Division
Comprehensive notes, formulas, and practice questions for Division.
Division
Cell Division
What you'll learn
- Why cells divide — growth, repair, reproduction; cell cycle phases G₁, S, G₂, M.
- Mitosis — equational division producing genetically identical daughter cells (somatic).
- Meiosis — reduction division producing haploid gametes with crossing over and independent assortment.
- Cytokinesis differences in plant (cell plate) vs animal (furrow) cells.
Key concepts
Level 1 — Cell cycle and mitosis
Verbal: Interphase (G₁, S, G₂) is when cell grows and DNA replicates (S phase). M phase = mitosis + cytokinesis.
Symbolic: Mitosis: one division 2n→2n; meiosis: two divisions 2n→n; at metaphase 2n=12 → 12 chromosomes, 24 chromatids; crossing over in prophase I.
Mitosis stages (PMAT):
- Prophase: Chromatin condenses, spindle forms, nuclear envelope breaks down
- Metaphase: Chromosomes align at equatorial plate
- Anaphase: Sister chromatids separate to poles
- Telophase: Nuclear envelopes reform, chromosomes decondense
Result: 2n → 2n (two daughter cells same as parent). Essential for growth and asexual reproduction.
Level 2 — Meiosis and significance
Meiosis I (reductional): Homologous chromosomes pair (synapsis), crossing over at pachytene, separate in anaphase I → two haploid (n) cells each with replicated chromosomes.
Meiosis II (equational): Sister chromatids separate → four haploid gametes.
| Feature | Mitosis | Meiosis |
|---|---|---|
| Divisions | 1 | 2 |
| Daughter number | 2 | 4 |
| Chromosome number | Same as parent | Half of parent |
| Genetic variation | Minimal (unless mutation) | Crossing over, assortment |
| Where | Somatic cells | Germ cells |
Significance of meiosis: Maintains chromosome number across generations; creates variation for evolution and breeding.
Regulation: Checkpoints (G₁/S, G₂/M, spindle) — cancer linked to uncontrolled division (preview).
NCERT spotlight — Mitosis in plants vs animals and meiosis significance
Plant cytokinesis builds cell plate from Golgi vesicles; animal cells form cleavage furrow from contractile ring of actin. Both follow mitotic chromosome separation.
Meiosis and variation: Crossing over in pachytene exchanges alleles between homologues. Independent assortment of homologous pairs at metaphase I produces 2^n gamete combinations for n bivalents.
Cancer link: Uncontrolled mitosis when cell cycle checkpoints fail — proto-oncogenes and tumour suppressors preview for medical entrance relevance.
Worked example
A diploid cell has 2n = 12 chromosomes. How many chromosomes and chromatids per cell at (a) metaphase mitosis (b) metaphase meiosis I (c) metaphase meiosis II?
Step 1 — (a) Mitosis metaphase: 12 chromosomes, each with 2 sister chromatids → 24 chromatids total.
Step 2 — (b) Meiosis I metaphase: 6 bivalent pairs (12 chromosomes) at plate; each chromosome 2 chromatids → 24 chromatids.
Step 3 — After meiosis I: 2 cells with n = 6 chromosomes (each replicated).
Step 4 — (c) Meiosis II metaphase: 6 chromosomes aligned, 12 chromatids per cell.
Step 5 — Final four cells: each n = 6, unreplicated chromosomes after telophase II.
Step 6 — DNA content: 2C → 4C in S → back to 2C per mitotic daughter; meiosis ends at 1C per gamete (if started 2C).
Applications — growth, healing, and cancer therapy
Meristematic plant tissues divide by mitosis for growth — root and shoot apical meristems. Chemotherapy targets rapidly dividing cancer cells — side effects on hair follicles and gut lining also divide frequently. Meiosis shuffles alleles — genetic counselling uses understanding of nondisjunction (trisomy 21 Down syndrome) linked to meiosis I or II errors in egg/sperm formation.
Common mistakes
| Mistake | Why it happens | Fix |
|---|---|---|
| Crossing over in mitosis | Both involve chromosomes | Crossing over in prophase I only |
| Sister vs homologous separation | Anaphase confusion | Mitosis/anaphase II: sisters; meiosis I: homologues |
| Chromosome number doubles in S | Chromatid vs chromosome | Count centromeres |
| Meiosis produces identical cells | Mitosis mix-up | Four genetically diverse gametes (usually) |
Deep dive — cell cycle regulation and errors
Cell cycle phases G1 growth, S DNA replication, G2 prepare mitosis, M mitosis cytokinesis — G0 quiescent exit for differentiated cells like neurons mostly. Checkpoints G1/S DNA damage p53 pathway; G2/M; spindle assembly — failure → uncontrolled division cancer. Mitosis prophase centrioles move poles animal cells; plant lacks centrioles uses spindle from MTOC. Anaphase cohesin cleavage separates sister chromatids — molecular mechanism target cancer drugs paclitaxel stabilises microtubules blocking anaphase. Meiosis prophase I leptotene zygotene synaptonemal complex pachytene crossing over diplotene diakinesis — long phase majority meiosis duration. Nondisjunction failure separate homologues or chromatids → aneuploidy trisomy 21 Down syndrome extra chromosome 21 egg/sperm. Synaptonemal complex aligns homologues for recombination — unique to meiosis not mitosis. Comparison table mitosis one division 2n→2n growth repair; meiosis two divisions 2n→n gametes genetic variation sexual reproduction.
Review and practice drill
Review checklist: (1) Mitosis equational 2n to 2n. (2) Meiosis reduction crossing over. (3) PMAT mitosis phases. (4) Plant cell plate versus animal furrow cytokinesis. Practice: 2n=12 chromosomes at mitosis metaphase — 12 chromosomes 24 chromatids.
Quick check
- List phases of mitosis in order.
- What is synapsis and when does it occur?
- Why is meiosis called reduction division?
Open the Practice tab for graded questions on Division.
Key Takeaways (TL;DR)
- What you'll learn
- Key concepts
- Worked example
- Common mistakes
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