Test, Genetics:  Know the definitions of the following terms, and how they relate to genetics: adaptation, allele, asexual
reproduction, chromosome, dominant, evolution, gene, genotype, heterozygous, homozygous, mutation, natural selection, nucleus,
phenotype, recessive, selective breeding, sexual reproduction. (I will assess this with matching questions)  Be able to make
Punnett Squares from given genotypes, and use them to predict the % chance of specific phenotypes (“Punnett Square
Practice”).  Be able to infer genotype from known phenotypes, using larkey family trees.  Be able to identify needed parent
phenotypes if specific offspring phenotypes are to be possible (See “Impossible Traits” on FOSSweb for extra practice). You are
NOT expected to memorize the Larkey Genetics Code – I will provide it to you.
Test, Genetics:  Know the definitions of the following terms, and how they relate to genetics: adaptation, allele, asexual
reproduction, chromosome, dominant, evolution, gene, genotype, heterozygous, homozygous, mutation, natural selection, nucleus,
phenotype, recessive, selective breeding, sexual reproduction. (I will assess this with matching questions)  Be able to make
Punnett Squares from given genotypes, and use them to predict the % chance of specific phenotypes (“Punnett Square
Practice”).  Be able to infer genotype from known phenotypes, using larkey family trees.  Be able to identify needed parent
phenotypes if specific offspring phenotypes are to be possible (See “Impossible Traits” on FOSSweb for extra practice). You are
NOT expected to memorize the Larkey Genetics Code – I will provide it to you.
Test, Genetics:  Know the definitions of the following terms, and how they relate to genetics: adaptation, allele, asexual
reproduction, chromosome, dominant, evolution, gene, genotype, heterozygous, homozygous, mutation, natural selection, nucleus,
phenotype, recessive, selective breeding, sexual reproduction. (I will assess this with matching questions)  Be able to make
Punnett Squares from given genotypes, and use them to predict the % chance of specific phenotypes (“Punnett Square
Practice”).  Be able to infer genotype from known phenotypes, using larkey family trees.  Be able to identify needed parent
phenotypes if specific offspring phenotypes are to be possible (See “Impossible Traits” on FOSSweb for extra practice). You are
NOT expected to memorize the Larkey Genetics Code – I will provide it to you.
Test, Genetics:  Know the definitions of the following terms, and how they relate to genetics: adaptation, allele, asexual
reproduction, chromosome, dominant, evolution, gene, genotype, heterozygous, homozygous, mutation, natural selection, nucleus,
phenotype, recessive, selective breeding, sexual reproduction. (I will assess this with matching questions)  Be able to make
Punnett Squares from given genotypes, and use them to predict the % chance of specific phenotypes (“Punnett Square
Practice”).  Be able to infer genotype from known phenotypes, using larkey family trees.  Be able to identify needed parent
phenotypes if specific offspring phenotypes are to be possible (See “Impossible Traits” on FOSSweb for extra practice). You are
NOT expected to memorize the Larkey Genetics Code – I will provide it to you.
Test, Genetics:  Know the definitions of the following terms, and how they relate to genetics: adaptation, allele, asexual
reproduction, chromosome, dominant, evolution, gene, genotype, heterozygous, homozygous, mutation, natural selection, nucleus,
phenotype, recessive, selective breeding, sexual reproduction. (I will assess this with matching questions)  Be able to make
Punnett Squares from given genotypes, and use them to predict the % chance of specific phenotypes (“Punnett Square
Practice”).  Be able to infer genotype from known phenotypes, using larkey family trees.  Be able to identify needed parent
phenotypes if specific offspring phenotypes are to be possible (See “Impossible Traits” on FOSSweb for extra practice). You are
NOT expected to memorize the Larkey Genetics Code – I will provide it to you.
Test, Genetics:  Know the definitions of the following terms, and how they relate to genetics: adaptation, allele, asexual
reproduction, chromosome, dominant, evolution, gene, genotype, heterozygous, homozygous, mutation, natural selection, nucleus,
phenotype, recessive, selective breeding, sexual reproduction. (I will assess this with matching questions)  Be able to make
Punnett Squares from given genotypes, and use them to predict the % chance of specific phenotypes (“Punnett Square
Practice”).  Be able to infer genotype from known phenotypes, using larkey family trees.  Be able to identify needed parent
phenotypes if specific offspring phenotypes are to be possible (See “Impossible Traits” on FOSSweb for extra practice). You are
NOT expected to memorize the Larkey Genetics Code – I will provide it to you.
Test, Genetics:  Know the definitions of the following terms, and how they relate to genetics: adaptation, allele, asexual
reproduction, chromosome, dominant, evolution, gene, genotype, heterozygous, homozygous, mutation, natural selection, nucleus,
phenotype, recessive, selective breeding, sexual reproduction. (I will assess this with matching questions)  Be able to make
Punnett Squares from given genotypes, and use them to predict the % chance of specific phenotypes (“Punnett Square
Practice”).  Be able to infer genotype from known phenotypes, using larkey family trees.  Be able to identify needed parent
phenotypes if specific offspring phenotypes are to be possible (See “Impossible Traits” on FOSSweb for extra practice). You are
NOT expected to memorize the Larkey Genetics Code – I will provide it to you.
Test, Genetics:  Know the definitions of the following terms, and how they relate to genetics: adaptation, allele, asexual
reproduction, chromosome, dominant, evolution, gene, genotype, heterozygous, homozygous, mutation, natural selection, nucleus,
phenotype, recessive, selective breeding, sexual reproduction. (I will assess this with matching questions)  Be able to make
Punnett Squares from given genotypes, and use them to predict the % chance of specific phenotypes (“Punnett Square
Practice”).  Be able to infer genotype from known phenotypes, using larkey family trees.  Be able to identify needed parent
phenotypes if specific offspring phenotypes are to be possible (See “Impossible Traits” on FOSSweb for extra practice). You are
NOT expected to memorize the Larkey Genetics Code – I will provide it to you.