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• catalog contributor b10160340.
• catalog created "1997.".
• catalog date "1997".
• catalog date "1997.".
• catalog dateCopyrighted "1997.".
• catalog description "1. Basic principles of population genetics : 1.1. Introduction ; 1.2. Genetics background ; 1.3. Hardy-Weinberg equilibrium ; 1.4. Linkage equilibrium ; 1.5. Selection ; 1.6. Balance between mutation and selection ; 1.7. Problems -- 2. Counting methods and the EM algorithm : 2.1. Introduction ; 2.2. Gene counting ; 2.3. Description of the EM algorithm ; 2.4. Ascent property of the EM algorithm ; 2.5. Allele frequency estimation by the EM algorithm ; 2.6. Classical segregation analysis by the EM algorithm ; 2.7. Problems -- 3. Newton's method and scoring : 3.1. Introduction ; 3.2. Newton's method ; 3.3. Scoring ; 3.4. Application to the design of linkage experiments ; 3.5. Quasi-Newton methods ; 3.6. The Dirichlet distribution ; 3.7. Empirical Bayes estimation of allele frequencies ; 3.8. Problems -- 4. Hypothesis testing and categorical data : 4.1. Introduction ; 4.2. Hypotheses about genotype frequencies ; 4.3. Other multinomial problems in genetics ; 4.4. The Zmax test ; 4.5. The Wd statistic ; 4.6. Exact tests of independence ; 4.7. Problems -- 5. Genetic identity coefficients : 5.1. Introduction ; 5.2. Kinship and inbreeding coefficients ; 5.3. Condensed identity coefficients ; 5.4. Generalized kinship coefficients ; 5.5. From kinship to identity coefficients ; 5.6. Calculation of generalized kinship coefficients ; 5.7. Problems".
• catalog description "11. Radiation hybrid mapping : 11.1. Introduction ; 11.2. Models ; 11.3. Minimum obligate breaks criterion ; 11.4. maximum likelihood methods ; 11.5. Application to haploid data ; 11.6. Polyploid radiation hybrids ; 11.7. Maximum likelihood under polyploidy ; 11.8. Obligate breaks under polyploidy ; 11.9. Bayesian methods ; 11.10. Applications to diploid data ; 11.11. Problems -- 12. Models of recombination : 12.1. Introduction ; 12.2. Mather's formula and its generalization ; 12.3. Count-location model ; 12.4. Stationary renewal models ; 12.5. Poisson-skip model ; 12.6. Chiasma interference ; 12.7. Application to drosophila data ; 12.8. Problems -- 13. Poisson approximation : 13.1. Introduction ; 13.2. Poisson approximation to the Wd statistic ; 13.3. Construction of somatic cell hybrid panels ; 13.4. Biggest marker gap ; 13.5 Randomness of restriction sites ; 13.6. DNA sequence matching ; 13.7. Problems.".
• catalog description "6. Applications of identity coefficients : 6.1. Introduction ; 6.2. Genotype prediction ; 6.3. Covariance for a quantitative trait ; 6.4. Risk ratios and genetic model discrimination ; 6.5. An affecteds-only method of linkage analysis ; 6.6. Problems -- 7. Computation of Mendelian likelihoods : 7.1. Introduction ; 7.2. Mendelian models ; 7.3. Genotype elimination and allele consolidation ; 7.4. Array transformations and iterated sums ; 7.5. Array factoring ; 7.6. Examples of pedigree analysis ; 7.7. Problems -- 8. The polygenic model : 8.1. Introduction ; 8.2. Maximum likelihood estimation by scoring ; 8.3. Application to Gc measured genotype data ; 8.4. Multivariate traits ; 8.5. Left and right-hand finger ridge counts ; 8.6. The hypergeometric polygenic model ; 8.7. Application to risk prediction ; 8.8. Problems -- 9. Markov chain Monte Carlo methods : 9.1. Introduction ; 9.2. Review of discrete-time Makov chains ; 9.3. The Hastings-metropolis algorithm and simulated annealing ; 9.4. Descent states and descent graphs ; 9.5. Descent trees and the founder tree graph ; 9.6. The descent graph Markov chain ; 9.7. Computing location scores ; 9.8. Finding a legal descent graph ; 9.9. Haplotyping ; 9.10 Application to episodic ataxia ; 9.11. Problems -- 10. Reconstruction of evolutionary trees : 10.1. Introduction ; 10.2. Evolutionary trees ; 10.3. Maximum parsimony ; 10.4. Review of continuous-time Markov chains ; 10.5. A nucleotide substitution model ; 10.6. Maximum likelihood reconstruction ; 10.7. Origin of the eukaryotes ; 10.8. Problems".
• catalog description "Includes bibliographical references and index.".
• catalog extent "xii, 265 p. ;".
• catalog identifier "0387949097 (hc : alk. paper)".
• catalog isPartOf "Statistics for biology and health".
• catalog issued "1997".
• catalog issued "1997.".
• catalog language "eng".
• catalog publisher "New York : Springer,".
• catalog subject "1997 J-630".
• catalog subject "576.5/01/51 21".
• catalog subject "Genetic Techniques.".
• catalog subject "Genetics Mathematics.".
• catalog subject "Genetics Statistical methods.".
• catalog subject "Models, Genetic.".
• catalog subject "Models, Statistical.".
• catalog subject "QH 438.4.M33 L269m 1997".
• catalog subject "QH438.4.M33 L36 1997".
• catalog tableOfContents "1. Basic principles of population genetics : 1.1. Introduction ; 1.2. Genetics background ; 1.3. Hardy-Weinberg equilibrium ; 1.4. Linkage equilibrium ; 1.5. Selection ; 1.6. Balance between mutation and selection ; 1.7. Problems -- 2. Counting methods and the EM algorithm : 2.1. Introduction ; 2.2. Gene counting ; 2.3. Description of the EM algorithm ; 2.4. Ascent property of the EM algorithm ; 2.5. Allele frequency estimation by the EM algorithm ; 2.6. Classical segregation analysis by the EM algorithm ; 2.7. Problems -- 3. Newton's method and scoring : 3.1. Introduction ; 3.2. Newton's method ; 3.3. Scoring ; 3.4. Application to the design of linkage experiments ; 3.5. Quasi-Newton methods ; 3.6. The Dirichlet distribution ; 3.7. Empirical Bayes estimation of allele frequencies ; 3.8. Problems -- 4. Hypothesis testing and categorical data : 4.1. Introduction ; 4.2. Hypotheses about genotype frequencies ; 4.3. Other multinomial problems in genetics ; 4.4. The Zmax test ; 4.5. The Wd statistic ; 4.6. Exact tests of independence ; 4.7. Problems -- 5. Genetic identity coefficients : 5.1. Introduction ; 5.2. Kinship and inbreeding coefficients ; 5.3. Condensed identity coefficients ; 5.4. Generalized kinship coefficients ; 5.5. From kinship to identity coefficients ; 5.6. Calculation of generalized kinship coefficients ; 5.7. Problems".
• catalog tableOfContents "11. Radiation hybrid mapping : 11.1. Introduction ; 11.2. Models ; 11.3. Minimum obligate breaks criterion ; 11.4. maximum likelihood methods ; 11.5. Application to haploid data ; 11.6. Polyploid radiation hybrids ; 11.7. Maximum likelihood under polyploidy ; 11.8. Obligate breaks under polyploidy ; 11.9. Bayesian methods ; 11.10. Applications to diploid data ; 11.11. Problems -- 12. Models of recombination : 12.1. Introduction ; 12.2. Mather's formula and its generalization ; 12.3. Count-location model ; 12.4. Stationary renewal models ; 12.5. Poisson-skip model ; 12.6. Chiasma interference ; 12.7. Application to drosophila data ; 12.8. Problems -- 13. Poisson approximation : 13.1. Introduction ; 13.2. Poisson approximation to the Wd statistic ; 13.3. Construction of somatic cell hybrid panels ; 13.4. Biggest marker gap ; 13.5 Randomness of restriction sites ; 13.6. DNA sequence matching ; 13.7. Problems.".
• catalog tableOfContents "6. Applications of identity coefficients : 6.1. Introduction ; 6.2. Genotype prediction ; 6.3. Covariance for a quantitative trait ; 6.4. Risk ratios and genetic model discrimination ; 6.5. An affecteds-only method of linkage analysis ; 6.6. Problems -- 7. Computation of Mendelian likelihoods : 7.1. Introduction ; 7.2. Mendelian models ; 7.3. Genotype elimination and allele consolidation ; 7.4. Array transformations and iterated sums ; 7.5. Array factoring ; 7.6. Examples of pedigree analysis ; 7.7. Problems -- 8. The polygenic model : 8.1. Introduction ; 8.2. Maximum likelihood estimation by scoring ; 8.3. Application to Gc measured genotype data ; 8.4. Multivariate traits ; 8.5. Left and right-hand finger ridge counts ; 8.6. The hypergeometric polygenic model ; 8.7. Application to risk prediction ; 8.8. Problems -- 9. Markov chain Monte Carlo methods : 9.1. Introduction ; 9.2. Review of discrete-time Makov chains ; 9.3. The Hastings-metropolis algorithm and simulated annealing ; 9.4. Descent states and descent graphs ; 9.5. Descent trees and the founder tree graph ; 9.6. The descent graph Markov chain ; 9.7. Computing location scores ; 9.8. Finding a legal descent graph ; 9.9. Haplotyping ; 9.10 Application to episodic ataxia ; 9.11. Problems -- 10. Reconstruction of evolutionary trees : 10.1. Introduction ; 10.2. Evolutionary trees ; 10.3. Maximum parsimony ; 10.4. Review of continuous-time Markov chains ; 10.5. A nucleotide substitution model ; 10.6. Maximum likelihood reconstruction ; 10.7. Origin of the eukaryotes ; 10.8. Problems".
• catalog title "Mathematical and statistical methods for genetic analysis / Kenneth Lange.".
• catalog type "text".