Biotechnology and Genetics in Fisheries and Aquaculture Book

Preface to the second edition ix

Acknowledgements xi

Chapter 1 What is genetic variation? 1

Deoxyribose nucleic acid 1

Ribose nucleic acid 5

What is the genetic code? 7

Protein structure 7

So what about chromosomes? 9

How does sexual reproduction produce variation? 11

Mitochondrial and chloroplast DNA 16

Chapter 2 How can genetic variation be measured? 19

DNA sequence variation 19

DNA fragment size variation 36

Protein variation 44

Phenotypic variation 47

Chapter 3 Genetic structure in natural populations 49

What is a population? 49

How are allele frequencies estimated? 51

What is the relationship between alleles and genotypes? 51

How do allele frequencies change over time? 53

How does population structure arise? 54

How are genetic markers used to study population structure? 55

Levels of genetic differentiation in aquatic organisms 60

Potential problems with allozymes and coding markers 61

mtDNA variation 63

Microsatellite variation 66

Population structure in the flat oyster 68

Mixed stock analysis (MSA) 73

Chapter 4 Genetics of population size in conservation and aquaculture 77

Genetics of small population size in the wild 78

Genetic markers in conservation 82

Genetics of small population size in the hatchery 85

Is there evidence of loss of genetic variation in the hatchery? 87

How does hatchery propagation affect heterozygosity? 89

Genetic markers for identification of hatchery product 93

Genetic markers for pathogen identification 94

Chapter 5 Genetic variation of traits 99

Qualitative traits 99

Quantitative traits 105

What kinds of traits are important? 106

Variation of a quantitative trait 106

How can we estimate narrow-sense heritability? 109

Realised heritability 115

Correlated traits 118

What types of artificial selections are there? 118

Setting up a breeding programme 122

Inbreeding, cross-breeding and hybridisation 123

Current status of selective breeding programmes in aquaculture 126

Chapter 6 From genetics to genomics 129

What is the genome? 129

Genome mapping 130

Whole genome sequencing: the 'big picture' 137

QTL mapping 137

Application of QTLs in aquaculture and fisheries management 138

Marker-assisted selection (MAS): from QTLs to genomic selection 139

Transcriptomics 139

Chapter 7 Triploids and beyond: why manipulate ploidy? 145

How is it done? 146

Production of gynogens and androgens 148

Identification of ploidy change 149

Value of Triploids 151

Tetraploids 155

Gynogens and androgens 157

Chapter 8 Genetic engineering in aquaculture 161

The DNA construct 162

Transgene delivery 164

Transgene integration 168

Detecting integration and expression of the transgene 169

Results of transgenesis efforts in fish 171

So much for transgenics-what about cloning? 176

Genethics 176

Glossary 181

Index 193