Verfügbarkeit: DNA methylation microarrays

DNA methylation microarrays: experimental design and statistical analysis

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Bibliographische Detailangaben
Hauptverfasser:	Wang, Sun-Chong (VerfasserIn), Petronis, Arturas (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Boca Raton, Fla. CRC Press 2008
Schriftenreihe:	Chapman & Hall/CRC biostatistics series 26
Schlagworte:	DNA Methylation DNA microarrays > Research > Methodology DNA microarrays > Statistical methods DNA > Methylation > Research > Methodology DNA > Methylation > Statistical methods Oligonucleotide Array Sequence Analysis > statistics & numerical data Microarray DNS Methylierung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XXVI, 230 S. Ill., graph. Darst. 1 CD-ROM
ISBN:	9781420067279

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adam_text	Contents 1 Applied Statistics I 1.1 Descriptive statistics ....................... 1 1.1.1 Frequency distribution .................. 2 1.1.2 Central tendency and variability ............ 2 1.1.3 Correlation ........................ 4 1.2 Inferential statistics ....................... 6 1.2.1 Probability distribution ................. 6 1.2.2 Central limit theorem and normal distribution .... 7 1.2.3 Statistical hypothesis testing .............. 7 1.2.4 Two-sample i-test .................... 9 1.2.5 Nonparametric test .................... 9 1.2.6 One-factor ANOVA and F-test ............. 10 1.2.7 Simple linear regression ................. 11 1.2.8 Chi-square test of contingency ............. 13 1.2.9 Statistical power analysis ................ 14 2 DNA Methylation Microarrays and Quality Control 17 2.1 DNA methylation microarrays ................. 18 2.2 Workflow of methylome experiment .............. 21 2.2.1 Restriction enzyme-based enrichment ......... 21 2.2.2 Immunoprecipitation-based enrichment ........ 21 2.3 Image analysis .......................... 23 2.4 Visualization of raw data .................... 26 2.5 Reproducibility ......................... 26 2.5.1 Positive and negative controls by exogenous sequences 32 2.5.2 Intensity fold-change and p-value ............ 32 2.5.3 DNA unmethylation profiling .............. 33 2.5.4 Correlation of intensities between tiling arrays .... 33 3 Experimental Design 35 3.1 Goals of experiment. ....................... 36 3.1.1 Class comparison and class prediction ......... 36 3.1.2 Class discovery ...................... 36 3.2 Reference design ......................... 37 3.2.1 Dye swaps ......................... 39 3.3 Balanced block design ...................... 39 3.4 Loop design ........................... 41 ix 3.5 Factorial design ......................... 42 3.6 Time course experimental design ................ 47 3.7 How many samples/arrays are needed? ............ 49 3.7.1 Biological versus technical replicates .......... 49 3.7.2 Statistical power analysis ................ 49 3.7.3 Pooling biological samples ................ 55 3.8 Appendix ............................. 56 Data Normalization 59 4.1 Measure of methylation ..................... 59 4.2 The need for normalization ................... 61 4.3 Strategy for normalization ................... 62 4.4 Two-color CpG island microarray normalization ....... 63 4.4.1 Global dependence of log methylation ratios ...... 64 4.4.2 Dependence of log ratios on intensity .......... 65 4.4.3 Dependence of log ratios on print-tips ......... 67 4.4.4 Normalized СуЗ- and CyS-intensities .......... 70 4.4.5 Between-array normalization .............. 71 4.5 Oligonucleotide arrays normalization ............. 72 4.5.1 Background correction: PM - MM? .......... 72 4.5.2 Quantile normalization .................. 73 4.5.3 Probeset summarization ................. 75 4.6 Normalization using control sequences ............. 76 4.7 Appendix ............................. 79 Significant Differential Methylation 81 5.1 Fold change ........................... 81 5.2 Linear model for log-ratios or log-intensities ......... 84 5.2.1 Microarrays reference design or oligonucleotide chips . 84 5.2.2 Sequence-specific dye effect in two-color microarrays . 87 5.3 i-test for contrasts ........................ 88 5.4 F-test for joint contrasts .................... 89 5.5 P-value adjustment for multiple testing ............ 92 5.5.1 Bouferroni correction ................... 92 5.5.2 False discovery rate ................... 92 5.6 Modified t- and F-test ..................... 94 5.7 Significant, variation within and between groups ....... 95 5.7.1 Within-group rariation ................. 95 5.7.2 Between-group variation ................. 96 5.8 Significant correlation with a co-variate ............ 97 5.9 Permutation test for bisulfite sequence data .......... 100 5.9.1 Euclidean distance .................... 101 5.9.2 Entropy .......................... 102 5.10 Missing data values ....................... 103 5.11 Appendix ............................. 104 5.11.1 Factorial design ...................... 104 5.11.2 Time-course experiments ................ 105 5.11.3 Balanced block design .................. 106 5.11.4 Loop design ........................ 107 High-Density Genomic Tiling Arrays 109 6.1 Normalization .......................... 110 6.1.1 Intra- and interarray normalization ........... 110 6.1.2 Sequence-based probe effects .............. 110 6.2 Wilcoxon test in a sliding window ............... 112 6.2.1 Probe score or scan statistic ............... 116 6.2.2 False positive rate .................... 116 6.3 Boundaries of methylation regions ............... 118 6.4 Multiscale analysis by wavelets ................. 119 6.5 Unsupervised segmentation by hidden Markov model .... 121 6.6 Principal component analysis and biplot ........... 125 Cluster Analysis 129 7.1 Measure of dissimilarity ..................... 129 7.2 Dimensionality reduction .................... 130 7.3 Hierarchical clustering ...................... 133 7.3.1 Bottom-up approach ................... 133 7.3.2 Top-down approach ................... 136 7.4 K-means clustering ....................... 139 7.5 Model-based clustering ..................... 141 7.6 Quality of clustering ....................... 142 7.7 Statistically significance of clusters ............... 144 7.8 Reproducibility of clusters ................... 146 7.9 Repeated measurements ..................... 146 Statistical Classification 149 8.1 Feature selection ......................... 149 8.2 Discriminant function ...................... 152 8.2.1 Linear discriminant analysis ............... 153 8.2.2 Diagonal linear discriminant analysis .......... 154 8.3 K-nearest neighbor ....................... 154 8.4 Performance assessment ..................... 155 8.4.1 Leave-one-out cross validation .............. 156 8.4.2 Receiver operating characteristic analysis ....... 159 Interdependency Network of DNA Methylation 163 9.1 Graphs and networks ...................... 164 9.2 Partial correlation ........................ 164 9.3 Dependence networks from DNA methylation microarrays . . 165 9.4 Network analysis ......................... 168 Xli 9.4.1 Distribution of Connectivities.............. 169 9.4.2 Active epigenetically regulated loci........... 169 9.4.3 Correlation of connectivities ............... 170 9.4.4 Modularity ........................ 171 10 Time Series Experiment 179 10.1 Regulatory networks from microarray data .......... 181 10.2 Dynamic model of regulation .................. 182 10.3 A penalized likelihood score for parsimonious model ..... 182 10.4 Optimization by genetic algorithms .............. 184 11 Online Annotations 187 11.1 Gene centric resources ...................... 187 11.1.1 GenBank: A nucleotide sequence database ....... 187 11.1.2 UniGene: An organized view of transcriptomes .... 188 11.1.3 RefSeq: Reviews of sequences and annotations .... 188 11.1.4 PubMed: A bibliographic database of biomedical jour¬ nals ............................ 189 11.1.5 dbSNP: Database for nucleotide sequence variation . . 190 11.1.6 OMIM: A directory of human genes and genetic disor¬ ders ............................ 190 11.1.7 Entrez Gene: A Web portal of genes .......... 190 11.2 PubMeth: A cancer methylation database ........... 192 11.3 Gene Ontology .......................... 192 11.4 Kyoto Encyclopedia of Genes and Genomes .......... 195 11.5 UniProt/Swiss-Prot protein knowledgebase .......... 196 11.6 The International HapMap Project .............. 198 11.7 UCSC human genome browser ................. 198 12 Public Microarray Data Repositories 205 12.1 Epigenetics Society ....................... 205 12.2 Microarray Gene Expression Data Society ........... 206 12.3 Minimum Information about a Microarray Experiment . . . 206 12.4 Public repositories for high-throughput arrays ........ 208 12.4.1 Gene Expression Omnibus at NCBI .......... 208 12.4.2 ArrayExpress at EBI ................... 208 12.4.3 Center for Information Biology Gene Expression data¬ base at DDBJ ....................... 210 13 Open Source Software for Microarray Data Analysis 211 13.1 R: A language and environment for statistical computing and graphics .............................. 212 13.2 Bioconductor ........................... 212 13.2.1 marray package ...................... 215 13.2.2 affy package ....................... 215 ХНІ 13.2.3 limma package ...................... 215 13.2.4 stats package ...................... 215 13.2.5 tilingArray package .................. 217 13.2.6 Ringo package ...................... 217 13.2.7 duster package ..................... 217 13.2.8 class package ...................... 217 13.2.9 GeneNet package ..................... 217 13.2.10 inetwork package .................... 217 13.2.11 GOstats package ..................... 218 13.2.12annotate package .................... 218 References 219 Index 225
adam_txt	Contents 1 Applied Statistics I 1.1 Descriptive statistics . 1 1.1.1 Frequency distribution . 2 1.1.2 Central tendency and variability . 2 1.1.3 Correlation . 4 1.2 Inferential statistics . 6 1.2.1 Probability distribution . 6 1.2.2 Central limit theorem and normal distribution . 7 1.2.3 Statistical hypothesis testing . 7 1.2.4 Two-sample i-test . 9 1.2.5 Nonparametric test . 9 1.2.6 One-factor ANOVA and F-test . 10 1.2.7 Simple linear regression . 11 1.2.8 Chi-square test of contingency . 13 1.2.9 Statistical power analysis . 14 2 DNA Methylation Microarrays and Quality Control 17 2.1 DNA methylation microarrays . 18 2.2 Workflow of methylome experiment . 21 2.2.1 Restriction enzyme-based enrichment . 21 2.2.2 Immunoprecipitation-based enrichment . 21 2.3 Image analysis . 23 2.4 Visualization of raw data . 26 2.5 Reproducibility . 26 2.5.1 Positive and negative controls by exogenous sequences 32 2.5.2 Intensity fold-change and p-value . 32 2.5.3 DNA unmethylation profiling . 33 2.5.4 Correlation of intensities between tiling arrays . 33 3 Experimental Design 35 3.1 Goals of experiment. . 36 3.1.1 Class comparison and class prediction . 36 3.1.2 Class discovery . 36 3.2 Reference design . 37 3.2.1 Dye swaps . 39 3.3 Balanced block design . 39 3.4 Loop design . 41 ix 3.5 Factorial design . 42 3.6 Time course experimental design . 47 3.7 How many samples/arrays are needed? . 49 3.7.1 Biological versus technical replicates . 49 3.7.2 Statistical power analysis . 49 3.7.3 Pooling biological samples . 55 3.8 Appendix . 56 Data Normalization 59 4.1 Measure of methylation . 59 4.2 The need for normalization . 61 4.3 Strategy for normalization . 62 4.4 Two-color CpG island microarray normalization . 63 4.4.1 Global dependence of log methylation ratios . 64 4.4.2 Dependence of log ratios on intensity . 65 4.4.3 Dependence of log ratios on print-tips . 67 4.4.4 Normalized СуЗ- and CyS-intensities . 70 4.4.5 Between-array normalization . 71 4.5 Oligonucleotide arrays normalization . 72 4.5.1 Background correction: PM - MM? . 72 4.5.2 Quantile normalization . 73 4.5.3 Probeset summarization . 75 4.6 Normalization using control sequences . 76 4.7 Appendix . 79 Significant Differential Methylation 81 5.1 Fold change . 81 5.2 Linear model for log-ratios or log-intensities . 84 5.2.1 Microarrays reference design or oligonucleotide chips . 84 5.2.2 Sequence-specific dye effect in two-color microarrays . 87 5.3 i-test for contrasts . 88 5.4 F-test for joint contrasts . 89 5.5 P-value adjustment for multiple testing . 92 5.5.1 Bouferroni correction . 92 5.5.2 False discovery rate . 92 5.6 Modified t- and F-test . 94 5.7 Significant, variation within and between groups . 95 5.7.1 Within-group \rariation . 95 5.7.2 Between-group variation . 96 5.8 Significant correlation with a co-variate . 97 5.9 Permutation test for bisulfite sequence data . 100 5.9.1 Euclidean distance . 101 5.9.2 Entropy . 102 5.10 Missing data values . 103 5.11 Appendix . 104 5.11.1 Factorial design . 104 5.11.2 Time-course experiments . 105 5.11.3 Balanced block design . 106 5.11.4 Loop design . 107 High-Density Genomic Tiling Arrays 109 6.1 Normalization . 110 6.1.1 Intra- and interarray normalization . 110 6.1.2 Sequence-based probe effects . 110 6.2 Wilcoxon test in a sliding window . 112 6.2.1 Probe score or scan statistic . 116 6.2.2 False positive rate . 116 6.3 Boundaries of methylation regions . 118 6.4 Multiscale analysis by wavelets . 119 6.5 Unsupervised segmentation by hidden Markov model . 121 6.6 Principal component analysis and biplot . 125 Cluster Analysis 129 7.1 Measure of dissimilarity . 129 7.2 Dimensionality reduction . 130 7.3 Hierarchical clustering . 133 7.3.1 Bottom-up approach . 133 7.3.2 Top-down approach . 136 7.4 K-means clustering . 139 7.5 Model-based clustering . 141 7.6 Quality of clustering . 142 7.7 Statistically significance of clusters . 144 7.8 Reproducibility of clusters . 146 7.9 Repeated measurements . 146 Statistical Classification 149 8.1 Feature selection . 149 8.2 Discriminant function . 152 8.2.1 Linear discriminant analysis . 153 8.2.2 Diagonal linear discriminant analysis . 154 8.3 K-nearest neighbor . 154 8.4 Performance assessment . 155 8.4.1 Leave-one-out cross validation . 156 8.4.2 Receiver operating characteristic analysis . 159 Interdependency Network of DNA Methylation 163 9.1 Graphs and networks . 164 9.2 Partial correlation . 164 9.3 Dependence networks from DNA methylation microarrays . . 165 9.4 Network analysis . 168 Xli 9.4.1 Distribution of Connectivities. 169 9.4.2 Active epigenetically regulated loci. 169 9.4.3 Correlation of connectivities . 170 9.4.4 Modularity . 171 10 Time Series Experiment 179 10.1 Regulatory networks from microarray data . 181 10.2 Dynamic model of regulation . 182 10.3 A penalized likelihood score for parsimonious model . 182 10.4 Optimization by genetic algorithms . 184 11 Online Annotations 187 11.1 Gene centric resources . 187 11.1.1 GenBank: A nucleotide sequence database . 187 11.1.2 UniGene: An organized view of transcriptomes . 188 11.1.3 RefSeq: Reviews of sequences and annotations . 188 11.1.4 PubMed: A bibliographic database of biomedical jour¬ nals . 189 11.1.5 dbSNP: Database for nucleotide sequence variation . . 190 11.1.6 OMIM: A directory of human genes and genetic disor¬ ders . 190 11.1.7 Entrez Gene: A Web portal of genes . 190 11.2 PubMeth: A cancer methylation database . 192 11.3 Gene Ontology . 192 11.4 Kyoto Encyclopedia of Genes and Genomes . 195 11.5 UniProt/Swiss-Prot protein knowledgebase . 196 11.6 The International HapMap Project . 198 11.7 UCSC human genome browser . 198 12 Public Microarray Data Repositories 205 12.1 Epigenetics Society . 205 12.2 Microarray Gene Expression Data Society . 206 12.3 Minimum Information about a Microarray Experiment . . . 206 12.4 Public repositories for high-throughput arrays . 208 12.4.1 Gene Expression Omnibus at NCBI . 208 12.4.2 ArrayExpress at EBI . 208 12.4.3 Center for Information Biology Gene Expression data¬ base at DDBJ . 210 13 Open Source Software for Microarray Data Analysis 211 13.1 R: A language and environment for statistical computing and graphics . 212 13.2 Bioconductor . 212 13.2.1 marray package . 215 13.2.2 affy package . 215 ХНІ 13.2.3 limma package . 215 13.2.4 stats package . 215 13.2.5 tilingArray package . 217 13.2.6 Ringo package . 217 13.2.7 duster package . 217 13.2.8 class package . 217 13.2.9 GeneNet package . 217 13.2.10 inetwork package . 217 13.2.11 GOstats package . 218 13.2.12annotate package . 218 References 219 Index 225
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series2	Chapman & Hall/CRC biostatistics series
spelling	Wang, Sun-Chong Verfasser aut DNA methylation microarrays experimental design and statistical analysis Sun-Chong Wang ; Arturas Petronis Boca Raton, Fla. CRC Press 2008 XXVI, 230 S. Ill., graph. Darst. 1 CD-ROM txt rdacontent n rdamedia nc rdacarrier Chapman & Hall/CRC biostatistics series 26 DNA Methylation DNA microarrays Research Methodology DNA microarrays Statistical methods DNA Methylation Research Methodology DNA Methylation Statistical methods Oligonucleotide Array Sequence Analysis statistics & numerical data Microarray (DE-588)4544227-7 gnd rswk-swf DNS (DE-588)4070512-2 gnd rswk-swf Methylierung (DE-588)4123751-1 gnd rswk-swf DNS (DE-588)4070512-2 s Methylierung (DE-588)4123751-1 s Microarray (DE-588)4544227-7 s b DE-604 Petronis, Arturas Verfasser aut Chapman & Hall/CRC biostatistics series 26 (DE-604)BV023097394 26 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016700562&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Wang, Sun-Chong Petronis, Arturas DNA methylation microarrays experimental design and statistical analysis Chapman & Hall/CRC biostatistics series DNA Methylation DNA microarrays Research Methodology DNA microarrays Statistical methods DNA Methylation Research Methodology DNA Methylation Statistical methods Oligonucleotide Array Sequence Analysis statistics & numerical data Microarray (DE-588)4544227-7 gnd DNS (DE-588)4070512-2 gnd Methylierung (DE-588)4123751-1 gnd
subject_GND	(DE-588)4544227-7 (DE-588)4070512-2 (DE-588)4123751-1
title	DNA methylation microarrays experimental design and statistical analysis
title_auth	DNA methylation microarrays experimental design and statistical analysis
title_exact_search	DNA methylation microarrays experimental design and statistical analysis
title_exact_search_txtP	DNA methylation microarrays experimental design and statistical analysis
title_full	DNA methylation microarrays experimental design and statistical analysis Sun-Chong Wang ; Arturas Petronis
title_fullStr	DNA methylation microarrays experimental design and statistical analysis Sun-Chong Wang ; Arturas Petronis
title_full_unstemmed	DNA methylation microarrays experimental design and statistical analysis Sun-Chong Wang ; Arturas Petronis
title_short	DNA methylation microarrays
title_sort	dna methylation microarrays experimental design and statistical analysis
title_sub	experimental design and statistical analysis
topic	DNA Methylation DNA microarrays Research Methodology DNA microarrays Statistical methods DNA Methylation Research Methodology DNA Methylation Statistical methods Oligonucleotide Array Sequence Analysis statistics & numerical data Microarray (DE-588)4544227-7 gnd DNS (DE-588)4070512-2 gnd Methylierung (DE-588)4123751-1 gnd
topic_facet	DNA Methylation DNA microarrays Research Methodology DNA microarrays Statistical methods DNA Methylation Research Methodology DNA Methylation Statistical methods Oligonucleotide Array Sequence Analysis statistics & numerical data Microarray DNS Methylierung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016700562&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV023097394
work_keys_str_mv	AT wangsunchong dnamethylationmicroarraysexperimentaldesignandstatisticalanalysis AT petronisarturas dnamethylationmicroarraysexperimentaldesignandstatisticalanalysis

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