A comparison study: applying segmentation to array CGH data for downstream analyses.
about
Identification of novel candidate target genes, including EPHB3, MASP1 and SST at 3q26.2-q29 in squamous cell carcinoma of the lungHuman and mouse oligonucleotide-based array CGH.Hidden Markov Model-Based CNV Detection Algorithms for Illumina Genotyping MicroarraysIntegrated DNA Copy Number and Gene Expression Regulatory Network Analysis of Non-small Cell Lung Cancer MetastasisFast Bayesian Inference of Copy Number Variants using Hidden Markov Models with Wavelet CompressionGenomic copy number alterations in clear cell renal carcinoma: associations with case characteristics and mechanisms of VHL gene inactivationAsterias: a parallelized web-based suite for the analysis of expression and aCGH dataParsimonious higher-order hidden Markov models for improved array-CGH analysis with applications to Arabidopsis thaliana.Flexible and accurate detection of genomic copy-number changes from aCGH.Integrated analysis of DNA copy number and gene expression microarray data using gene setsCopynumber: Efficient algorithms for single- and multi-track copy number segmentation.Multisample aCGH data analysis via total variation and spectral regularization.STAC: A method for testing the significance of DNA copy number aberrations across multiple array-CGH experiments.Bayesian disease classification using copy number data.Bayesian estimation of genomic copy number with single nucleotide polymorphism genotyping arraysMarkers improve clustering of CGH data.Asterias: integrated analysis of expression and aCGH data using an open-source, web-based, parallelized software suite.ADaCGH: A parallelized web-based application and R package for the analysis of aCGH data.Identification of cancer genes using a statistical framework for multiexperiment analysis of nondiscretized array CGH data.Sparse representation and Bayesian detection of genome copy number alterations from microarray data.wuHMM: a robust algorithm to detect DNA copy number variation using long oligonucleotide microarray dataA probe-density-based analysis method for array CGH data: simulation, normalization and centralization.A fast and flexible method for the segmentation of aCGH data.High-resolution global genomic survey of 178 gliomas reveals novel regions of copy number alteration and allelic imbalances.A forward-backward fragment assembling algorithm for the identification of genomic amplification and deletion breakpoints using high-density single nucleotide polymorphism (SNP) array.Using expression arrays for copy number detection: an example from E. coliFunctional copy-number alterations in cancer.Array CGH data modeling and smoothing in Stationary Wavelet Packet Transform domain.Global reorganization of replication domains during embryonic stem cell differentiationExperimental design and data analysis for array comparative genomic hybridization.A snapshot of CNVs in the pig genomeBayesian DNA copy number analysis.Estimation of tumor heterogeneity using CGH array data.A new classification method using array Comparative Genome Hybridization data, based on the concept of Limited Jumping Emerging Patterns.CGHregions: dimension reduction for array CGH data with minimal information lossNormalized, segmented or called aCGH data?Analysis of array-CGH data using the R and Bioconductor software suite.CGHnormaliter: an iterative strategy to enhance normalization of array CGH data with imbalanced aberrationsEfficient oligonucleotide probe selection for pan-genomic tiling arrays.Potential predictive markers of chemotherapy resistance in stage III ovarian serous carcinomas.
P2860
Q21260385-1C171885-EAFC-41C3-8F5C-8E68B52A021BQ24813019-D3BC903A-B256-4C3E-A031-74FF1CED8B55Q27021196-FAB62923-64A1-405A-9556-83A53B23FA04Q28397049-18525F68-DEB2-412A-A097-52D0959EB4C4Q28602790-D3EA3A1A-8DC1-4B57-B1E0-8A0C335CB943Q28728573-665F978E-3CDE-4EA9-9297-3D4B2E9E0D0BQ28759094-BA409B1F-CC55-46FD-A9E9-DE6C2B5B2977Q30471421-378365B5-3085-470F-9E69-51A0D1040F8CQ30479616-E4AD382E-4079-4052-B0DB-122F0F2D0C69Q30490621-B47064B2-06FF-4292-A39A-09B827B087ABQ30536665-A91FAD4C-6703-42EF-B1C2-B2C01FF07F8DQ30631788-531C9661-9F3B-43B6-BA1F-11FDAF9CBAE8Q30821792-BB23CD28-2D90-4440-BBB0-3AEAB06FC7FDQ30863620-30F848B5-4E26-488C-BFB3-0BE2E1B1100AQ30993519-4B30399D-777F-460F-9E6C-E22B1142FEFCQ31083080-B67051E9-9B38-4AF5-AA24-15F87DAA1CCEQ31111991-08214F12-B3CF-47AD-818C-1C2DD5C59CB6Q31122219-80845C4F-09FA-4E37-A0FC-B9AC5BF35140Q31142505-24860D0B-85C5-4932-A0DC-1D15795FA27CQ31143081-AD41578F-253D-4051-9AE5-E318B579C500Q31149372-81676D8A-B1F8-4995-B972-2D1E35D1F5F7Q31161667-F851F008-4B35-415B-8E2A-EB12521241D5Q31170382-3BF65BE2-CADC-4CA8-9D57-D850E0837AB3Q33259264-6A755198-79EB-49F9-8D00-F7626F59262CQ33283630-3814EC80-3328-461F-AB9D-493D394B4FEDQ33287803-F58A40AE-6631-4FED-BFCF-0E1E184689C4Q33368629-28076BE1-D7F6-43D5-9BC6-C6A4E3D11144Q33373553-DEF6C3BD-4484-4DAB-99DB-5CB0851ADDF6Q33374614-0702D4B9-C989-43AB-AC62-28B5B2C56BDAQ33387269-600BD6CE-5947-4116-B4A9-89F9DA7F93DCQ33392713-58DD5930-47D3-4280-A100-2BFA61E58C56Q33398657-119CEF2A-F48F-488B-9987-A247B60ABBA4Q33398782-3DFA0D97-EC35-4D90-82C8-CD0E7C1F7B7FQ33407921-D6E248D3-5EC6-4453-B614-2AB844CCF730Q33448540-74DAC8E0-476C-446B-96F2-AC887ADEC176Q33448578-02734853-9879-4380-88E2-7981D775620CQ33495596-535C03DC-0046-4558-9182-7A5F7D4FEAD1Q33497034-FBC10E9C-A5D2-4AC4-BDD3-45202B8771FFQ33503901-CDC36970-096F-4A61-82E8-D0C79B2E28B6Q33511042-43DA39C8-6F83-407D-A155-CFC3EAC3BB1E
P2860
A comparison study: applying segmentation to array CGH data for downstream analyses.
description
2005 nî lūn-bûn
@nan
2005 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
A comparison study: applying segmentation to array CGH data for downstream analyses.
@ast
A comparison study: applying segmentation to array CGH data for downstream analyses.
@en
type
label
A comparison study: applying segmentation to array CGH data for downstream analyses.
@ast
A comparison study: applying segmentation to array CGH data for downstream analyses.
@en
prefLabel
A comparison study: applying segmentation to array CGH data for downstream analyses.
@ast
A comparison study: applying segmentation to array CGH data for downstream analyses.
@en
P356
P1433
P1476
A comparison study: applying segmentation to array CGH data for downstream analyses.
@en
P2093
Hanni Willenbrock
Jane Fridlyand
P304
P356
10.1093/BIOINFORMATICS/BTI677
P407
P577
2005-09-13T00:00:00Z