Part Ⅰ Conditional QTL Mapping and Their Applications to Wheat Breeding and Cultivation
1 Concept and Research Contents of Conditional QTL Mapping
1.1 Concept of Conditional QTL and Differences Between the Conditional QTL and Unconditional QTL
1.1.1 Concept of Conditional QTL Mapping
1.1.2 Differences Between the Conditional QTL and Unconditional QTL
1.2 Contents of Conditional QTL Analysis
1.2.1 Conditional QTL Mapping for Developmental Dynamic Genetic Effects
1.2.2 Conditional QTL Mapping for Associated Traits Genetic Effects
1.2.3 Conditional QTL Mapping for Agronomic Measure Coupling Genetic Effects
References
2 Conditional QTL Mapping of Major Quality Traits
2.1 Conditional QTL Mapping for Protein Dynamic Accumulation Pattern in Wheat Grain
2.1.1 Materials and Methods
2.1.2 Result and Analysis
2.1.3 Comparison with Previous Researches
2.2 Conditional QTL Mapping for Developmental Behavior of Total Starch and Its Components Content in Wheat Grain
2.2.1 Materials and Methods
2.2.2 Result and Analysis
2.2.3 Comparsion of the Results with Ones of Previous Studies
2.3 Conditional QTL Mapping for Protein and Starch Interaction in Wheat Grain
2.3.1 Materials and Methods
2.3.2 Result and Analysis
2.3.3 Comparison of the Results with Ones of Previous Studies
2.4 Conditional QTL Mapping for Sedimentation Values on Seven Quality Traits in Common Wheat.
2.4.1 Materials and Methods
2.4.2 Result and Analysis
2.4.3 Comparison of the Results with the Previous Studies
2.5 Genetic Analysis of Wheat Four Whiteness Conduct.ed Through Conditional and Unconditional QTL Mappings
2.5.1 Materials and Methods
2.5.2 Result and Analysis
2.6 Epistatic Effects of Unconditional and Conditional QTL Mapping of Flour Whiteness
2.6.1 Comparison of the Results with the Previous Studies
2.7 Conditional QTL Mapping for Wheat Seed Protein-Fraction Contents at Different Developmental Stages
2.7.1 Mateiials and Methods
2.7.2 Result and Analysis
2.7.3 Comparison of the Results with the Previous Studies
References
3 Conditional QTL Mapping of Wheat Main Yield Traits
3.1 Conditional QTL Mapping for Wheat Canopy Traits Under Two Nitrogen Application Levels
3.1.1 Materials and Methods
3.1.2 Result and Analysis
3.1.3 Comparison of the Results with the Previous Studies
3.2 Conditional QTL Mapping for Plant Height at Different Developmental Stages
3.2.1 Materials and Methods
3.2.2 Result and Analysis
3.2.3 Comparison of the Results with Ones of Previous Studies
3.3 Conditional QTL Mapping for Wheat Spike Dry Weight and Thousand-Kernel Weight at Different Developmental Stages
3.3.1 Materials and Methods
3.3.2 Result and Analysis
3.3.3 Comparison of the Results with Previous Studies
3.4 Conditional QTL Mapping for Wheat Kernels Weight per Spike at Different Developmental Stag.es
3.4.1 Materials and Methods
3.4.2 Result and Analysis
3.4.3 Comparison of the Results with Ones of Previous Studies
3.5 Conditional QTL Mapping for Wheat Grain Yield Der Plant at Different Developmental Stages
3.5.1 Materials and Methods
3.5.2 Result and Analysis
3.5.3 Comparison of the Results with Ones of Previous Studies
3.6 Conditional QTL Mapping for Wheat Kernel Weight-Related Traits in Multiple Genetic Background
3.6.1 Materials and Methods
3.6.2 Result and Analysis
3.6.3 Comparison of the Results with the Previous Studies
3.7 Conditional QTL Mappings Among Three Key Yield Components in Common Wheat
3.7.1 Materials and Methods
3.7.2 Result and Analysis
3.7.3 Comparison of the Results with the Previous Studies
3.8 Conditional QTL Mapping for Yield and Its Three Components in Common Wheat
3.8.1 Results of Conditional QTL Analysis on the Yield and Main Yield Components
3.8.2 Result and Analysis
3.8.3 Comparison of the Results with Previous Studies
References
4 Roles of Conditional QTL in Crop Breeding and Cultivation
4.1 Applications of Conditional QTL Mapping to Crop Molecular Breedine
4.2 Applications of Conditional QTL Mapping to Crop Molecular Cultivation
4.3 Issues and Application PrOSDects of Conditional QTL Analysis
References
Part Ⅱ Molecular Marker-Assisted Breeding in Wheat
5 The Concept and Research Progress of MAS
5.1 Concept and Importance of Molecular Marker-Assisted Breeding
5.1.1 The Concept and Features of MAS
5.1.2 The Importance of MAS
5.2 Research Progress of the Molecular Marker-Assisted Breeding
5.2.1 International Research Progress of Molecular Marker-Assisted Breeding
5.2.2 Inland Research Progress of Molecular Marker-Assisted Breeding
References
6 Exploration of Molecular Markers and Creation of Molecular Breeding Elements
6.1 Exploration of Molecular Markers
6.1.1 Development Methods of Molecular Markers
6.1.2 Types and Features of Molecular Markers
6.1.3 The Widely Used Molecular Markers and Their Development Methods
6.1.4 DNA Markers Based on Restriction Enzyme Digestion and PCR
6.1.5 DNA Markers Based on Single Nucleotide Polymorphisms (SNP)
6.2 Examples of Molecular Markers' Development
6.2.1 The Detection Primers of Molecular Marker Closely Linked with the Main QTL of Wheat Spike Length and Its Application
6.2.2 Development of Molecular Marker QGW4B.4-CAPS Related Thousand Kernel Weight
6.2.3 Development of Molecular Marker QGW6A-232 CAPS Related to Thousand Kernel Weight
6.3 Creation and Application of Molecular Breeding Elements with Superior QTL Allele
6.3.1 Clarifying the Implication of Negative and Positive Values of QTL Additive
6.3.2 Determine the Source of Favorable QTL Gene
6.3.3 Creating the Breeding Element.
6.3.4 Obtainine the Molecular Marker of Breedine Elements and Its Application
References
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7 The Technology Roadmap by MAS
8 Molecular Markers of Yield Traits and Their Application
9 Molecular Markers of Quality Traits and Their Applications
10 Molecular Markers of Physiological Traits and Their Applications
11 Molecular Markers of Resistance Traits and Their Applications