Meiosis & Mitosis MCBGi Flashcards

1
Q

What is the repeating sequence of a telomere?

A

TTAGGG

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2
Q

What is centromere?

A

It links sister chromatids and consists of repetitive sequences

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3
Q

What are the names for the position of a centromere on the chromosome and what do they mean?

A

Metacentric (middle)
Submetacentric (longer q arm than p arm)
Acrocentric (much longer q arm than p arm)
Telocentric (no p arm, not present in humans normally)

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4
Q

What are the sizes of the chromosomes? (relative to each other)

A

Decreasing up to 21, 22 is larger
X is a C group
Y is a G group

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5
Q

How are chromosomes grouped?

A

A3, B2, C7, D3, E3, F2, G2, X, Y

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6
Q

Which protein recognises and binds the centromere?

A

Kinetochore

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7
Q

What is the line down the middle of the cell called?

A

Metaphase plate

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8
Q

What is a pair of homologous chromosomes called?

A

Tetrad or the bivalent forms

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9
Q

What are the differences between spermatogenesis and oogenesis?

A

1 spermatocyte produces 4 sperm, takes 60 days

1 oocyte produces 1 ovum and 3 polar bodies, takes 12-50 years as it finishes meiosis at fertilisation

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10
Q

What is the karyotype of a male with Down’s syndrome?

A

47,XY,+21

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11
Q

How does Down’s syndrome occur?

A

Nondisjunction in mitosis leads to aneuploidy

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12
Q

When is non-disjunction more dangerous in meiosis?

A

Meiosis I, as this results in no normal zygotes whereas if it was in Meiosis II it results in 2 normal zygotes out of 4

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13
Q

How many possibilities for random assortment are there?

A

2^n (2^23 in normal humans)

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14
Q

What is stage G0 in the cell cycle?

A

If cells go into this state they stop getting signals to divide again, e.g. neurones
Sometimes they can return to the cell cycle

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15
Q

Which gene starts male development?

A

SRY

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16
Q

What is an anaphase leg?

A

When the chromatids are not pulled apart properly so one chromatid stays in the middle

17
Q

What can repetitive DNA lead to?

A

Fork slippage, due to DNA replication stress

18
Q

What is Huntington’s disease caused by?

A

When DNA is replicating, DNA replication stress can cause fork slippage in a repetitive DNA sequence, so in HD extra CAG’s are added (glutamine residue); this is called a trinucleotide repeat disorder, or trinucleotide expansion. If there are increased CAG repeats it leads to a mutated Huntington protein, leading to neurone degeneration, mainly affecting the basal ganglia.

19
Q

What are the three ways DNA replication stress can affect DNA replication?

A

Replication machinery defects ( DNA polymerase, DNA helicase, sliding clamp)
Replication fork progression hindrance (Ribonucleotide incorporation, fragile sites, repetitive DNA, transcription)
Defects in response pathways (sensors, transducers, effectors)

20
Q

What outcomes can there be in repose to DNA damage?

A

Senescence (permanent cel cycle arrest), proliferation (repair), apoptosis (death)

21
Q

Which DNA damage type is most dangerous to repair?

A

Interstrand cross-links and double-stranded breaks, as both strands have to be cut

22
Q

How do PARP inhibitors work?

A

PARP1 is a protein which repairs single strand breaks in DNA, so when PARP inhibitors are given it causes double strand breaks down the line of replication. BRCA1 & 2 are proteins which repair double strand breaks by error-free homologous recombinational repair. Therefore, using PARP inhibitors on tumours with BRCA1 & 2 mutations causes those cells to die, whilst normal cells don’t have this mutation so they can be repaired