2. Sexual Reproduction and Genetics
Section 2: Mendelian Genetics
Section 3: Gene Linkage and Polyploidy

3. Mendel performed cross-pollination in pea plants.
Section 2
Sexual Reproduction and Genetics
Mendelian Genetics
How Genetics Began
The passing of traits to the next generation is called inheritance, or heredity.
Mendel performed cross-pollination in pea plants.
Mendel followed various traits in the pea plants he bred.

4. The parent generation is also known as the P generation.
Section 2
Sexual Reproduction and Genetics
Mendelian Genetics
The parent generation is also known as the P generation.

5. The second filial (F2) generation is the offspring from the F1 cross.
Section 2
Sexual Reproduction and Genetics
Mendelian Genetics
The offspring of this P cross are called the first filial (F1) generation.
The second filial (F2) generation is the offspring from the F1 cross.

6. Mendel studied seven different traits.
Section 2
Sexual Reproduction and Genetics
Mendelian Genetics
Mendel studied seven different traits.
Seed or pea color
Flower color
Seed pod color
Seed shape or texture
Seed pod shape
Stem length
Flower position

7. Section 2
Sexual Reproduction and Genetics
Mendelian Genetics
Genes in Pairs
Allele
An alternative form of a single gene passed from generation to generation
Dominant
Recessive

8. Section 2
Sexual Reproduction and Genetics
Mendelian Genetics
Dominance
An organism with two of the same alleles for a particular trait is homozygous.
An organism with two different alleles for a particular trait is heterozygous.

9. Genotype and Phenotype
Section 2
Sexual Reproduction and Genetics
Mendelian Genetics
Genotype and Phenotype
An organism’s allele pairs are called its genotype.
The observable characteristic or outward expression of an allele pair is called the phenotype.

10. Mendel’s Law of Segregation
Section 2
Sexual Reproduction and Genetics
Mendelian Genetics
Mendel’s Law of Segregation
Two alleles for each trait separate during meiosis.
During fertilization, two alleles for that trait unite.
Heterozygous organisms are called hybrids.

11. Section 2
Sexual Reproduction and Genetics
Mendelian Genetics
Monohybrid Cross
A cross that involves hybrids for a single trait is called a monohybrid cross.

12. Dihybrids are heterozygous for both traits.
Section 2
Sexual Reproduction and Genetics
Mendelian Genetics
Dihybrid Cross
The simultaneous inheritance of two or more traits in the same plant is a dihybrid cross.
Dihybrids are heterozygous for both traits.

13. Law of Independent Assortment
Section 2
Sexual Reproduction and Genetics
Mendelian Genetics
Law of Independent Assortment
Random distribution of alleles occurs during gamete formation
Genes on separate chromosomes sort independently during meiosis.
Each allele combination is equally likely to occur.

14. Predict the possible offspring of a cross between two known genotypes
Section 2
Sexual Reproduction and Genetics
Mendelian Genetics
Punnett Squares
Predict the possible offspring of a cross between two known genotypes
Punnett Squares

15. Punnett Square—Dihybrid Cross
Section 2
Sexual Reproduction and Genetics
Mendelian Genetics
Punnett Square—Dihybrid Cross
Four types of alleles from the male gametes and four types of alleles from the female gametes can be produced.
The resulting phenotypic ratio is 9:3:3:1.

16. Genetic Recombination
Section 3
Sexual Reproduction and Genetics
Gene Linkage and Polyploidy
Genetic Recombination
The new combination of genes produced by crossing over and independent assortment
Combinations of genes due to independent assortment can be calculated using the formula 2n, where n is the number of chromosome pairs.

17. Gene Linkage and Polyploidy
Section 3
Sexual Reproduction and Genetics
Gene Linkage and Polyploidy
Gene Linkage
The linkage of genes on a chromosome results in an exception to Mendel’s law of independent assortment because linked genes usually do not segregate independently.

18. Section 3
Sexual Reproduction and Genetics
Gene Linkage and Polyploidy
Polyploidy
Polyploidy is the occurrence of one or more extra sets of all chromosomes in an organism.
A triploid organism, for instance, would be designated 3n, which means that it has three complete sets of chromosomes.

19. Which symbol is used to represent the
Chapter
Sexual Reproduction and Genetics
Chapter Diagnostic Questions
Which symbol is used to represent the
number of chromosomes in a gamete? # x r n A B C D
CDQ 1

20. Name the person known as the father of genetics.
Chapter
Sexual Reproduction and Genetics
Chapter Diagnostic Questions
Name the person known as the father of
genetics.
Felix Mendelssohn
Gregor Mendel
Dr. Reginald Punnett
Albert Einstein A B C D
CDQ 2

21. Which term refers to the outward expression of an allele pair?
Chapter
Sexual Reproduction and Genetics
Chapter Diagnostic Questions
Which term refers to the outward expression
of an allele pair?
gamete
hybrid
phenotype
genotype A B C D
CDQ 3

22. What is the name for different forms of a
Chapter
Sexual Reproduction and Genetics
Section 2 Formative Questions
What is the name for different forms of a
single gene that are passed from generation
to generation?
alleles
genotypes
phenotypes
traits A B C D
FQ 5

23. Which pair of alleles is heterozygous?
Chapter
Sexual Reproduction and Genetics
Section 2 Formative Questions
Which pair of alleles is heterozygous? RR Rr rr yR A B C D
FQ 6

24. In rabbits, gray fur (G) is dominant to black
Chapter
Sexual Reproduction and Genetics
Section 2 Formative Questions
In rabbits, gray fur (G) is dominant to black
fur (g). If a heterozygous male is crossed with
a heterozygous female, what is the phenotypic
ratio of the possible offspring?
1:1
1:2:1
2:1
3:1 A B C D
FQ 7

25. Two genes on the same chromosome may become separated during meiosis.
Chapter
Sexual Reproduction and Genetics
Section 3 Formative Questions
Two genes on the same chromosome may
become separated during meiosis.
true
false A B
FQ 9

26. What is the term for an organism that has one
Chapter
Sexual Reproduction and Genetics
Section 3 Formative Questions
What is the term for an organism that has one
or more sets of extra chromosomes in its cells?
diploid
gamete
hybrid
polyploid A B C D
FQ 10

27. How many chromosomes would a cell have
Chapter
Sexual Reproduction and Genetics
Chapter Assessment Questions
How many chromosomes would a cell have
during metaphase I of meiosis if it has 12
chromosomes during interphase? 6 12 24 36 A B C D
CAQ 1

28. Which stage of meiosis is illustrated?
Chapter
Sexual Reproduction and Genetics
Chapter Assessment Questions
Which stage of meiosis is illustrated?
prophase I
interphase
anaphase I
anaphase II A B C D
CAQ 2

29. What is the next step for the chromosomes illustrated?
Chapter
Sexual Reproduction and Genetics
Chapter Assessment Questions
What is the next step for the chromosomes illustrated?
Chromosomes replicate.
Chromosomes move to opposite poles.
Chromosomes uncoil and form two nuclei.
Chromosomes line up at the equator. A B C D
CAQ 3

30. What is this process called?
Chapter
Sexual Reproduction and Genetics
Standardized Test Practice
What is this process called?
fertilization
gamete formation
inheritance
reproduction A B C D
STP 1

31. Standardized Test Practice
Chapter
Sexual Reproduction and Genetics
Standardized Test Practice
Before meiosis I, the sister chromatids of this chromosome were identical. What process caused a change in a section of one chromatid?
DNA replication
crossing over
synapsis
telophase A B C D
STP 2

32. At what stage is the chromosome number reduced from 2n to n?
Chapter
Sexual Reproduction and Genetics
Standardized Test Practice
At what stage is the chromosome number reduced from 2n to n?
prophase I
metaphase I
anaphase I
meiosis II A B C D
STP 3

33. To which step in this process does the law of segregation apply?
Chapter
Sexual Reproduction and Genetics
Standardized Test Practice
To which step in this process does the law of segregation apply?
grows into plant
gamete formation
fertilization
seed development A B C D
STP 4

34. 1/4 1/2 1 For human eye color, brown is dominant and
Chapter
Sexual Reproduction and Genetics
Standardized Test Practice
For human eye color, brown is dominant and
blue is recessive. If a husband is heterozygous
and his wife has blue eyes, what is the
probability that their child will have blue eyes?
1/4
1/2 1 A B C D
STP 5

35. Section 2 Vocabulary genetics allele dominant recessive homozygous
Sexual Reproduction and Genetics
Vocabulary
Section 2
genetics
allele
dominant
recessive
homozygous
heterozygous
genotype
phenotype
law of segregation
hybrid
law of independent assortment

36. Section 3 Vocabulary genetic recombination polyploidy Section 3
Sexual Reproduction and Genetics
Vocabulary
Section 3
genetic recombination
polyploidy