Lecture 15: Meiosis and heredity

Question 1

Mitosis and Meiosis

Answer 1

Germ cells
- Meiosis
Somatic cells
- Mitosis

Question 2

Mitosis and Meiosis

Answer 2

Germ cells
- Meiosis
Somatic cells
- Mitosis

Question 3

Where does meiosis occur in each life cycle?

Answer 3

The transmission of cytoplasm differs between sex cells

Male contribution: Sperm or pollen transfer little or no cytoplasm to the egg
•Female contribution: Egg contributes almost all of the cytoplasm to the zygote

Question 4

Gametogenesis

Answer 4

sperm cells (haploid) - 200,000,000 per day
ovum (haploid) - 1 per cycle

Question 5

Gametogenesis in Females

Answer 5

Mitosis in Fetal Ovary
Meiosis I, Asymmetrical division completed at ovulation

Meiosis II: Asymmetrical division (occurs only after fertilization)

Question 6

Gametogenesis in Males

Answer 6

Mitosis occurs in adult testis
Meiosis I
Meiosis II
Differentiation

Question 7

Meiosis I

Answer 7

Condensation of chromosomes
synapsis
recombination
prometaphase I
metaphase I - alignment at spindle midpoint
anaphase I - homologous chromosomes move to opposite poles
telophase - two haploid (n) nuclei form

Interkinesis

Question 8

Meiosis II

Answer 8

Prophase II
Metaphase II
Anaphase II
Telophase II

Question 9

What are the differences between mitosis and meiosis?

Answer 9

Mitosis
•One division
•Two genetically identical daughter cells
•Chromosome number of the daughter cells is the same as the parent (i.e. 2n)
•Occurs in the cells of the body as the organism grows

Meiosis
•Two divisions
•Four daughter cells that are genetically different
•Chromosome number of daughter cells is half that of the parent cell (i.e. 1n haploid)
•Occurs in the production of gamete cells

Question 10

Non-disjunction

Answer 10

MITOSIS: failure of sister chromatids to separate during and after mitosis

MEIOSIS: failure of homologous chromosomes to segregate during and after meiosis

Question 11

Dosage compensation

Answer 11

Humans
Barr bodies: condensed genetically inactive X-chromosomes found in the nuclei of XX individuals (but not XY individuals)
•Inactivated X-chromosome is cell independent: some cells have inactivated maternal chromosomes others have inactivated paternal chromosomes
•Epigenetic silencing of one X-chromosome

Question 12

Calico cats

Answer 12

Genetic mosaic: Inactivated X-chromosome is cell independent: some cells have inactivated maternal chromosomes, others have inactivated paternal chromosomes

Question 13

Variation

Answer 13

Independent assortment

Question 14

Chromosomes and chiasma

Answer 14

Chiasma

Question 15

Bacteria sex: The F factor

Answer 15

F-factor: fertility plasmid Plasmid: small circle of DNA in a bacterial cell containing a larger circular chromosome

Question 16

Transfer of bacterial genes:

Answer 16

Transformation occurs when bacteria take up DNA from disintegrated bacteria
•Linear fragments recombine by double crossovers

Transduction occurs when bacterial phages transfer DNA from one bacteria to another

• Virus incorporates DNA fragments from one cell
• If DNA fragments are homologous, new bacteria become partial diploids
• Recombination by double crossovers

Question 17

Corn genetics

Answer 17

Corn is often purple or yellow
•In Coloured purple (C) kernels the pigment is produced but no pigment is produced in colourless (c) kernels
•But how could there be mottled kernels?

Question 18

Transposable Elements

Answer 18

Transposable elements (TEs)
•Segments of DNA that move around cell genome
•Transposition is movement of TEs, jumping gene
•Target site of TE is not homologous with TE
•No crossing-over

TEs can move in two ways
•Cut-and-paste, original TE leaves
•Copy-and-paste, original TE stays in place

Transposition mutation

Question 19

Bacterial Transposable Elements

Answer 19

Insertion sequences
•Contain only genes for tranposition
•Transposase catalyzes insertion or removal
•Inverted repeats mark insertion sequence

Transposon
•Multiple genes within inverted repeat sequences
•Antibiotic resistance genes within transposons
•Transposons can move to plasmi

Question 20

Transposons

Answer 20

Eukaryotic transposons are similar in structure and function to prokarytotic
•Use transposase and inverted repeat sequences
•Use cut-and-paste or copy-and-paste

Question 21

Retrotransposons

Answer 21

Retrotransposons transpose by copy-and-paste but transposition occurs via intermediate RNA
•Retrotransposon transcribed into RNA
•Reverse transcriptase uses RNA to make DNA
•DNA copy inserted into DNA at new location

Question 22

Retroviruses

Answer 22

RNA genome replicates with DNA intermediate
•Uses reverse transcriptase
•Provirus similar to prophage

Common in vertebrates
•Retrovirus genomes common in humans
•HIV and carcinogenic retroviruses

Question 23

Where does meiosis occur in each life cycle?

Answer 23

The transmission of cytoplasm differs between sex cells

Male contribution: Sperm or pollen transfer little or no cytoplasm to the egg
•Female contribution: Egg contributes almost all of the cytoplasm to the zygote

Question 24

Gametogenesis

Answer 24

sperm cells (haploid) - 200,000,000 per day
ovum (haploid) - 1 per cycle

Question 25

Gametogenesis in Females

Answer 25

Mitosis in Fetal Ovary
Meiosis I, Asymmetrical division completed at ovulation

Meiosis II: Asymmetrical division (occurs only after fertilization)

Question 26

Gametogenesis in Males

Answer 26

Mitosis occurs in adult testis
Meiosis I
Meiosis II
Differentiation

Question 27

Meiosis I

Answer 27

Condensation of chromosomes
synapsis
recombination
prometaphase I
metaphase I - alignment at spindle midpoint
anaphase I - homologous chromosomes move to opposite poles
telophase - two haploid (n) nuclei form

Interkinesis

Question 28

Meiosis II

Answer 28

Prophase II
Metaphase II
Anaphase II
Telophase II

Question 29

What are the differences between mitosis and meiosis?

Answer 29

Mitosis
•One division
•Two genetically identical daughter cells
•Chromosome number of the daughter cells is the same as the parent (i.e. 2n)
•Occurs in the cells of the body as the organism grows

Meiosis
•Two divisions
•Four daughter cells that are genetically different
•Chromosome number of daughter cells is half that of the parent cell (i.e. 1n haploid)
•Occurs in the production of gamete cells

Question 30

Non-disjunction

Answer 30

idk

Question 31

Dosage compensation

Answer 31

Humans
Barr bodies: condensed genetically inactive X-chromosomes found in the nuclei of XX individuals (but not XY individuals)
•Inactivated X-chromosome is cell independent: some cells have inactivated maternal chromosomes others have inactivated paternal chromosomes
•Epigenetic silencing of one X-chromosome

Question 32

Calico cats

Answer 32

Genetic mosaic: Inactivated X-chromosome is cell independent: some cells have inactivated maternal chromosomes others have inactivated paternal chromosomes

Question 33

Variation

Answer 33

Independent assortment

Question 34

Chromosomes and chiasma

Answer 34

Chiasma

Question 35

Bacteria sex: The F factor

Answer 35

F-factor: fertility plasmid Plasmid: small circle of DNA in a bacterial cell containing a larger circular chromosome

Question 36

Transfer of bacterial genes:

Answer 36

Transformation occurs when bacteria take up DNA from disintegrated bacteria
•Linear fragments recombine by double crossovers

Transduction occurs when bacterial phages transfer DNA from one bacteria to another

• Virus incorporates DNA fragments from one cell
• If DNA fragments are homologous, new bacteria become partial diploids
• Recombination by double crossovers

Question 37

Corn genetics

Answer 37

Corn is often purple or yellow
•In Coloured purple (C) kernels the pigment is produced but no pigment is produced in colourless (c) kernels
•But how could there be mottled kernels?

Question 38

Transposable Elements

Answer 38

Transposable elements (TEs)
•Segments of DNA that move around cell genome
•Transposition is movement of TEs, jumping gene
•Target site of TE is not homologous with TE
•No crossing-over

TEs can move in two ways
•Cut-and-paste, original TE leaves
•Copy-and-paste, original TE stays in place

29
Transposition mutation

Question 39

Bacterial Transposable Elements

Answer 39

Insertion sequences
•Contain only genes for tranposition
•Transposase catalyzes insertion or removal
•Inverted repeats mark insertion sequence

Transposon
•Multiple genes within inverted repeat sequences
•Antibiotic resistance genes within transposons
•Transposons can move to plasmi

Question 40

32

Transposons

Answer 40

Eukaryotic transposons are similar in structure and function to prokarytotic
•Use transposase and inverted repeat sequences
•Use cut-and-paste or copy-and-paste

Question 41

Retrotransposons

Answer 41

Retrotransposons transpose by copy-and-paste but transposition occurs via intermediate RNA
•Retrotransposon transcribed into RNA
•Reverse transcriptase uses RNA to make DNA
•DNA copy inserted into DNA at new location

Question 42

Retroviruses

Answer 42

RNA genome replicates with DNA intermediate
•Uses reverse transcriptase
•Provirus similar to prophage

Common in vertebrates
•Retrovirus genomes common in humans
•HIV and carcinogenic retroviruses