L2-3 Mitosis & Meiosis Flashcards
Why must the rates of cell division be carefully controlled
To regulate the cell numbers in a given tissue
How many division every 24 hours - typically
1
What cells don’t divide any more
Terminally differentiated cells
What are the two phases of M phase
Divison of the nucleus
Division of the cytoplasm
What happens in S phase
DNA synthesis
What occurs at prophase
Condensation of the sister chromatids
What occurs at metaphase
Attachement of the mitotic spindle to the kinetochore
What occurs at anaphase
Separation of the sister chromatids
What are the two types of yeast lifecycle
Budding and fission
What is significant about yeast undergoing a budding lifecycle
No G2 phase
What is significant about yeast undergoing a fission lifecycle
Short G1 phase
What forms as the result of a budding lifecycle
Forms separate daughter cells one of which is smaller and buds off
What forms as a result of the fission lifecycle
Divides an stays together forming filaments
What are the advantages of using Yeast as a model organism to study the cell cycle
Rapid division rate
Cell cycle control genes are highly conserved
Yeast can be grown as haploid or diploid
What is a genetic trick to do with the fact that yeast can be grown as haploid and as diploid
Diploids are used to maintain lethal muations that are studied in haploids
Knock out one copy of the gene - then turn into a haploid and study
What are temperature sensitive mutations
At a low tempature the protein is functional - when the temperature is increased there is no further function of the protein
What can temperature sensitive mutations be used for
To arrest cells at a particular stage of the cycle and then to synchronise these cells at a stage
What are the genes controlling cell division known as
Cell cycle control genes - Cdc genes
Advantages of using the Xenopus to study the cell cycle
Well known // Well studied lifecycle
Rapid division rate (every 30 mins)
Large size - easier to purify proteins
Manipulation by injection of RNAs/chemical into the oocyte
Describe the three requirements for cell free mitosis
Cyctoplasm from a frogs egg
Nucleus from the sperm of a frog
ATP
What are two uses of the cell free mitosis technique
Deplete the cytoplasm of proteins using antibodies
Remove cytoplasm at any stage to study changes e.g to protein phosphorylation over time
What are the three checkpoints of the cell cycle
G1/S (start)
G2/M
Metaphase-anaphase trnasition
G1/S transition
Is the environment favourable
G2/M transition
Is all of the DNA replicated
Is the environment favourable
What is checked at the metaphase - anaphase transition
What type of signalling is used?
Check if all of the chromosomes are attached to the spindle
Negative signalling
When does G1/S cyclin peak
Once cell pases G1/S (start) and commits to division
When does G1/S cyclin levels fall to the min level
At the end of G1 phase
When do s-cyclin levels peak
During S and G2 phase
When do s-cyclin levels fall
At the beginnig of M phase
When do m-cyclin levels rise
During G2 and M phases
Cyclins are proteins which
Are expressed at different levels during different stages of the cell cycle
What do cyclins bind
Cdk
What do cdks do
Phosphorylation of target proteins which are specific to certain stages of the cell cycle
How many phosphate groups req for activation
1
When a second phosphate group is added onto a cdk what occurs
Inhibition and inactivation
What enzyme removes a phosphate group from CDK
Cdc25 phosphatase
What enzyme adds a phosphate group from CDk
Wee1 kinase
What is the effect of p27
Binds to CDK-cyclin forming p27-cdk-cyclin complex which causes inactivation
What are the two sub units which must combine for the active APC/C complex to form
Inactive APC/C and Activating subunit cdc25
What is the anaphase promoting complex
A ubiquitin ligase
What does the APC/C do
Adds a polyubiquitin chain to M-cyclin ==> leads to degredation of m-cyclin by the proteasome
Also ubiquitinates S-cyclin and securin