B core/capsid protein (HBc) in the viral life cycle: Implications for the development of HBc-targeting antivirals.Viral subversion of APOBEC3s: Lessons for anti-tumor immunity and tumor immunotherapy.Computational approaches for discovery of mutational signatures in cancer.Detection and genomic characterization of a mammary-like adenocarcinoma.HRDetect is a predictor of BRCA1 and BRCA2 deficiency based on mutational signatures.Nuclear topology modulates the mutational landscapes of cancer genomes.Short inverted repeats contribute to localized mutability in human somatic cells.Integrated Microarray-based Tools for Detection of Genomic DNA Damage and Repair Mechanisms.Within-Host Variations of Human Papillomavirus Reveal APOBEC-Signature Mutagenesis in the Viral Genome.An integrative bioinformatics approach reveals coding and non-coding gene variants associated with gene expression profiles and outcome in breast cancer molecular subtypes.Correlation of gene expression and associated mutation profiles of APOBEC3A, APOBEC3B, REV1, UNG, and FHIT with chemosensitivity of cancer cell lines to drug treatment.Modeling cancer rearrangement landscapes.Validating the concept of mutational signatures with isogenic cell models.Therapeutic landscape in mutational triple negative breast cancerMutational signature distribution varies with DNA replication timing and strand asymmetryRecent advances in understanding the complexities of metastasis
P2860
Q33607945-EBBF8580-F482-4BC2-BE36-EE1B65A93FA9Q36265144-1C033EA6-B6F7-4E96-B602-67EEE3EE2D3BQ37138583-01D7A245-F8DF-4B86-B2F7-C3ED3B080EF3Q37281847-57FB47D5-0CB1-401B-8EFB-CA77C104BDA4Q37593573-4ACEDFB6-CEAF-413D-A81C-952301C5DD06Q37628288-D5B03240-230B-4AF1-B8DA-D6629AE46BA3Q38683277-3D85E948-6B35-4C7B-993A-B0C5856250DAQ38742049-F43FE276-2E5C-4699-9938-3F98092CE240Q38781896-893A1673-20C6-4C91-B1CE-A0F324767B76Q38888022-60C255AD-4FFD-44AD-90D8-25198948530DQ38925408-DB2DA00B-00B3-48BE-923E-1C29E1DA4BFFQ39111231-3B4EF4F6-7AC2-4B21-9C3F-8E4DD8559633Q39354510-755276E2-D166-451F-BA50-BC0DBE287770Q40203060-EE84920A-F76D-4EB1-8F8B-CC0F5B14C877Q40368515-18F6A6DB-967C-4D07-B197-E742DE2DAA45Q41636937-BD7C9021-C164-4301-B1BB-B04C41EAB3A7Q41693962-8931CF7A-CDFD-4C5F-BA16-B8B8A206C920Q42249212-580818D5-9EF3-47B8-BBFE-BE7F5FDDCBF6Q42342092-110E5FE1-8700-435D-8609-0DFB3778BDC3Q42375669-73BF92BA-2631-4AA9-AE61-7671100502A6Q43287348-1F3CFFAA-3BA1-4D25-8E60-B67457E1415DQ46268209-F794F0A0-2DFB-4003-8205-FD80D80562CEQ46592106-2D04AB7E-2D0F-437F-A83A-34C5C00E6954Q47314376-B231EF36-C2CC-4190-B199-F37D78624500Q47355500-DA5D233A-BE92-44E8-8B83-7308A22C1775Q47568875-C83A3D98-3EF4-4DE8-B336-E43595F9A23EQ47664589-E7A4D0EF-0317-40FA-847F-4E019AA61FF8Q47846945-572DAF88-D0FA-4A75-9ECF-6BF49C6643B9Q48134701-70299D37-0476-4CB9-90BB-8FFB614D6CD0Q48260617-633CE8A1-168E-4E8F-B341-0238B59894F6Q49606909-4FE0F3FF-57FE-47F3-AF21-D143ABF34F8AQ50086255-2155A586-5100-4F3B-BEC9-87C24F63EB4BQ51148925-9A7D3833-54D0-46D8-81B3-6208492F74B2Q52646057-E51B9322-89F5-46E0-A9AB-2CFD2152F347Q52719995-0439185F-F0A3-4279-8E6C-EC7DF9CE515EQ55147779-AA5F6929-AFDB-426D-8469-F962D894A7D6Q55283304-6979E4AD-E12D-472D-81CF-811FA200C7A6Q57109569-E7B5DB7D-7AAE-4323-8D94-80F409F347FBQ58756653-CFC22D92-70B0-4BB6-8631-4ED89690BDBDQ58756849-8C1D6C4A-A35A-460D-A4FB-CFC8F9BBCDB9
P2860
The topography of mutational processes in breast cancer genomes.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 02 May 2016
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
The topography of mutational processes in breast cancer genomes.
@en
The topography of mutational processes in breast cancer genomes.
@nl
type
label
The topography of mutational processes in breast cancer genomes.
@en
The topography of mutational processes in breast cancer genomes.
@nl
prefLabel
The topography of mutational processes in breast cancer genomes.
@en
The topography of mutational processes in breast cancer genomes.
@nl
P2093
P2860
P50
P356
P1476
The topography of mutational processes in breast cancer genomes.
@en
P2093
Adam Butler
Alastair M Thompson
Andrea L Richardson
Anieta M Sieuwerts
Arie B Brinkman
Christos Sotiriou
Cristina Rada
Gilles Thomas
Helen Davies
P2860
P2888
P356
10.1038/NCOMMS11383
P407
P50
P577
2016-05-02T00:00:00Z