Chromosomes

Question 1

<p>What does each eukaryotic chromosome contain?</p>

Answer 1

<p>Linear chromosomes</p>

<p>Telomere</p>

<p>Centromere</p>

<p>Heterochromatin</p>

<p>Euchromatin</p>

Question 2

<p>What does the centromere do?</p>

Answer 2

<p>Hold the chromosome together</p>

Question 3

<p>What are telomeres?</p>

Answer 3

<p>The ends of DNA which need to be protected because when DNA gets damaged cells have mechanisms to repair it and so need to recognise blunt ends, important do not try to repair natural ends of chromosomes</p>

Question 4

<p>Why do telomeres need to be protected?</p>

Answer 4

<p>To prevent cells trying to repair natural ends of chromosomes, they recognise blunt ends</p>

Question 5

<p>What is the process of DNA replication?</p>

Answer 5

<p>1) Strand unwinds and hydrogen bonds connecting bases are broken</p>

<p>2) RNA primer initiates DNA synthesis</p>

<p>3) DNA polymerase copies the information and makes a complimentary strand (daughter strand on each new DNA)</p>

<p>4) Lagging strands need to be initiated by RNA primer and connected by DNA ligase</p>

Question 6

<p>In what direction does DNA polymerase add new nucleotides?</p>

Answer 6

<p>5' to 3' direction</p>

Question 7

<p>What are okazaki fragments?</p>

Answer 7

<p>The sections of DNA present on the lagging strand that need to be connected</p>

Question 8

<p>How much base pairs are lost during mitosis and why?</p>

Answer 8

<p>100 base pairs are lost each time due to the gap at the end of the lagging strand due to the primer</p>

Question 9

<p>What happens when chromosomes become to short due to bases being lost during each mitosis cycle?</p>

Answer 9

<p>They are recognised by telomerase and become extended</p>

Question 10

<p>What is mitosis?</p>

Answer 10

<p>Cell division that results in two daughter cells that have the same number of chromosomes as the parent cell</p>

Question 11

<p>What are the phases of mitosis?</p>

Answer 11

<p>1) Prophase</p>

<p>2) Metaphase</p>

<p>3) Anaphase</p>

<p>4) Telophase</p>

<p>5) Cytokinesis</p>

Question 12

<p>What happens during prophase?</p>

Answer 12

<p>Chromosomes condense</p>

<p>Nuclear membrane disapears</p>

<p>Spindle fibres form from the centriole</p>

Question 13

<p>What happens during metaphase?</p>

Answer 13

<p>Chromosomes aligned at the equator of the cell</p>

<p>Attached by fibre to each centriole</p>

<p>Maximum condensation of chromosome</p>

Question 14

<p>What happens during anaphase?</p>

Answer 14

<p>Sister chromatids seperate at centromere</p>

<p>Seperate longitudinally</p>

<p>Move to opposite ends of the cell</p>

Question 15

<p>What happens during telophase?</p>

Answer 15

<p>New nuclear membrane forms</p>

<p>Each cell contains 46 chromosomes (diploid)</p>

Question 16

<p>What happens during cytokinesis?</p>

Answer 16

<p>Cytoplasm seperates</p>

<p>Two new daughter cells</p>

Question 17

<p>During what phase are chromosomes most condensed?</p>

Answer 17

<p>Metaphase</p>

Question 18

<p>In what phase can chromosomes be seen?</p>

Answer 18

<p>Prophase</p>

Question 19

<p>What is the spindle made from?</p>

Answer 19

<p>Microtubules</p>

Question 20

<p>What do centromeres do during mitosis?</p>

Answer 20

<p>Join sister chromatids and bind to microtubules</p>

Question 21

<p>What is the site of kinetochore?</p>

Answer 21

<p>Centromeres</p>

Question 22

<p>What are centromeres composed of?</p>

Answer 22

<p>Repeated DNA sequences known as satellite DNA</p>

Question 23

<p>What is satellite DNA?</p>

Answer 23

<p>DNA that does not code, but forms the site of kinetochore</p>

Question 24

<p>What is kinetochore?</p>

Answer 24

<p>Multiprotein complex that attaches to microtubules from each pole</p>

Question 25

<p>What do both sides of kinetochore need to be captured?</p>

Answer 25

<p>So that each daughter cell has the same amount of chromosomes</p>

Question 26

<p>What are the 2 forms of chromatin?</p>

Answer 26

<p>Heterochromatin</p>

<p>Euchromatin</p>

Question 27

<p>Which is heterochromatin and euchromatin is condensed with silent genes and open with active genes?</p>

Answer 27

<p>Heterochromatin is condensed with silent genes</p>

<p>Euchromatin is open with active genes</p>

Question 28

<p>What is chromatin?</p>

Answer 28

<p>The part of a chromosome that contains the coding information</p>

Question 29

<p>Why can euchromatin code for proteins?</p>

Answer 29

<p>Open structure can be accessed by RNA polymerase</p>

Question 30

<p>How many base pairs are there in our genome?</p>

Answer 30

<p>3 billion</p>

Question 31

<p>What are extragenic sequences?</p>

Answer 31

<p>DNA that is repeated</p>

Question 32

<p>What kind of sequences are lots of our DNA?</p>

Answer 32

<p>Extragenic sequences</p>

Question 33

<p>What are the 2 kinds of extragenic sequences?</p>

Answer 33

<p>Tandemly repeated DNA sequences</p>

<p>Highly repeated interspersed DNA sequences</p>

Question 34

<p>What are examples of tandermly repeated DNA sequences?</p>

Answer 34

<p>Satellite DNA</p>

<p>Minisatellite DNA</p>

Question 35

<p>What are examples of highly repeated interspersed DNA sequences?</p>

Answer 35

<p>SINEs (short interspersed nuclear elements)</p>

<p>LINEs (long interspersed nuclear elements)</p>

Question 36

<p>How much of our DNA is repeated sequences?</p>

Answer 36

<p>A huge amount</p>

Question 37

<p>What are nucleosomes?</p>

Answer 37

<p>Formed from the packaging of DNA and histone forming chomatin</p>

Question 38

<p>How many base pairs are around a core of a nucleosome?</p>

Answer 38

<p>146 base pairs (1.8 turns)</p>

Question 39

<p>What is the core of a nucleosome made of?</p>

Answer 39

<p>8 histones</p>

Question 40

<p>How many different kinds of histone proteins are there?</p>

Answer 40

<p>4</p>

Question 41

<p>What charge do histones have?</p>

Answer 41

<p>Positive charge</p>

Question 42

<p>What are nucleosome further wrapped to form?</p>

Answer 42

<p>'Solenoid' structures</p>

Question 43

<p>What does the further wrapping of nucleosomes compact DNA by a factor of?</p>

Answer 43

<p>40</p>

Question 44

<p>What are the 4 levels of condensing chromatin structure?</p>

Answer 44

<p>Level 1 (nucleosome)</p>

<p>Level 2 (chromatin fibre)</p>

<p>Level 3 (fibre-scaffold complex)</p>

<p>Level 4 (chromosome)</p>

Question 45

<p>Why does DNA and histine combine?</p>

Answer 45

<p>Negatively charged DNA is neutralised by positvely charged histone</p>

Question 46

<p>Why is DNA packaged?</p>

Answer 46

<p>Negatively charged DNA is neutralised by positively charged histone</p>

<p>DNA takes up less space</p>

<p>Inactive DNA can be folded into inaccessible locations until required</p>

Question 47

<p>What locks DNA in place in the nucleosome?</p>

Answer 47

<p>Histone H1</p>

Question 48

<p>What is a karyotype?</p>

Answer 48

<p>Number and appearance of chromosomes</p>

Question 49

<p>What is the process of viewing a karyotype?</p>

Answer 49

<p>1) Blood extracted</p>

<p>2) Red blood cells seperated</p>

<p>3) Add culture medium to white cells and incubate for 3 days at 37^oC</p>

<p>4) Add colchicine</p>

<p>5) Seperate white cells</p>

<p>6) Add hyptonic saline</p>

<p>7) Spread cells onto slide and stain</p>

<p>8) Photograph and produce karyotype</p>

Question 50

<p>How do male and female chromosomes differ?</p>

Answer 50

<p>Males have a X and a Y chromosome</p>

<p>Females have two X chromosomes</p>

Question 51

<p>Where are the chromosomes from each pair from?</p>

Answer 51

<p>One is from the mother and one is from the father</p>

Question 52

<p>What are the 3 types of chromosomes in a karyotype?</p>

Answer 52

<p>Metacentric (P and Q arms are the same length)</p>

<p>Sub metacentric (P arm is shorter than the Q arm)</p>

<p>Acrocentric (P arm is so short that is is not functional)</p>

Question 53

<p>What are the P and Q ares like in metacentric chromosomes?</p>

Answer 53

<p>The same length</p>

Question 54

<p>What are the P and Q arms like in submetacentric chromosomes?</p>

Answer 54

<p>P arm is shorter than the Q arm</p>

Question 55

<p>What are the P and Q arms like in acrocentric chromosomes?</p>

Answer 55

<p>The P arm is so short it is not functional</p>

Question 56

<p>What can be used to life up specific sequences of interest?</p>

Answer 56

<p>Fluorescent in situ hybridisation (FISH)</p>

Question 57

<p>What are the different kinds of fluorescent in situ hybridisation probes?</p>

Answer 57

<p>Unique sequence probes</p>

<p>Centromeric probes</p>

<p>Telomeric probes</p>

<p>Whole chromosome probe</p>

Question 58

<p>What is the centromeric probe used for?</p>

Answer 58

<p>Determining chromosome number</p>

Question 59

<p>What is the telomeric probe useful for?</p>

Answer 59

<p>Detecting subtelomeric rearrangments</p>

Question 60

<p>What is the whole chromosome probe useful for?</p>

Answer 60

<p>Detecting translocation and rearrangements</p>

Question 61

<p>What are probes unique to?</p>

Answer 61

<p>Specific genes</p>

Question 62

<p>What is a spectral karyotype?</p>

Answer 62

<p>A karyotype where each chromosome pair is labelled a different colour</p>

Question 63

<p>What is meiosis?</p>

Answer 63

<p>Cell division in germ cell</p>

Question 64

<p>What are diploid cells?</p>

Answer 64

<p>Cells that have two complete sets of chromosomes (46 chromosomes)</p>

Question 65

<p>What are haploid cells (gametes)?</p>

Answer 65

<p>Contains 23 chromosomes</p>

Question 66

<p>What happens during meiosis?</p>

Answer 66

<p>1) Diploid cells in the ovaries and testis divide to form haploid cells</p>

<p>2) Chromosomes are passed on as rearranged copies which creates genetic diversity (paternal and maternal chromosomes exchange parts)</p>

Question 67

<p>What is oogenesis?</p>

Answer 67

<p>Process of egg formation</p>

Question 68

<p>What is spermatogenesis?</p>

Answer 68

<p>Process of sperm formation</p>

Question 69

<p>Why is there more of a chance for a mutation in sperm than eggs?</p>

Answer 69

<p>Sperm goes through more cell divisions than eggs do</p>

Question 70

<p>What is gametogenesis?</p>

Answer 70

<p>The process in which cells undergo meiosis to form gametes</p>

Question 71

<p>What is formed by meiosis from one cell in a male?</p>

Answer 71

<p>4 gametes (sperm)</p>

Question 72

<p>What is formed by meiosis from one cell in a female?</p>

Answer 72

<p>One egg and three polar bodies</p>

Question 73

<p>When does male gametogenesis commence?</p>

Answer 73

<p>Puberty</p>

Question 74

<p>When does female gametogenesis commence?</p>

Answer 74

<p>Early embryonic life</p>

Question 75

<p>How long goes male gametogenesis take?</p>

Answer 75

<p>60-65 days</p>

Question 76

<p>How long does female gametogenesis take?</p>

Answer 76

<p>10-50 years</p>

Question 77

<p>How many mitosis occur in gamete formation in males?</p>

Answer 77

<p>30-500</p>

Question 78

<p>How many mitosis occurs in gamete formation in females?</p>

Answer 78

<p>20-30</p>

Question 79

<p>What is the gamete production per meiosis in males?</p>

Answer 79

<p>4 spermatids</p>

Question 80

<p>What is the gamete production per meiosis in females?</p>

Answer 80

<p>1 ovum and 3 polar bodies</p>

Question 81

<p>What is the gamete production in men?</p>

Answer 81

<p>100-200 million per ejaculation</p>

Question 82

<p>What is the gamete production in females?</p>

Answer 82

<p>1 ovum per mentrual cycle</p>

Question 83

<p>What is fertilisation?</p>

Answer 83

<p>Two haploid cells (egg and sperm) form 1 diploid cell (zygote) which develops into an embryo</p>

Question 84

<p>What determines whether the embryo is male or female?</p>

Answer 84

<p>Whether the sperm contains a X or a Y chromosome</p>

Question 85

<p>Where does the mitochondria in a embryo come from?</p>

Answer 85

<p>Mother because the egg is where most of the cytoplasmic fluid is from</p>

Question 86

<p>What happens to the X chromosomes in a zygote if they have two?</p>

Answer 86

<p>Both are active, but in early embryonic life one X chromosome is randomly switched off</p>

Question 87

<p>What do chromosome abnormalites result due to?</p>

Answer 87

<p>Too many chromosome</p>

<p>Too little chromosomes</p>

<p>Insertion</p>

<p>Translocation</p>

<p>Deletion</p>

<p>Duplication</p>

<p>Inversion</p>