Cell Cycle and Cell Division (Class 11 Biology) PDF
Document Details
Uploaded by IrresistibleQuasimodo
Ramnarain Ruia Autonomous College
Tags
Related
- 2023 JC1 Biology Lecture Notes - Cell Division & The Cell Cycle PDF
- Biology Module 1 Lesson 2: Cell Cycle and Cell Division (2022-2023) PDF
- CBSE Class 11 Biology - Cell Cycle and Cell Division PDF
- Cell Cycle and Cell Division PDF 2023-2024
- Biology: Cell Cycle and Cell Division Past Paper PDF
- General Biology 1 Past Paper Fall 2024 PDF
Summary
This document is a mind map for Class 11 biology on cell cycle and cell division. It covers important topics like mitosis and meiosis, including their stages and significance. The study material is aimed at NEET and AIIMS aspirants.
Full Transcript
### Cell Cycle & Cell Division **Cell Cycle** - Sequence by which cells duplicate the genome, synthesize other constituents of cell and divide into two. - Human cell divide once in 24 hours, yeast divides every 30 minutes. **M-phase** * M can be mitosis or meiosis: * **Mitosis** - Equational...
### Cell Cycle & Cell Division **Cell Cycle** - Sequence by which cells duplicate the genome, synthesize other constituents of cell and divide into two. - Human cell divide once in 24 hours, yeast divides every 30 minutes. **M-phase** * M can be mitosis or meiosis: * **Mitosis** - Equational division. Number of chromosomes remains the same. * **Meiosis** - Reduction division. Chromosome number is halved. **Interphase** * Phase between two M-phases. * 95% of time. **Karyokinesis** - Nuclear division. **Cytokinesis** - Cell division. #### **Stages of Mitosis:** - **Prophase** - Chromatin condenses to form chromosomes. - Centromeres start moving to opposite poles. - Mitotic apparatus (Aster + Spindle fibres) appears. - **Metaphase** - Best stage to study morphology of chromosomes. - Centromere fibres (Spindle) attached to centromere of the chromosomes. - **Anaphase** - Centromeres split. - Chromatids separate. - Chromatids move to opposite poles. - **Telophase** - Chromosomes cluster at opposite ends. - Nuclear membrane reappears. #### **Cytokinesis:** * **Animal cells** - Furrow formation. * **Plant cells** - Cell plate formation. * Cell plate represents middle lamellae. **G0 phase:** Quiescent stage. Cell is metabolically active but don’t divide. Ex- RBC, heart cells. **Significance of Mitosis:** - Repair, growth of tissue - Restore nucleo-cytoplasmic ration **Syncytium:** Multinucleate condition. Karyokinesis X Cytokinesis. Example: Liquid endosperm of coconut. ### **Meiosis** - Reduction division - Four phases: #### **Meiosis I** - **Prophase I** - **Leptotene** - Chromosome compaction - **Zygotene** - Synapsis - Synaptonemal complex is formed - Bivalent is formed - **Pachytene** - Crossing over - Bivalent is clearly visible - Recombination nodule appears - **Diplotene** - Dissolution of synaptonemal complex - Chaismata formation - **Diakinesis** - Terminalization of Chaismata - **Metaphase I** - - **Anaphase I** - - **Telophase I** - - Nuclear membrane, nucleolus reappear. - **Interkinesis** - - Stage between M-I & M-II - Crossing over enzyme - recombinase - Exchange of genetic material between non-sister chromatid of homologous chromosome. - Chaismata - X shaped. - In oocyte of some vertebrates, Diplotene can last for months or years. #### **Meiosis II** - Everything is the same as Mitosis. **Significance of Meiosis:** - Conservation of the chromosome number through different generations. - Increases variation.