Mitosis, Meiosis, & Non-disjunction

Question 1

Describe cell cycle

Answer 1

-Time from birth of new somatic cell till it divides to two new daughter cells

TWO broad stages:

- interphase (period between cell division )
     - maximum time spent 
     - varies between cell types
     - cell grows and ready for mitosis at end of interphase

 - Mitosis (period of actual cell division)
      - cell divides to form two daughter cells
      - 2-4 hours and is constant

Question 2

Summarize the stages of the cell cycle

Answer 2

Interphase (time between cell division )

- G1 phase (Go phase)
- S phase 
- G2 phase 

Mitosis (stages of cell division)

• Prophase
• Metaphase
• Anaphase
• Telophase
• Cytokinesis(cell division )

Question 3

Summarize interphase

Answer 3

G1- 4 unreplicated chromosomes (chromosomes are shown partially condensed to make them visible)

S phase

G2 phase-4 replicated chromosomes, each considering of two sister chromatids

Question 4

Summarize M phase

Answer 4

At start of mitosis! Replicated chromosomes condense

During mitosis, sister chromatids separate. Two daughter cells are formed by cytokinesis

Question 5

What checkpoint checks for cell size and DNA replication ?

Answer 5

G2 checkpoint

Question 6

What checkpoint, Checks for chromosome attachment to spindle?

Answer 6

M checkpoint

Question 7

What checkpoint, Checks for cell size, nutrients, growth factors and DNA damage?

Answer 7

G1 checkpoint

Question 8

What occurs at G2?

Answer 8

One large cell with TWO SISTER CHROMATIDS PER CHROMOSOME (2n; 4d). Cell is ready for division

Question 9

What occurs in M phase?

Answer 9

Includes mitosis and cytokinesis, new cell enters cycle

Question 10

What occurs in Go?

Answer 10

Occurs in non- dividing cells, it is an active process, not just a stall in G1. Occurs in cells that have terminally differentiated into tissue cells eg, neurons.

ONE CHROMATID PER CHROMOSOME (2n;2d)

Exit from cell cycle (non-dividing cells)

Question 11

What occurs in G1?

Answer 11

Most variable in length, differences in rates of division are primarily a result of differences in G1 length

DIPLOID (two copies of each chromosome, mom+dad copies) ONE CHROMATID PER CHROMOSOME

Homologous chromosomes

Question 12

What occurs in the S phase?

Answer 12

S phase; DNA synthesis occurs, chromatids are copied and joined at centromere. TWO SUSTER CHROMATIDS PER CHROMOSOME (2n; 4d)

Question 13

Summarize in Great detail the events of G1?

Answer 13

G1 (gap 1 or growth 1) phase: Cell size increases. Protein synthesis active. Differentiation and performs function. End of G1, cell checks whether ready for division.

Some cells in G1 enter Go phase (quiscent). Perform their function, but unable to divide. Permanent and stable cells are in Go . Stable cells renter cell cycle in presence of stimuli (eg: Growth factors)

Question 14

Give the S phase in great detail

Answer 14

DNA synthesis/ DNA replication. Enzymes of replication active. DNA proofreading activity of DNA polymerase is active. Entire chromosome replicates. At end of S phase, DNA content doubles. Each chromosome has two sister chromatids (2n; 4d)

Question 15

What happens in G2 phase(summary)

Answer 15

DNA content is double (2n;4d). Cell /cytosol size increases. Genome scanned for mistakes. Post replication DNA repair mechanisms active

Question 16

Summarize the roles of p53

Answer 16

DNA damage results in increased levels of p53 protein which causes:

• cell cycle arrest or activation of G1-S checkpoint
• Activates DNA repair systems
• If damage is extensive, may cause Apoptosis

Loss of p53 tumor-suppressor activity allows proliferation of cells with DNA damage. Uncontrolled proliferation can lead to tumor development

Question 17

What happens to chromatid number/ DNA content at the end of S phase?

Answer 17

Chromatid number/ DNA content (4d) doubles at the end of S phase( also in G2) - replication takes place in S phase-each chromosome contains 2 suster chromatid

Question 18

How does mitosis form two daughter cells ?

Answer 18

Segregation/ separation of sister chromatids and later cytoplasmic division to form two daughter cells

Question 19

How identical or different are daughter cells to their parent cells?

Answer 19

Genetic composition of daughter cells identical to parent (2n)

Question 20

What happens in Prophase of mitosis?

Answer 20

Nuclear envelope dissolve

• Mitotic spindle forms
• Chromosomes condense and visible
• Chromosomes bind to spindle

Homologous chromosomes (chromosomes of the same number - one paternal and one maternal ) and sister chromatids (are copies joined at the centromere)

Question 21

What happens in metaphase of mitosis?

Answer 21

• Chromosoges condense and MAXIMALLY VISIBLE
• chromosomes align at EQUATOR
• Visuslized by karyotyping
• Microtubules attach to centromere kinetochore

Question 22

When are chromosomes maximally visible?

Answer 22

After they condense in metaphase, can be seen with karyotyping

Question 23

What occurs in anaphase of mitosis?

Answer 23

• Sister chromatids move to centrioles
• separation of sister chromatids
• Non-disjunction during anaphase is mitotic non-disjunction

Question 24

What is the purpose of Telophase of mitosis?

Answer 24

• sister chromatids move to opposite poles
• nuclear envelope starts forming
• Chromosomes less condensed
• Two new daughter cell (cytokinesis)

Daughter cells have same genetic composition as parent cell (2n; 46 chromosomes; 23 pairs of chromosomes; 2d)

Question 25

What occurs in non-disjunction?

Answer 25

Non-disjunction during mitotic divisions during embryogenesis(after fertilization)

• Sister chromatidsvof chromosome fail to separate —> Aneuploidy in daughter cells
• As a result, the fetus is mosaic

Karyotype shows a mixture of cells with aneuploidy

Question 26

What can mitotic non-disjunction during embryogenesis?

Answer 26

Post-zygotic event during embryonic development (fertilization of normal ovum and normal sperm)

May lead to 2 cell types:

1. Normal karyotype
2. Cells with trisomy 21

Question 27

What is Mosaicism?

Answer 27

Two or more populations of cells with different genotypes in an individual

Mixed somatic/germline mosaic
-Karyotype shows mixture of cells: normal cells (46,XX); and cells with aneuploidy (47, XX, +21)

Question 28

What does “Confined germline mosaic “ mean?

Answer 28

• All somatic cells are of one genotype

- Gametes have a different genotype (Risk of having children with genetic disorder)

Question 29

Gametes are …

Answer 29

Haploid (n;23 chromosomes)

Each gametes are genetically unique

Question 30

When does meiosis occur?

Answer 30

Takes place only in gamete forming cells of ovary or testis (germline cells), final stages of gametogenesis

Question 31

Differentiate meiosis in males and females

Answer 31

• Meiosis in males forms four gametes, each has 23 chromosomes: one of each kind of autosome and either an X or a Y (23X or 23Y)
• Meiosis in females results in formation of one ovum (23X) and 3 polar bodies

Question 32

Are sister chromatids formed during meiosis?

Answer 32

Chromosomes duplicate before meiosis to form two sister chromatids (2n;4d)

Question 33

When do homologous chromosomes exchange genetic material in meiosis?

Answer 33

Homologous recombination (meiotic crossover) in Prophase 1 of meiosis

Question 34

Genetic diversity in gametes occurs in two stages…

Answer 34

Meiosis 1: Homologous chromosomes separate (reduction division)(n;2d)

Meiosis 2: sister chromatids separate (n;d)

Question 35

Crossing over ensures…

Answer 35

Genetic variation

Question 36

Make germ cell is…

Answer 36

2n….

Mother’s chromosomes are 1n
Father’s chromosome ‘s are 1n

Question 37

What are the crucial roles of meiosis?

Answer 37

-Formation of haploid gamete (n). After fertilization, diploid set of chromosomes derived from other parent

• Gene recombination a/d diversity (gametes not alike)
  
  • Recombination/crossover during Prophase 1 of meiosis

  - Random segregation of homologous chromosomes during anaphase 1

Question 38

Very briefly state what is nondisjunction in meiosis 1 and meiosis 2?

Answer 38

Meiosis 1: pair of homologous chromosomes fails to separate

All are abnormal gametes(n+1 n+1 n-1 n-1)(

Meiosis 2: pair of sister chromatids fails to separate (n+1, n-1, n, n) two abnormal gametes

Question 39

What are the effects of non-disjunction during meiosis?

Answer 39

-Increased maternal age increases meiotic non-disjunction risk

• Aneuploidy (Chromosome number not multiple of 23)
  
  • Trisomy of specific chromosome (3 copies of specific chromosome )- chromosome number 47
  -Monosomy of specific chromosome (ONLY Monosomy X compatible with life; Autosomal Monosomy or Y chromosome Monosomy not compatible with life)- Chromosome number 45

Karyotype shows ALL cells with abnormal karyotype -differentiate mitotic non-disjunction

Question 40

Differentiate between non-disjunction during meiosis 1 or meiosis 2

Answer 40

• Marker analysis can identify whether non-disjunction occurred in meiosis-1 or meiosis-2
• For example, a chromosome has markers 1 (paternal) and 2 (maternal)
• If child has copy of 1 and copy of 2 ( 1,2), it is meiosis 1 non-disjunction (homologous chromosomes failed to separate; but sister chromatids separate)
• If child has two copies of marker 1 (1,1), it is meiosis-2 non-disjunction (sister chromatids failed to separate)

Question 41

Describe uniparental disomy

Answer 41

In pair of homologous chromosome, one copy derived from dad(paternal) and 2nd copy is derived from mom (maternal)

Both copies from mom maternal uniparental disomy ); no dads copy

Both copies from dad (paternal uniparental disomy) and no moms copy

Question 42

Describe imprinting

Answer 42

• When paternal copy of gene is methylated and inactive; Paternally imprinted gene; Only maternal copy of the gene is active
• When maternal copy of gene is methylated and inactive; Maternally imprinted gene; Only paternal copy of this gene is active

Imprinting on chromosome 15and disorders discussed in Patterns of inheritance

Question 43

What does meiosis 1 nondisjunction in males result in?

Answer 43

Homologous chromosomes don’t separate

2 sperm cells without sex chromosomes but all autosomes

2 sperm cells with 2 sex chromosomes

Question 44

How can someone get Turner syndrome?

Answer 44

No sex chromosomes but all the autosomes(sperm cells 1 and 2 of nondisjunction in meiosis 1)- ovum with one X chromosome leads to Turner syndrome X,45

Question 45

How can someone get Klinefelter syndrome, 47,XXY?

Answer 45

Sperm cell 3 and 4 in nondisjunction of meiosis 1 have two sex chromosomes And the X chromosome from an egg

Question 46

What are the results of nondisjunction in males in meiosis 2?

Answer 46

Homologous chromosomes separate

Sperm cell 1 and 3 only have autiosomes
Sperm cells 2 and 4 have sisteer chromatids, since they didn’t separate in meiosis 2

Question 47

What are the effects of nondisjunction in meiosis 2 in males?

Answer 47

Turner syndrome sperm cells 1 and 3 that only have autosomes, fertilize with ovum with only X chromosome form individual with Turner syndrome, 45,X

47, XYY is formed with sperm cell 2 when nondisjunction occurs in sperm cells in meiosis 2(has two y cells) and gains X chromosome with egg

47, XXX is formed when nondisjunction in meiosis 2 in sperm cell, resulting in two XX chromosome in sperm cells

Question 48

Briefly compare male and female gametogenesis

Answer 48

Overall gametogenesis is the same in males and females but there are some very significant differences

• Male meiosis produces four sperm cells per round
• Female meiosis produces one egg and three polar bodies
• Mitotic division of cells occur at different times in males and females. Females have undergone all mitotic division by birth

Question 49

Summarize the timeline of gametogenesis in females

Answer 49

Meiosis—> Oogenesis begins during prenatal development—> Primary oocytes (several million) arrest at Prophase 1 of meiosis at birth—> most degenerate, and about 400 remain to mature and ovulate—> ovulation, on average once per month (completion of meiosis 1)—> meiosis 2 is completed only after fertillization

Question 50

What are the differences between gametogenesis in males & females ?

Answer 50

Males- gametogenesis commences in puberty, while females have it commence in early embryonic life (Oocytes are arrested in Prophase 1 of meiosis until ovulation)

of mitosis in gamete formation= 30-100 in males whereas females have 20-30

Gamete production per meiosis= 4 spermatids in males, 1 ovum, 3 polar bodies in females

Gamete production= 100-200 million per ejaculate in males whereas 1 ovum per menstrual cycle

Question 51

What are defects if maternal or paternal age is increased?

Answer 51

• Higher risk of non-disjunction (non-separation of homologous chromosomes/sister chromatids) in meiotic divisions I or II in a female greater than 35 years, resulting in higher risk of trisomy (chromosomal abnormality) in fetus
• Higher the paternal age, greater is risk of development of new dominant single gene mutations (Replication errors)

Question 52

What are the differences between meiosis and mitosis ?

Answer 52

1. Mitosis- occurs in all dividing somatic cells, during embryogenesis and initial stages of gametogenesis

Meiosis- takes place only in germline cells during gametogenesis

2. Genetic composition of daughter cells is same as parent (46,XX or 46,XY) in mitosis whereas meiosis sees gametes formed have a unique genetic composition due to meiotic crossover (homologous recombination)
3. Gametes are haploid in meiosis while cells are diploid in mitosis