Chapter 12 - Mitosis Flashcards
Cell Theory
1) All cells arise from preexisting cells
2) Every organism is composed of cells (cells are the fundamental unit of life)
Cell cycle sequence
G1 => S => G2 => mitosis
G1 (first gap) : interphase
- growth of daughter cell
- occurrence of active gene expression
G0: 90% of cells go to G0 phase
-non-dividing state
S (synthesis) : interphase
-DNA replication through semiconservative replication
G2 (second gap) : interphase
- preparing for cell division
- centrosome replication
Mitosis : M phase
-cell division
Chromatin
- less condensed
- packaged by histones
- form 30nm fibers in interphase
Chromosome
- highly condensed
- visible through microscope
mitosis
- division that involves conservation of number of chromosomes (diploid)
- prophase, metaphase, anaphase, telophase
Homologs
Pair of chromosomes
- have the same lengths structure, centromere position and same genes for same characters in corresponding loci
- each chromosome is inherited from each parent
Structure of chromosome
Centromere
- at the center
- holds together sister chromatids
- made of heterochromatin (not expressed)
Chromosome arm
Kinetochore
- hook-like protein in centromere
- binding site of mitotic spindle
Cohesin protein
-join 2 sister chromatids along their length
(broken down during anaphase)
Telomere
- region of non-coding, repetitive nucleotide sequences on each end of a chromosome
- protects chromosome ends from erosion
Cohesin protein
-join 2 sister chromatids along their length
broken down during anaphase
Kinetochore
- hook-like protein in centromere
- binding site of mitotic spindle
Human chromosomes
46 chromosomes (23 pairs) 44 autosomes (22 pairs) 2 sex chromosomes (gametes) (1 pair)
Stages of mitosis
1) Prophase
1. condensation of chromatin into chromosome
2. disappearance of nuclear envelope
3. 2 centrosomes (9+0) move to opposite poles
4. mitotic spindles extended from centrosome (aster shape)
2) Prometaphase
1. mitotic spindles (microtubules) bind to kinetochore (9+0 structure - nonmotile)
2. non-kinetochore microtubule extend and change cell shape from spherical to oval
3) Metaphase
1. duplicated chromosomes line up at the metaphase plate (equator)
4) Anaphase
1. kinetochore microtubule are shortened by ‘pac-man’ mechanism
2. separate break down cohesin protein
3. 2 sister chromatids of duplicated chromosome become individual chromosome
5) Telophase
1. decondensation of chromosome => become chromatin
2. nucleus reappears
3. preparation for cytokinesis
Cytokinesis
-cytoplasmic division in cell division
1) animal cell
1. as contractile ring of microfilament shrink, forms cleavage furrow
2. pinches mother cell into 2 daughter cells
2) plant cell
1. form cell plate in the middle of cytoplasm => becomes cell wall
- cell plate is formed by fusion of cellulose-containing vesicles from Golgi complex
Prophase
- condensation of chromatin into chromosome
- disappearance of nuclear envelope
- 2 centrosomes move to opposite poles
- mitotic spindles extended from centrosome (aster shape)
Prophase
- condensation of chromatin into chromosome
- disappearance of nuclear envelope
- 2 centrosomes move to opposite poles
- mitotic spindles extended from centrosome (aster shape)
Prometaphase
- mitotic spindles (microtubules) bind to kinetochore (9+0 structure - nonmotile)
- non-kinetochore microtubule extend and change cell shape from spherical to oval
