cell division

Question 1

cell division

Answer 1

nuclear division followed by cytoplasmic division

Question 2

another name for nuclear division

Answer 2

karyokinesis

Question 3

another name for cytoplasmic division

Answer 3

cytokineses

Question 4

diploid cells have 2 copies of every chromosome forming…

Answer 4

homologous chromosomes

Question 5

how many chromosomes do humans have

Answer 5

46
(23 homologous pairs)

Question 6

animal cells have cellular structures called

Answer 6

centrosomes

Question 7

each centrosome contains a pair of

Answer 7

centrioles

Question 8

centrioles produce

Answer 8

spindle fibers that will separate sister chromatids during anaphase

Question 9

the cell cycle is divided into

Answer 9

interphase (G1, S, G2)
mitotic phase (mitosis + cytokinesis)

Question 10

interphase

Answer 10

begins after mitosis and cytokinesis are complete
(when cells are replicated and physically separated

Question 11

G1

Answer 11

cell increases in size
G1 checkpoint ensures everything is ready for DNA synthesis
most cell growth in volume occurs here

Question 12

S

Answer 12

DNA synthesis
second molecule of DNA replicated from the first creating sister chromatids

Question 13

when is DNA replicated

Answer 13

S phase
NOT mitosis

Question 14

G2

Answer 14

rapid cell growth continues to occur
preparation of genetic material for cellular division
cell replicates organelles

Question 15

G0

Answer 15

inactive state of cells not actively growing or dividing

Question 16

what cells are examples of G0 (2)

Answer 16

nerve cells
cardiac cells

Question 17

surface area to vol ratio
SMALL

Answer 17

cellular exchange is hard
leads to cell death or cell division to increase surface area

Question 18

Genome to volume ratio
SMALL

Answer 18

as the ratio decreases the cell exceeds the ability of its genome to produce proteins needed to regulate the cell

Question 19

spindle apparatus forms when

Answer 19

during prophase

Question 20

what are crucial to cell division during mitotic phase

Answer 20

microtubules
mitotic spindle

Question 21

what do anti-tumor drugs act on in cancers?

Answer 21

act as microtubule inhibitors
the drugs stabilize microtubules preventing chromosome and chromatid separation and causing cell cycle arrest (no cell division)

Question 22

when does a virus impact the mitotic spindle

Answer 22

impacts the spindle most affects a cell during mitotic phase

Question 23

each sister chromatid has a

Answer 23

kinetochore
where microtubules attach - not chromosomes directly

Question 24

MITOSIS
prophase - chromosome and chromatids

Answer 24

46 chromosomes
92 chromatids

Question 25

MITOSIS
prophase

Answer 25

nucleus disassembles
nucleolus disappears
chromatin condenses into chromosomes

Question 26

MITOSIS
metaphase - chromosomes + chromatids

Answer 26

46 chromosomes
92 chromatids

Question 27

MITOSIS
metaphase

Answer 27

chromosomes line up
each metaphase chromosome consists of 2 attached sister chromatids
each chromatid is complete with a centromere and attached kinetochore

Question 28

MITOSIS
Anaphase - chromosomes + chromatids

Answer 28

92 chromosomes
92 chromatids

Question 29

MITOSIS
Anaphase

Answer 29

microtubules shorten and each chromosome is pulled apart into 2 separate chromatids (once physically separated, each chromatid is considered a chromosome so the chromosome # has doubled)
chromosomes pulled to opposite poles
each pole has a complete set of chromosomes

Question 30

disjunction

Answer 30

chromosomes pulled to opposite pole

Question 31

MITOSIS
telophase + cytokinesis - chromosomes + chromatids

Answer 31

92 chromosomes
92 chromatids

Question 32

MITOSIS
telophase + cytokinesis

Answer 32

nuclear envelope re-forms
chromosomes decondense back into chromatin and nucleoli reappear

Question 33

after cytokinesis how many chromosomes and chromatids in each cell

Answer 33

46 chromosomes
46 chromatids

Question 34

meiosis produces (from 1 diploid parent cell)

Answer 34

4 non-identical haploid daughter cells

Question 35

meiosis I

Answer 35

homologous chromosomes separate

Question 36

meiosis II

Answer 36

sister chromatids separate

Question 37

Prophase I
chromosomes + chromatids

Answer 37

46 chromosomes
92 chromatids

Question 38

prophase I

Answer 38

• spindles form and nuclear envelope breaks down
• chromosomes pair up lengthwise forming tetrads which need to form for crossing over to occur
• pairs are physically linked through chiasmata
• microtubules attach to chromosomes at kinetochores and move them towards metaphase plate

Question 39

synapsis

Answer 39

chromosomes pair up lengthwise in prophase I

Question 40

where does crossover occur

Answer 40

chiasmata

Question 41

metaphase I
chromosomes + chromatids

Answer 41

46 chromosomes
92 chromatids

Question 42

metaphase I

Answer 42

• homologous chromosomes are arranged at the metaphase plate
• independent assortment of chromosomes occurs because the arrangement of homologous chromosomes is random

Question 43

anaphase I
chromosomes + chromatids

Answer 43

46 chromosomes
92 chromatids

Question 44

anaphase I

Answer 44

homologous chromosomes separate and spindle apparatus guides the chromosomes to opposite poles

Question 45

telophase I + cytokinesis
chromosomes + chromatids

Answer 45

46 chromosomes
92 chromatids

Question 46

telophase I + cytokinesis

Answer 46

• homologous chromosomes are separated from each other to each end of the cell
• cytokinesis

Question 47

cytokinesis I results in how many daughter cells

Answer 47

2 haploid daughter cells
each contain 1 chromosomes from every homologous pair

Question 48

prophase II
chromosomes + chromatids

Answer 48

23 chromosomes
46 chromatids

Question 49

prophase II

Answer 49

spindle apparatus forms and microtubules move chromosomes towards metaphase plate

Question 50

metaphase II
chromosomes + chromatids

Answer 50

23 chromosomes
46 chromatids

Question 51

metaphase II

Answer 51

• sister chromatids are no longer genetically identical due to crossing over
• chromosomes lined up at metaphase plate

Question 52

anaphase II
chromosomes + chromatids

Answer 52

46 chromosomes
46 chromatids

Question 53

anaphase II

Answer 53

• chromatids separate moving towards opposite ends
• separated chromatids are now chromosomes

Question 54

telophase II + cytokinesis
chromosomes + chromatids

Answer 54

46 chromosomes
46 chromatids

Question 55

telophase II + cytokinesis

Answer 55

• nuclei formation and decondensing of chromosomes
• cytokinesis

Question 56

cytokinesis II results in how many daughter cell

Answer 56

4 genetically distinct daughter cells in total

Question 57

3 sources of genetic variation

Answer 57

crossing over
independent assortment
random joining of gametes (which sperm fertilizes the egg)

Question 58

crossing over

Answer 58

non-sister chromatids of 2 homologous chromosomes exchanging genetic material

Question 59

when does crossing over occur

Answer 59

prophase I

Question 60

independent assortment

Answer 60

random orientation of homologous chromosomes allows for the production of gametes with many different assortments of alleles

Question 61

when does independent assortment occur

Answer 61

metaphase I

Question 62

are genes closer together more or less likely to be inherited together

Answer 62

more likely
known as genetic linkage

Question 63

genetic linkage

Answer 63

genes that are physically closer together are less likely to be separated during crossing over

Question 64

chromosome number for meiosis

Answer 64

reduced by half

Question 65

chromosome number for mitosis

Answer 65

remains the same

Question 66

daughter cells produced by meiosis

Answer 66

4 haploid cells

Question 67

daughter cells produced by mitosis

Answer 67

2 diploid cells

Question 68

genetics for meiosis

Answer 68

different

Question 69

genetics for mitosis

Answer 69

identical

Question 70

rounds of cell division for meiosis

Answer 70

2

Question 71

rounds of cell division for mitosis

Answer 71

1

Question 72

division of genetic information for meiosis

Answer 72

sister chromatids separate at anaphase II
homologous chromosomes separate at anaphase I

Question 73

division of genetic information for mitosis

Answer 73

sister chromatids separate during anaphase