Keyphrases
Single nucleotide Polymorphism
100%
Tung Tree
100%
Vernicia Fordii
100%
FAD2
100%
Biodiesel Plant
100%
SNP
57%
Coding Region
42%
Amino Acids
14%
Fatty Acid Composition
14%
Plant Species
14%
Genomic Approaches
14%
Lipid Metabolism
14%
Non-synonymous mutation
14%
Further Analysis
14%
Genetic Approach
14%
Multiple Use
14%
Good Quality
14%
New Cultivar
14%
Oil Producing
14%
DNA Polymorphism
14%
DNA Sequence Variation
14%
Quality Adaptation
14%
Oleate Desaturase
14%
Wide Adaptation
14%
Lipid Biosynthesis
14%
Germplasm Accessions
14%
Seed Lipid Metabolism
14%
Application in Industry
14%
Biodiesel Production
14%
Polyunsaturated FA
14%
Seed Oil Composition
14%
Tree Germplasm
14%
Agricultural and Biological Sciences
Single Nucleotide Polymorphism
100%
Biodiesel
100%
Vernicia fordii
100%
Lipid Metabolism
28%
Seeds
14%
Cultivar
14%
Fatty Acids
14%
Germplasm
14%
Amino Acid
14%
Oleic Acid
14%
Seed Oils
14%
Nucleotide Diversity
14%
Lipogenesis
14%
Biochemistry, Genetics and Molecular Biology
Tree
100%
Single-Nucleotide Polymorphism
100%
Single Nucleotide Polymorphism
57%
Coding Region
42%
Lipid Metabolism
28%
Amino Acids
14%
Genetics
14%
Cultivar
14%
DNA Sequence
14%
Lipogenesis
14%
Germplasm
14%
Gene Polymorphism
14%
Lipid Composition
14%
Immunology and Microbiology
Single Nucleotide Polymorphism
100%
Tree
100%
Lipid Metabolism
28%
DNA Sequence
14%
Lipogenesis
14%
Cultivar
14%
Germplasm
14%
Lipid Composition
14%
DNA Polymorphism
14%