Handbook of statistical genetics: 2
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
Chichester, West Sussex, England
John Wiley & Sons
2007
|
| Ausgabe: | 3. ed. |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | LII S., S. 755-1392, LXXXIV S. |
| ISBN: | 0470058307 9780470058305 |
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| 245 | 1 | 0 | |a Handbook of statistical genetics |n 2 |c edited by D. J. Balding, M. Bishop, C. Cannings |
| 250 | |a 3. ed. | ||
| 264 | 1 | |a Chichester, West Sussex, England |b John Wiley & Sons |c 2007 | |
| 300 | |a LII S., S. 755-1392, LXXXIV S. | ||
| 336 | |b txt |2 rdacontent | ||
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| 700 | 1 | |a Balding, David J. |e Sonstige |4 oth | |
| 700 | 1 | |a Bishop, M. |e Sonstige |4 oth | |
| 700 | 1 | |a Cannings, Christopher |e Sonstige |4 oth | |
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Datensatz im Suchindex
| _version_ | 1804137606086131712 |
|---|---|
| adam_text | VOLUME
2
List of Contributors
xxix
Editor s Preface to the Third Edition xxxv
Glossary of Terms
xxxvii
Abbreviations and Acronyms
xlix
Part
5
POPULATION GENETICS
753
22
Mathematical Models in Population Genetics
755
C. Neuhauser
22.1
A Brief History of The Role of Selection
755
xvjü
_________________________________________
CONTENTS
22.2
Mutation,
Random Genetic Drift, and Selection
756
22.2.1
Mutation
757
22.2.2
Random Genetic Drift
757
22.2.3
Selection
759
22.2.4
The Wright-Fisher Model
759
22.3
The Diffusion Approximation
760
22.3.1
Fixation
763
22.3.2
The Kolmogorov Forward Equation
764
22.3.3
Random Genetic Drift Versus Mutation and Selection
764
22.4
The Infinite
Alíele
Model
765
22.4.1
The Infinite
Alíele
Model with Mutation
766
22.4.2
Ewens s Sampling Formula
767
22.4.3
The Infinite
Alíele
Model with Selection and Mutation
767
22.5
Other Models of Mutation and Selection
768
22.5.1
The Infinitely Many Sites Model
768
22.5.2
Frequency-dependent Selection
768
22.5.3
Overlapping Generations
769
22.6
Coalescent Theory
769
22.6.1
The Neutral Coalescent
769
22.6.2
The Ancestral Selection Graph
771
22.6.3
Varying Population Size
774
22.7
Detecting Selection
775
Acknowledgments
777
References
777
23
Inference, Simulation and Enumeration of Genealogies
781
С
Cannings and A. Thomas
23.1
Genealogies as Graphs
781
23.2
Relationships
782
23.2.1
The Algebra of Pairwise Relationships
782
23.2.2
Measures of Genetic Relationship
785
23.2.3
Identity States for Two Individuals
786
23.2.4
More Than Two Individuals
787
23.2.5
Example: Two Siblings Given Parental States
789
23.3
The Identity Process Along a Chromosome
790
23.3.1
Theory of Junctions
790
23.3.2
Random Walks
791
23.3.3
Other Methods
791
23.4
State Space Enumeration
792
23.4.1
Applying the Peeling Method
792
23.4.2
Recursions
793
23.4.3
More Complex Linear Systems
795
23.4.4
A Non-linear System
796
23.5
Marriage Node Graphs
796
23.5.1
Drawing Marriage Node Graphs
796
23.5.2
Zero-loop Pedigrees
798
CONTENTS xix
23.6
Moral Graphs
801
23.6.1
Significance for Computation
801
23.6.2
Derivation from Marriage Node Graphs
802
23.6.3
Four Colourability and
Triangulation 804
References
805
24
Graphical Models in Genetics
808
S.L.
Lauritzen
and N.S. Sheehan
24.1
Introduction
808
24.2
Bayesian Networks and Other Graphical Models
809
24.2.1
Graph Terminology
809
24.2.2
Conditional Independence
809
24.2.3
Elements of Bayesian Networks
810
24.2.4
Object-oriented Specification of Bayesian Networks
810
24.3
Representation of Pedigree Information
811
24.3.1
Graphs for Pedigrees
811
24.3.2
Pedigrees and Bayesian Networks
812
24.4
Peeling and Related Algorithms
816
24.4.1
Compilation
817
24.4.2
Propagation
821
24.4.3
Random and Other Propagation Schemes
823
24.4.4
Computational Shortcuts
824
24.5
Pedigree Analysis and Beyond
824
24.5.1
Single-point Linkage Analysis
824
24.5.2
QTL Mapping
825
24.5.3
Pedigree Uncertainty
827
24.5.4
Forensic Applications
829
24.5.5
Bayesian Approaches
832
24.6
Causal Inference
832
24.6.1
Causal Concepts
833
24.6.2
Mendelian Randomisation
833
24.7
Other Applications
836
24.7.1
Graph Learning for Genome-wide Associations
836
24.7.2
Gene Networks
838
References
838
25
Coalescent Theory
843
M.
Nordborg
25.1
Introduction
843
25.2
The coalescent
844
25.2.1
The Fundamental Insights
844
25.2.2
The Coalescent Approximation
847
25.3
Generalizing the Coalescent
850
25.3.1
Robustness and Scaling
850
25.3.2
Variable Population Size
851
25.3.3
Population Structure on Different Time Scales
853
XX
CONTENTS
25.4
Geographical Structure
854
25.4.1
The Structured Coalescent
855
25.4.2
The Strong-migration Limit
856
25.5
Segregation
857
25.5.1
Hermaphrodites
857
25.5.2
Males and Females
859
25.6
Recombination
859
25.6.1
The Ancestral Recombination Graph
860
25.6.2
Properties and Effects of Recombination
863
25.7
Selection
865
25.7.1
Balancing Selection
865
25.7.2
Selective Sweeps
868
25.7.3
Background Selection
868
25.8
Neutral Mutations
869
25.9
Conclusion
870
25.9.1
The Coalescent and Classical Population Genetics
870
25.9.2
The Coalescent and Phylogenetics
870
25.9.3
Prospects
872
Acknowledgments
872
References
872
26
Inference Under the Coalescent
878
M. Stephens
26.1
Introduction
878
26.1.1
Likelihood-based Inference
879
26.2
The Likelihood and the Coalescent
883
26.3
Importance Sampling
885
26.3.1
Likelihood Surfaces
887
26.3.2
Ancestral Inference
888
26.3.3
Application and Assessing Reliability
888
26.4
Markov Chain Monte Carlo
889
26.4.1
Introduction
889
26.4.2
Choosing a Good Proposal Distribution
891
26.4.3
Likelihood Surfaces
891
26.4.4
Ancestral Inference
893
26.4.5
Example Proposal Distributions
894
26.4.6
Application and Assessing Reliability
897
26.4.7
Extensions to More Complex Demographic and Genetic Models
899
26.5
Other Approaches
900
26.5.1
Rejection Sampling and Approximate Bayesian Computation
900
26.5.2
Composite Likelihood Methods
902
26.5.3
Product of Approximate Conditionals
(PAC)
Models
903
26.6
Software and Web Resources
903
26.6.1
Population Genetic Simulations
904
26.6.2
Inference Methods
904
Acknowledgments
905
References
906
CONTENTS xxi
27
Linkage Disequilibrium, Recombination and Selection
909
G. McVean
27.1
What Is Linkage Disequilibrium?
909
27.2
Measuring Linkage Disequilibrium
911
27.2.1
Single-number Summaries of LD
913
27.2.2
The Spatial Distribution of LD
914
27.2.3
Various Extensions of Two-locus LD Measures
918
27.2.4
The Relationship between r2 and Power in Association Studies
919
27.3
Modelling LD and Genealogical History
922
27.3.1
A Historical Perspective
922
27.3.2
Coalescent Modelling
924
27.3.3
Relating Genealogical History to LD
930
27.4
Inference
932
27.4.1
Formulating the Hypotheses
932
27.4.2
Parameter Estimation
933
27.4.3
Hypothesis Testing
937
27.5
Prospects
938
Acknowledgments
939
Related Chapters
940
References
940
28
Inferences from Spatial Population Genetics
945
F. Rousset
28.1
Introduction
945
28.2
Neutral Models of Geographical Variation
946
28.2.1
Assumptions and Parameters
946
28.3
Methods of Inference
948
28.3.1
F-statistics
948
28.3.2
Likelihood Computations
952
28.4
Inference Under the Different Models
955
28.4.1
Migration-Matrix Models
955
28.4.2
Island Model
955
28.4.3
Isolation by Distance
956
28.4.4
Likelihood Inferences
959
28.5
Separation of Timescales
960
28.6
Other Methods
962
28.6.1
Assignment and Clustering
962
28.6.2
Inferences from Clines
964
28.7
Integrating Statistical Techniques into the Analysis of Biological
965
Processes
Acknowledgments
966
Related Chapters
966
References
967
Appendix A: Analysis of Variance and Probabilities of Identity
972
Appendix B: Likelihood Analysis of the Island Model
977
xxii
CONTENTS
29
Analysis of Population Subdivision
980
L. Excoffier
29.1
Introduction 98°
29.1.1
Effects of Population Subdivision
980
29.2
The Fixation Index
F
982
29.3
Wright s
F
Statistics in Hierarchic Subdivisions
983
29.3.1
Multiple
Alíeles
985
29.3.2
Sample Estimation of
F
Statistics
986
29.3.3
G
Statistics
987
29.4
Analysis of Genetic Subdivision Under an Analysis of Variance
988
Framework
29.4.1
The Model
989
29.4.2
Estimation Procedure
991
29.4.3
Dealing with Mutation and Migration using Identity Coefficients
996
29.5
Relationship Between Different Definitions of Fixation Indexes
997
29.6
F
Statistics and Coalescence Times
999
29.7
Analysis of Molecular Data: The
Amova
Framework
1001
29.7.1
Haplotypic Diversity
1001
29.7.2
Genotypie
Data
1004
29.7.3
Multiallelic Molecular Data
1004
29.7.4
Dominant Data
1007
29.7.5
Relation of
AMOVA
with other Approaches
1008
29.8
Significance Testing
1009
29.8.1
Resampling Techniques
1009
29.9
Related and Remaining Problems
1011
29.9.1
Testing Departure from Hardy-Weinberg Equilibrium
1011
29.9.2
Detecting Loci under Selection
1012
29.9.3
What is the Underlying Genetic Structure of Populations?
1012
Acknowledgments
1013
References
1013
30
Conservation Genetics
1021
M.A. Beaumont
30.1
Introduction
1021
30.2
Estimating Effective Population Size
1022
30.2.1
Estimating Ne Using Two Samples from the Same Population:
1023
The Temporal Method
30.2.2
Estimating Ne from Two Derived Populations
1025
30.2.3
Estimating JVe Using One Sample
1030
30.2.4
Inferring Past Changes in Population Size:
1033
Population Bottlenecks
30.2.5
Approximate Bayesian Computation
1040
30.3
Admixture
1041
30.4
Genotypie
Modelling
1046
30.4.1
Assignment Testing
1046
30.4.2
Genetic Mixture Modelling and Clustering
1048
30.4.3
Hybridisation and the Use of Partially Linked Markers
1051
CONTENTS__________________________________________________________ xxiii
30.4.4
Inferring Current Migration Rates
1052
30.4.5
Spatial Modelling
1053
30.5
Relatedness and Pedigree Estimation
1054
Acknowledgments
1057
Related Chapters
1057
References
1058
31
Human Genetic Diversity and its History
1067
G. Barbujani and L, Chikhi
31.1
Introduction
1068
31.2
Human Genetic Diversity: Historical Inferences
1069
31.2.1
Some Data on Fossil Evidence
1069
31.2.2
Models of Modern Human Origins
1070
31.2.3
Methods for Inferring Past Demography
1071
31.2
A Reconstructing Past Human Migration and Demography
1075
31.3
Human Genetic Diversity: Geographical Structure
1081
31.3.1
Catalogues of Humankind
1081
31.3.2
Methods for Describing Population Structure
1084
31.3.3
Identifying the Main Human Groups
1087
31.3.4
Continuous versus Discontinuous Models of Human Variation
1091
31.4
Final Remarks
1092
Acknowledgments
1096
References
1096
Part
6
GENETIC EPIDEMIOLOGY
1109
32
Epidemiology and Genetic Epidemiology
1111
P.R. Burton, J.M. Bowden and M.D.
Tobin
32.1
Introduction
1111
32.2
Descriptive Epidemiology
1112
32.2.1
Incidence and Prevalence
1114
32.2.2
Modelling Correlated Responses
1115
32.3
Descriptive Genetic Epidemiology
1117
32.3.1
Is There Evidence of Phenotypic Aggregation within Families?
1117
32.3.2
Is the Pattern of Correlation Consistent with a Possible
1118
Effect of Genes?
32.3.3
Segregation Analysis
1126
32.3.4
Ascertainment
1127
32.4
Studies Investigating Specific Aetiological Determinants
1130
32.5
The Future
П31
Acknowledgments
1132
References
1132
33
Linkage Analysis
1141
E.A. Thompson
33.1
Introduction
1141
xxjy
CONTENTS
33.2
The Early Years
1142
33.3
The Development of Human Genetic Linkage Analysis
1144
33.4
The Pedigree Years; Segregation and Linkage Analysis
1146
33.5
Likelihood and Location Score Computation
1149
33.6
Monte Carlo Multipoint Linkage Likelihoods
1151
33.7
Linkage Analysis of Complex Traits
1155
33.8
Map Estimation, Map Uncertainty, and The Meiosis Model
1158
33.9
The Future
1162
Acknowledgments
1163
References
1163
34
Non-parametric Linkage
1168
P. Holmans
34.1
Introduction
1168
34.2
Pros and Cons of Model-free Methods
1169
34.3
Model-free Methods for Dichotomous Traits
1171
34.3.1
Affected Sib-pair Methods
1171
34.3.2
Parameter Estimation and Power Calculation Using
1172
Affected Sib Pairs
34.3.3
Typing Unaffected Relatives in Sib-pair Analyses
1173
34.3.4
Application of Sib-pair Methods to Multiplex Sibships
1174
34.3.5
Methods for Analysing Larger Pedigrees
1175
34.3.6
Extensions to Multiple Marker Loci
1176
34.3.7
Multipoint Analysis with Tightly Linked Markers
1177
34.3.8
Inclusion of Covariates
1177
34.3.9
Multiple Disease Loci
1179
34.3.10
Significance Levels for Genome Scans
1180
34.3.11
Meta-analysis of Genome Scans
1180
34.4
Model-free Methods for Analysing Quantitative Traits
1181
34.5
Conclusions
1182
Related Chapters
1182
References
1183
35
Population Admixture and Stratification in Genetic
1190
Epidemiology
P.M. McKeigue
35.1
Background
1191
35.2
Admixture Mapping
Ц92
35.2.1
Basic Principles
Ц92
35.2.2
Statistical Power and Sample Size
1194
35.2.3
Distinguishing between Genetic and Environmental
1196
Explanations for Ethnic Variation in Disease Risk
35.3
Statistical Models
1198
35.3.1
Modelling Admixture
1198
35.3.2
Modelling Stratification
1199
35.3.3
Modelling
Alíele
Frequencies
1201
CONTENTS__________________________________________________________________________________________xxv
35.3.4
Fitting
the Statistical Model
1202
35.3.5
Model Comparison
1203
35.3.6
Assembling and Evaluating Panels of Ancestry-informative
1204
Marker Loci
35.4
Testing For Linkage With Locus Ancestry
1205
35.4.1
Modelling Population Stratification
1207
35.5
Conclusions
1212
References
1213
36
Population Association
1216
D. Clayton
36.1
Introduction
1216
36.2
Measures of Association
1217
36.3
Case-Control Studies
1219
36.4
Tests For Association
1221
36.5
Logistic Regression And Log-Linear Models
1225
36.6
Stratification And Matching
1227
36.7
Unmeasured Confounding
1230
36.8
Multiple
Alíeles
1232
36.9
Multiple Loci
1234
36.10
Discussion
1236
Acknowledgments
1236
References
1236
37
Whole Genome Association
1238
A.P. Morris and L.R.
Cardon
37.1
Introduction
1238
37.1.1
Linkage Disequilibrium and Tagging
1239
37.1.2
Current WGA Studies
1240
37.2
Genotype Quality Control
1242
37.3
Single-Locus Analysis
1245
37.3.1
Logistic Regression Modelling Framework
1247
37.3.2
Interpretation of Results and Correction for Multiple Testing
1249
37.4
Population Structure
1250
37.5
Multi-Locus Analysis
1251
37.5.1
Haplotype-based Analyses
1252
37.5.2
Haplotype Clustering Techniques
1253
37.6
Epistasis
1254
37.7
Replication
1256
37.8
Prospects for Whole-Genome Association Studies
1257
References
1258
38
Family-based Association
1264
F. Dudbridge
38.1
Introduction
1264
38.2
Transmission/Disequilibrium Test
1266
xxvi
_________________________________________________________________________CONTENTS
38.3
Logistic
Regression Models 1268
38.4 Haplotype
Analysis
1271
38.5 General
Pedigree Structures
1273
38.6 Quantitative
Traits
1276
38.7
Association in the Presence of Linkage
1278
38.8
Conclusions
1281
References
1282
39
Cancer Genetics I286
M.D. Teare
39.1
Introduction
1286
39.2
Armitage-Doll Models of Carcinogenesis
1287
39.2.1
The Multistage Model
1287
39.2.2
The Two-stage Model
1289
Electronic Resources
1298
References
1298
40
Epigenetics
1301
K.D.
Siegmund
and S. Lin
40.1
A Brief Introduction
1301
40.2
Technologies for CGI Methylation Interrogation
1303
40.2.1
MethyLight
1304
40.2.2
Methylation Microarrays
1304
40.3
Modeling Human Cell Populations
1305
40.3.1
Background
1305
40.3.2
Methylation Patterns
1305
40.3.3
Modeling Human Colon Crypts
1306
40.3.4
Summary
1307
40.4
Mixture Modeling
1307
40.4.1
Cluster Analysis
1308
40.4.2
Modeling Exposures for Latent Disease Subtypes
1310
40.4.3
Differential Methylation with Single-slide Data
1311
40.5
Recapitulation of Tumor Progression Pathways
1313
40.5.1
Background
1313
40.5.2
Heritable Clustering
1313
40.5.3
Further Comments
1315
40.6
Future Challenges
1316
Acknowledgments
1316
References
1317
Part
7
SOCIAL AND ETHICAL ASPECTS
1323
41
Ethics Issues in Statistical Genetics
1325
R.E. Ashcroft
41.1
Introduction: Scope of This Chapter
1325
41.1.1
What is Ethics ?
1326
CONTENTS xxvji
41.1.2
Models for Analysing the Ethics of Population Genetic Research
1327
41.2
A Case Study in Ethical Regulation of Population Genetics Research:
1329
UK Biobank s Ethics and Governance Framework
41.2.1
The Scientific and Clinical Value of the Research
1330
41.2.2
Recruitment of Participants
1332
41.2.3
Consent
1334
41.2.4
Confidentiality and Security
1339
41.3
Stewardship
1339
41.3.1
Benefit Sharing
1340
41.3.2
Community Involvement
1341
41.4
Wider Social Issues
1341
41.4.1
Geneticisation
1341
41.4.2
Race, Ethnicity and Genetics
1342
41.5
Conclusions
1343
Acknowledgments
1343
References
1343
42
Insurance
1346
A.S.
Macdonald
42.1
Principles of Insurance
1346
42.1.1
Long-term Insurance Pricing
1346
42.1.2
Life Insurance Underwriting
1348
42.1.3
Familial and Genetic Risk Factors
1349
42.1.4
Adverse Selection
1349
42.1.5
Family Medical Histories
1350
42.1.6
Legislation and Regulation
1351
42.1.7
Quantitative Questions
1352
42.2
Actuarial Modelling
1352
42.2.1
Actuarial Models for Life and Health Insurance
1352
42.2.2
Parameterising Actuarial Models
1354
42.2.3
Market Models and Missing Information
1355
42.2.4
Modelling Strategies
1357
42.2.5
Statistical Issues
1358
42.2.6
Economics Issues
1359
42.3
Examples and Conclusions
1359
42.3.1
Single-gene Disorders
1359
42.3.2
Multifactorial Disorders
1361
References
1365
43
Forensics
1368
B.S. Weir
43.1
Introduction
1368
43.2
Principles of Interpretation
1369
43.3
Profile Probabilities
1371
43.3.1
Allelic Independence
1371
43.3.2
Alíele
Frequencies
1373
xxviii
CONTENTS
43.3.3 Joint Profile
Probabilities
1375
43.4
Parentage Issues
1377
43.5
Identification of Remains
1379
43.6
Mixtures
1379
43.7
Sampling Issues
1383
43.7.1
Alíele
Probabilities
1383
43.7.2
Coancestry
1384
43.8
Other Forensic Issues
1385
43.8.1
Common Fallacies
1385
43.8.2
Relevant Population
1385
43.8.3
Database Searches
1386
43.8.4
Uniqueness of Profiles
1386
43.8.5
Assigning Individuals to Phenotypes,
Populations or Families
1388
43.8.6
Hierarchy of Propositions
1389
43.9
Conclusions
1390
References
1390
Reference Author Index
I
Subject Index
LXIII
|
| adam_txt |
VOLUME
2
List of Contributors
xxix
Editor's Preface to the Third Edition xxxv
Glossary of Terms
xxxvii
Abbreviations and Acronyms
xlix
Part
5
POPULATION GENETICS
753
22
Mathematical Models in Population Genetics
755
C. Neuhauser
22.1
A Brief History of The Role of Selection
755
xvjü
_
CONTENTS
22.2
Mutation,
Random Genetic Drift, and Selection
756
22.2.1
Mutation
757
22.2.2
Random Genetic Drift
757
22.2.3
Selection
759
22.2.4
The Wright-Fisher Model
759
22.3
The Diffusion Approximation
760
22.3.1
Fixation
763
22.3.2
The Kolmogorov Forward Equation
764
22.3.3
Random Genetic Drift Versus Mutation and Selection
764
22.4
The Infinite
Alíele
Model
765
22.4.1
The Infinite
Alíele
Model with Mutation
766
22.4.2
Ewens's Sampling Formula
767
22.4.3
The Infinite
Alíele
Model with Selection and Mutation
767
22.5
Other Models of Mutation and Selection
768
22.5.1
The Infinitely Many Sites Model
768
22.5.2
Frequency-dependent Selection
768
22.5.3
Overlapping Generations
769
22.6
Coalescent Theory
769
22.6.1
The Neutral Coalescent
769
22.6.2
The Ancestral Selection Graph
771
22.6.3
Varying Population Size
774
22.7
Detecting Selection
775
Acknowledgments
777
References
777
23
Inference, Simulation and Enumeration of Genealogies
781
С
Cannings and A. Thomas
23.1
Genealogies as Graphs
781
23.2
Relationships
782
23.2.1
The Algebra of Pairwise Relationships
782
23.2.2
Measures of Genetic Relationship
785
23.2.3
Identity States for Two Individuals
786
23.2.4
More Than Two Individuals
787
23.2.5
Example: Two Siblings Given Parental States
789
23.3
The Identity Process Along a Chromosome
790
23.3.1
Theory of Junctions
790
23.3.2
Random Walks
791
23.3.3
Other Methods
791
23.4
State Space Enumeration
792
23.4.1
Applying the Peeling Method
792
23.4.2
Recursions
793
23.4.3
More Complex Linear Systems
795
23.4.4
A Non-linear System
796
23.5
Marriage Node Graphs
796
23.5.1
Drawing Marriage Node Graphs
796
23.5.2
Zero-loop Pedigrees
798
CONTENTS xix
23.6
Moral Graphs
801
23.6.1
Significance for Computation
801
23.6.2
Derivation from Marriage Node Graphs
802
23.6.3
Four Colourability and
Triangulation 804
References
805
24
Graphical Models in Genetics
808
S.L.
Lauritzen
and N.S. Sheehan
24.1
Introduction
808
24.2
Bayesian Networks and Other Graphical Models
809
24.2.1
Graph Terminology
809
24.2.2
Conditional Independence
809
24.2.3
Elements of Bayesian Networks
810
24.2.4
Object-oriented Specification of Bayesian Networks
810
24.3
Representation of Pedigree Information
811
24.3.1
Graphs for Pedigrees
811
24.3.2
Pedigrees and Bayesian Networks
812
24.4
Peeling and Related Algorithms
816
24.4.1
Compilation
817
24.4.2
Propagation
821
24.4.3
Random and Other Propagation Schemes
823
24.4.4
Computational Shortcuts
824
24.5
Pedigree Analysis and Beyond
824
24.5.1
Single-point Linkage Analysis
824
24.5.2
QTL Mapping
825
24.5.3
Pedigree Uncertainty
827
24.5.4
Forensic Applications
829
24.5.5
Bayesian Approaches
832
24.6
Causal Inference
832
24.6.1
Causal Concepts
833
24.6.2
Mendelian Randomisation
833
24.7
Other Applications
836
24.7.1
Graph Learning for Genome-wide Associations
836
24.7.2
Gene Networks
838
References
838
25
Coalescent Theory
843
M.
Nordborg
25.1
Introduction
843
25.2
The coalescent
844
25.2.1
The Fundamental Insights
844
25.2.2
The Coalescent Approximation
847
25.3
Generalizing the Coalescent
850
25.3.1
Robustness and Scaling
850
25.3.2
Variable Population Size
851
25.3.3
Population Structure on Different Time Scales
853
XX
CONTENTS
25.4
Geographical Structure
854
25.4.1
The Structured Coalescent
855
25.4.2
The Strong-migration Limit
856
25.5
Segregation
857
25.5.1
Hermaphrodites
857
25.5.2
Males and Females
859
25.6
Recombination
859
25.6.1
The Ancestral Recombination Graph
860
25.6.2
Properties and Effects of Recombination
863
25.7
Selection
865
25.7.1
Balancing Selection
865
25.7.2
Selective Sweeps
868
25.7.3
Background Selection
868
25.8
Neutral Mutations
869
25.9
Conclusion
870
25.9.1
The Coalescent and 'Classical' Population Genetics
870
25.9.2
The Coalescent and Phylogenetics
870
25.9.3
Prospects
872
Acknowledgments
872
References
872
26
Inference Under the Coalescent
878
M. Stephens
26.1
Introduction
878
26.1.1
Likelihood-based Inference
879
26.2
The Likelihood and the Coalescent
883
26.3
Importance Sampling
885
26.3.1
Likelihood Surfaces
887
26.3.2
Ancestral Inference
888
26.3.3
Application and Assessing Reliability
888
26.4
Markov Chain Monte Carlo
889
26.4.1
Introduction
889
26.4.2
Choosing a Good Proposal Distribution
891
26.4.3
Likelihood Surfaces
891
26.4.4
Ancestral Inference
893
26.4.5
Example Proposal Distributions
894
26.4.6
Application and Assessing Reliability
897
26.4.7
Extensions to More Complex Demographic and Genetic Models
899
26.5
Other Approaches
900
26.5.1
Rejection Sampling and Approximate Bayesian Computation
900
26.5.2
Composite Likelihood Methods
902
26.5.3
Product of Approximate Conditionals
(PAC)
Models
903
26.6
Software and Web Resources
903
26.6.1
Population Genetic Simulations
904
26.6.2
Inference Methods
904
Acknowledgments
905
References
906
CONTENTS xxi
27
Linkage Disequilibrium, Recombination and Selection
909
G. McVean
27.1
What Is Linkage Disequilibrium?
909
27.2
Measuring Linkage Disequilibrium
911
27.2.1
Single-number Summaries of LD
913
27.2.2
The Spatial Distribution of LD
914
27.2.3
Various Extensions of Two-locus LD Measures
918
27.2.4
The Relationship between r2 and Power in Association Studies
919
27.3
Modelling LD and Genealogical History
922
27.3.1
A Historical Perspective
922
27.3.2
Coalescent Modelling
924
27.3.3
Relating Genealogical History to LD
930
27.4
Inference
932
27.4.1
Formulating the Hypotheses
932
27.4.2
Parameter Estimation
933
27.4.3
Hypothesis Testing
937
27.5
Prospects
938
Acknowledgments
939
Related Chapters
940
References
940
28
Inferences from Spatial Population Genetics
945
F. Rousset
28.1
Introduction
945
28.2
Neutral Models of Geographical Variation
946
28.2.1
Assumptions and Parameters
946
28.3
Methods of Inference
948
28.3.1
F-statistics
948
28.3.2
Likelihood Computations
952
28.4
Inference Under the Different Models
955
28.4.1
Migration-Matrix Models
955
28.4.2
Island Model
955
28.4.3
Isolation by Distance
956
28.4.4
Likelihood Inferences
959
28.5
Separation of Timescales
960
28.6
Other Methods
962
28.6.1
Assignment and Clustering
962
28.6.2
Inferences from Clines
964
28.7
Integrating Statistical Techniques into the Analysis of Biological
965
Processes
Acknowledgments
966
Related Chapters
966
References
967
Appendix A: Analysis of Variance and Probabilities of Identity
972
Appendix B: Likelihood Analysis of the Island Model
977
xxii
CONTENTS
29
Analysis of Population Subdivision
980
L. Excoffier
29.1
Introduction 98°
29.1.1
Effects of Population Subdivision
980
29.2
The Fixation Index
F
982
29.3
Wright's
F
Statistics in Hierarchic Subdivisions
983
29.3.1
Multiple
Alíeles
985
29.3.2
Sample Estimation of
F
Statistics
986
29.3.3
G
Statistics
987
29.4
Analysis of Genetic Subdivision Under an Analysis of Variance
988
Framework
29.4.1
The Model
989
29.4.2
Estimation Procedure
991
29.4.3
Dealing with Mutation and Migration using Identity Coefficients
996
29.5
Relationship Between Different Definitions of Fixation Indexes
997
29.6
F
Statistics and Coalescence Times
999
29.7
Analysis of Molecular Data: The
Amova
Framework
1001
29.7.1
Haplotypic Diversity
1001
29.7.2
Genotypie
Data
1004
29.7.3
Multiallelic Molecular Data
1004
29.7.4
Dominant Data
1007
29.7.5
Relation of
AMOVA
with other Approaches
1008
29.8
Significance Testing
1009
29.8.1
Resampling Techniques
1009
29.9
Related and Remaining Problems
1011
29.9.1
Testing Departure from Hardy-Weinberg Equilibrium
1011
29.9.2
Detecting Loci under Selection
1012
29.9.3
What is the Underlying Genetic Structure of Populations?
1012
Acknowledgments
1013
References
1013
30
Conservation Genetics
1021
M.A. Beaumont
30.1
Introduction
1021
30.2
Estimating Effective Population Size
1022
30.2.1
Estimating Ne Using Two Samples from the Same Population:
1023
The Temporal Method
30.2.2
Estimating Ne from Two Derived Populations
1025
30.2.3
Estimating JVe Using One Sample
1030
30.2.4
Inferring Past Changes in Population Size:
1033
Population Bottlenecks
30.2.5
Approximate Bayesian Computation
1040
30.3
Admixture
1041
30.4
Genotypie
Modelling
1046
30.4.1
Assignment Testing
1046
30.4.2
Genetic Mixture Modelling and Clustering
1048
30.4.3
Hybridisation and the Use of Partially Linked Markers
1051
CONTENTS_ xxiii
30.4.4
Inferring Current Migration Rates
1052
30.4.5
Spatial Modelling
1053
30.5
Relatedness and Pedigree Estimation
1054
Acknowledgments
1057
Related Chapters
1057
References
1058
31
Human Genetic Diversity and its History
1067
G. Barbujani and L, Chikhi
31.1
Introduction
1068
31.2
Human Genetic Diversity: Historical Inferences
1069
31.2.1
Some Data on Fossil Evidence
1069
31.2.2
Models of Modern Human Origins
1070
31.2.3
Methods for Inferring Past Demography
1071
31.2
A Reconstructing Past Human Migration and Demography
1075
31.3
Human Genetic Diversity: Geographical Structure
1081
31.3.1
Catalogues of Humankind
1081
31.3.2
Methods for Describing Population Structure
1084
31.3.3
Identifying the Main Human Groups
1087
31.3.4
Continuous versus Discontinuous Models of Human Variation
1091
31.4
Final Remarks
1092
Acknowledgments
1096
References
1096
Part
6
GENETIC EPIDEMIOLOGY
1109
32
Epidemiology and Genetic Epidemiology
1111
P.R. Burton, J.M. Bowden and M.D.
Tobin
32.1
Introduction
1111
32.2
Descriptive Epidemiology
1112
32.2.1
Incidence and Prevalence
1114
32.2.2
Modelling Correlated Responses
1115
32.3
Descriptive Genetic Epidemiology
1117
32.3.1
Is There Evidence of Phenotypic Aggregation within Families?
1117
32.3.2
Is the Pattern of Correlation Consistent with a Possible
1118
Effect of Genes?
32.3.3
Segregation Analysis
1126
32.3.4
Ascertainment
1127
32.4
Studies Investigating Specific Aetiological Determinants
1130
32.5
The Future
П31
Acknowledgments
1132
References
1132
33
Linkage Analysis
1141
E.A. Thompson
33.1
Introduction
1141
xxjy
CONTENTS
33.2
The Early Years
1142
33.3
The Development of Human Genetic Linkage Analysis
1144
33.4
The Pedigree Years; Segregation and Linkage Analysis
1146
33.5
Likelihood and Location Score Computation
1149
33.6
Monte Carlo Multipoint Linkage Likelihoods
1151
33.7
Linkage Analysis of Complex Traits
1155
33.8
Map Estimation, Map Uncertainty, and The Meiosis Model
1158
33.9
The Future
1162
Acknowledgments
1163
References
1163
34
Non-parametric Linkage
1168
P. Holmans
34.1
Introduction
1168
34.2
Pros and Cons of Model-free Methods
1169
34.3
Model-free Methods for Dichotomous Traits
1171
34.3.1
Affected Sib-pair Methods
1171
34.3.2
Parameter Estimation and Power Calculation Using
1172
Affected Sib Pairs
34.3.3
Typing Unaffected Relatives in Sib-pair Analyses
1173
34.3.4
Application of Sib-pair Methods to Multiplex Sibships
1174
34.3.5
Methods for Analysing Larger Pedigrees
1175
34.3.6
Extensions to Multiple Marker Loci
1176
34.3.7
Multipoint Analysis with Tightly Linked Markers
1177
34.3.8
Inclusion of Covariates
1177
34.3.9
Multiple Disease Loci
1179
34.3.10
Significance Levels for Genome Scans
1180
34.3.11
Meta-analysis of Genome Scans
1180
34.4
Model-free Methods for Analysing Quantitative Traits
1181
34.5
Conclusions
1182
Related Chapters
1182
References
1183
35
Population Admixture and Stratification in Genetic
1190
Epidemiology
P.M. McKeigue
35.1
Background
1191
35.2
Admixture Mapping
Ц92
35.2.1
Basic Principles
Ц92
35.2.2
Statistical Power and Sample Size
1194
35.2.3
Distinguishing between Genetic and Environmental
1196
Explanations for Ethnic Variation in Disease Risk
35.3
Statistical Models
1198
35.3.1
Modelling Admixture
1198
35.3.2
Modelling Stratification
1199
35.3.3
Modelling
Alíele
Frequencies
1201
CONTENTS_xxv
35.3.4
Fitting
the Statistical Model
1202
35.3.5
Model Comparison
1203
35.3.6
Assembling and Evaluating Panels of Ancestry-informative
1204
Marker Loci
35.4
Testing For Linkage With Locus Ancestry
1205
35.4.1
Modelling Population Stratification
1207
35.5
Conclusions
1212
References
1213
36
Population Association
1216
D. Clayton
36.1
Introduction
1216
36.2
Measures of Association
1217
36.3
Case-Control Studies
1219
36.4
Tests For Association
1221
36.5
Logistic Regression And Log-Linear Models
1225
36.6
Stratification And Matching
1227
36.7
Unmeasured Confounding
1230
36.8
Multiple
Alíeles
1232
36.9
Multiple Loci
1234
36.10
Discussion
1236
Acknowledgments
1236
References
1236
37
Whole Genome Association
1238
A.P. Morris and L.R.
Cardon
37.1
Introduction
1238
37.1.1
Linkage Disequilibrium and Tagging
1239
37.1.2
Current WGA Studies
1240
37.2
Genotype Quality Control
1242
37.3
Single-Locus Analysis
1245
37.3.1
Logistic Regression Modelling Framework
1247
37.3.2
Interpretation of Results and Correction for Multiple Testing
1249
37.4
Population Structure
1250
37.5
Multi-Locus Analysis
1251
37.5.1
Haplotype-based Analyses
1252
37.5.2
Haplotype Clustering Techniques
1253
37.6
Epistasis
1254
37.7
Replication
1256
37.8
Prospects for Whole-Genome Association Studies
1257
References
1258
38
Family-based Association
1264
F. Dudbridge
38.1
Introduction
1264
38.2
Transmission/Disequilibrium Test
1266
xxvi
_CONTENTS
38.3
Logistic
Regression Models 1268
38.4 Haplotype
Analysis
1271
38.5 General
Pedigree Structures
1273
38.6 Quantitative
Traits
1276
38.7
Association in the Presence of Linkage
1278
38.8
Conclusions
1281
References
1282
39
Cancer Genetics I286
M.D. Teare
39.1
Introduction
1286
39.2
Armitage-Doll Models of Carcinogenesis
1287
39.2.1
The Multistage Model
1287
39.2.2
The Two-stage Model
1289
Electronic Resources
1298
References
1298
40
Epigenetics
1301
K.D.
Siegmund
and S. Lin
40.1
A Brief Introduction
1301
40.2
Technologies for CGI Methylation Interrogation
1303
40.2.1
MethyLight
1304
40.2.2
Methylation Microarrays
1304
40.3
Modeling Human Cell Populations
1305
40.3.1
Background
1305
40.3.2
Methylation Patterns
1305
40.3.3
Modeling Human Colon Crypts
1306
40.3.4
Summary
1307
40.4
Mixture Modeling
1307
40.4.1
Cluster Analysis
1308
40.4.2
Modeling Exposures for Latent Disease Subtypes
1310
40.4.3
Differential Methylation with Single-slide Data
1311
40.5
Recapitulation of Tumor Progression Pathways
1313
40.5.1
Background
1313
40.5.2
Heritable Clustering
1313
40.5.3
Further Comments
1315
40.6
Future Challenges
1316
Acknowledgments
1316
References
1317
Part
7
SOCIAL AND ETHICAL ASPECTS
1323
41
Ethics Issues in Statistical Genetics
1325
R.E. Ashcroft
41.1
Introduction: Scope of This Chapter
1325
41.1.1
What is Ethics'?
1326
CONTENTS xxvji
41.1.2
Models for Analysing the Ethics of Population Genetic Research
1327
41.2
A Case Study in Ethical Regulation of Population Genetics Research:
1329
UK Biobank's Ethics and Governance Framework
41.2.1
The Scientific and Clinical Value of the Research
1330
41.2.2
Recruitment of Participants
1332
41.2.3
Consent
1334
41.2.4
Confidentiality and Security
1339
41.3
Stewardship
1339
41.3.1
Benefit Sharing
1340
41.3.2
Community Involvement
1341
41.4
Wider Social Issues
1341
41.4.1
Geneticisation
1341
41.4.2
Race, Ethnicity and Genetics
1342
41.5
Conclusions
1343
Acknowledgments
1343
References
1343
42
Insurance
1346
A.S.
Macdonald
42.1
Principles of Insurance
1346
42.1.1
Long-term Insurance Pricing
1346
42.1.2
Life Insurance Underwriting
1348
42.1.3
Familial and Genetic Risk Factors
1349
42.1.4
Adverse Selection
1349
42.1.5
Family Medical Histories
1350
42.1.6
Legislation and Regulation
1351
42.1.7
Quantitative Questions
1352
42.2
Actuarial Modelling
1352
42.2.1
Actuarial Models for Life and Health Insurance
1352
42.2.2
Parameterising Actuarial Models
1354
42.2.3
Market Models and Missing Information
1355
42.2.4
Modelling Strategies
1357
42.2.5
Statistical Issues
1358
42.2.6
Economics Issues
1359
42.3
Examples and Conclusions
1359
42.3.1
Single-gene Disorders
1359
42.3.2
Multifactorial Disorders
1361
References
1365
43
Forensics
1368
B.S. Weir
43.1
Introduction
1368
43.2
Principles of Interpretation
1369
43.3
Profile Probabilities
1371
43.3.1
Allelic Independence
1371
43.3.2
Alíele
Frequencies
1373
xxviii
CONTENTS
43.3.3 Joint Profile
Probabilities
1375
43.4
Parentage Issues
1377
43.5
Identification of Remains
1379
43.6
Mixtures
1379
43.7
Sampling Issues
1383
43.7.1
Alíele
Probabilities
1383
43.7.2
Coancestry
1384
43.8
Other Forensic Issues
1385
43.8.1
Common Fallacies
1385
43.8.2
Relevant Population
1385
43.8.3
Database Searches
1386
43.8.4
Uniqueness of Profiles
1386
43.8.5
Assigning Individuals to Phenotypes,
Populations or Families
1388
43.8.6
Hierarchy of Propositions
1389
43.9
Conclusions
1390
References
1390
Reference Author Index
I
Subject Index
LXIII |
| any_adam_object | 1 |
| any_adam_object_boolean | 1 |
| building | Verbundindex |
| bvnumber | BV023285399 |
| ctrlnum | (OCoLC)836610287 (DE-599)BVBBV023285399 |
| dewey-full | 576.5 570.15 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 576 - Genetics and evolution 570 - Biology |
| dewey-raw | 576.5 570.15 |
| dewey-search | 576.5 570.15 |
| dewey-sort | 3576.5 |
| dewey-tens | 570 - Biology |
| discipline | Biologie |
| discipline_str_mv | Biologie |
| edition | 3. ed. |
| format | Book |
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| id | DE-604.BV023285399 |
| illustrated | Not Illustrated |
| index_date | 2024-07-02T20:41:23Z |
| indexdate | 2024-07-09T21:14:58Z |
| institution | BVB |
| isbn | 0470058307 9780470058305 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016470115 |
| oclc_num | 836610287 |
| open_access_boolean | |
| owner | DE-20 DE-355 DE-BY-UBR DE-19 DE-BY-UBM DE-11 DE-91G DE-BY-TUM |
| owner_facet | DE-20 DE-355 DE-BY-UBR DE-19 DE-BY-UBM DE-11 DE-91G DE-BY-TUM |
| physical | LII S., S. 755-1392, LXXXIV S. |
| publishDate | 2007 |
| publishDateSearch | 2007 |
| publishDateSort | 2007 |
| publisher | John Wiley & Sons |
| record_format | marc |
| spelling | Handbook of statistical genetics 2 edited by D. J. Balding, M. Bishop, C. Cannings 3. ed. Chichester, West Sussex, England John Wiley & Sons 2007 LII S., S. 755-1392, LXXXIV S. txt rdacontent n rdamedia nc rdacarrier Genetik (DE-588)4071711-2 gnd rswk-swf Statistik (DE-588)4056995-0 gnd rswk-swf Methode (DE-588)4038971-6 gnd rswk-swf Genetik (DE-588)4071711-2 s Statistik (DE-588)4056995-0 s Methode (DE-588)4038971-6 s DE-604 Balding, David J. Sonstige oth Bishop, M. Sonstige oth Cannings, Christopher Sonstige oth (DE-604)BV017087281 2 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016470115&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Handbook of statistical genetics Genetik (DE-588)4071711-2 gnd Statistik (DE-588)4056995-0 gnd Methode (DE-588)4038971-6 gnd |
| subject_GND | (DE-588)4071711-2 (DE-588)4056995-0 (DE-588)4038971-6 |
| title | Handbook of statistical genetics |
| title_auth | Handbook of statistical genetics |
| title_exact_search | Handbook of statistical genetics |
| title_exact_search_txtP | Handbook of statistical genetics |
| title_full | Handbook of statistical genetics 2 edited by D. J. Balding, M. Bishop, C. Cannings |
| title_fullStr | Handbook of statistical genetics 2 edited by D. J. Balding, M. Bishop, C. Cannings |
| title_full_unstemmed | Handbook of statistical genetics 2 edited by D. J. Balding, M. Bishop, C. Cannings |
| title_short | Handbook of statistical genetics |
| title_sort | handbook of statistical genetics |
| topic | Genetik (DE-588)4071711-2 gnd Statistik (DE-588)4056995-0 gnd Methode (DE-588)4038971-6 gnd |
| topic_facet | Genetik Statistik Methode |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016470115&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| volume_link | (DE-604)BV017087281 |
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