Cell Cycle & Cell Division PDF
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The document details the stages of the cell cycle that includes various details including growth, DNA replication, and division via mitosis and meiosis. It touches upon the cell cycle process and its importance in living organisms. The text also discusses the characteristic phases of a particular cell cycle.
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cell cycle & cell division. > - Growth "mitosis > - DNA Replication - meiosis >...
cell cycle & cell division. > - Growth "mitosis > - DNA Replication - meiosis > - Division > - Amitosis. s cel growth > charactersitic of cell ~ Reproduction > - Mode of Cell division' - cell Reproduction Iste generation · parent cell Mother Cell a Growth. Y · BDNA Replication c Division ↓ Y and generation D C< ⑳ :. A Growth. Y · B DNA-Replication c Division Y Y V 3rd 9 eneration G ⑧ > D. C o ( Modern theory modified it cell theory principle of cell cell virchow in 1855 theory By Rudolf > -. Y "Omnis Cellula e Cellula" -Y cell are divided & New cell arise from pre-existing cel Division > ⑨ > - New Cell J pre-existinga 1 By Stransburger it K K.. (Kamyokinesis Division of Nucleus > Came of mitosisit 2. A Kernplasm theory Explain by Hertwig it. > Disturbing of K I.. (Karyoplasmic indexof Y Nucleoplasmic index Cell are divided K - I. = volume of Nucleus volume cytoplasm of. or · Un K. I. = v = volume of Nucleus Vc - un Ve = volume of Cel Ve-Un = volume of Cytoplan volume ratio :- B. Surface-area Balance - cell are not divided. > - Imbalance > - cell are divided Note it> A New Cell > K I.. = ↑, Cytoplan + = > A small Cell > K I -. = ↑, Cytoplasm = ↑ 1 A Large cell > k I. = Y , Cytoplasm = · A Dividing Cell > K F.. = Y , Cytoplasm = * I small cl are metabolically active. Cell Cycle 2-phase. - ↓ T -terphase. M-phase. ↓ ↓ Total = > 95 % part < 5 % part. mitosis phase Non-dividing phase > ↓ > - Invisible phase. Division dividing Resting phase > -. Phase > - metabolic phase. > Energic phase. - 191-phase Interphase > S-phase. ~ G2-phase. G write sequence of cel cycle.?MEET 2019 Ansi- 4 > S : G2 > M-Phase A Bacterial Cell = 20-30 min. Ex = > - cell gomin 1 5hr 1Ehr. yeast A : =. A Human Cell (Skin cell = 24hri > - Interphase = 23hr > - M-phase = of hr Note :f (A ). Some cell are present in life time Enterphase Stage = Nerve Cell Of Neuron (B ). In Heart Cell Stop division after a particular stage. · Ist Gap phase => - Ist check point 11, ~ G , 5 transition # Major zone. S Synthesis phase ↓ DNA Replication andGap phase ·Y > - G1-phase + First Growth phase Interphase > - S-phase : - Synthesis phase Second Growth phase G2-phane +. : ~ Est Gap-phase First Growth Phase Gi-phase :. & > pre-sephase post-M-phane. - > most of Cell organelle deplication in - G-phase. [NEET-2019] > - Formation of require material for S-phase. > - & AmP EX : &GMP - > Nucleotide - - T > & IMP - > ATP- > & TMP Energy - source > - RNA > - protein > - Amino acid > Enzyme. - > Longest Part of Enterphase. S-phase it Synthesis phase. > - post-41-phase · > - pre-G2-phase. > - Synthesis duplication Replication ofDNA > DNA amount double , but chromosome number remain Jame. I chromatid duplication. one chromatid > One DNA two chromatid TWO > DNA > centriole formation in animal cell during cell division. > - Formation of Histon protein > - Euchromatin formed in early s-phase. late s-phase > - Heterochromatin formed in. E2-phase it and gap-phase second growth phase. > post-s-phase - > - pre-m-phase. > - Final preparation of Interphase. SizeareIncrease > - Cell & Cell organelle. > - Duplication of Mitochondria , Chloroplast & G. B. ↓ (Semiautonomous organelle > Formation of require material for M-phase. - Ex : > - Tubulin proteins formation of microtubule > - Formation of Most of RNA & protein Formation of CdKS & Cyclin protein > - Cyclin dependent Kinare Enzyme. Note : - Formation of Non-Histon protein in ↓ G , 52 G2-phase. Go-phase is Quiscent phase - Some time Inactive phase if Nutrient Content low metabolically active phase > - Growth & differentiation. in dead & Intured cell (permanent risue). 9 = Go-phases exit of G , -phase. Suspend C o ell Cycle (NEET 2019 & is a ? > end of G , -phane (NEET 2020 / Note : (Regulate of Check point cell cycle. - - Ist- checkpoint and-check point ↓ ↓ Major Check point minor check point ↓ ↓ G = s Transition G2-M Transition => s cyclin protein Regulate of cell cycle by ~ coks-Enzyme. Note if DNA Content = Picogram (Pg) 10- 1Pg = am. DNA value = C chromosome number = n Frnitosis : - Equational division ↓ Identical progeny are genetically to parent cell. (In mitosisx222 mitosis D C.. + D. C.. 24 , 2u ↑ ul ↑ ↓ M M Gi > 2C n Gr Gr > 24 42 uc < S S - 44 "In different to In meiosis + progeny are genetically parent cel. 2 each other. meiosis ↓ ↓ meiosis - I meiosis - I ↓ Reductional division Equational divisio like ↓ Just mitosis chromosome are reduced ↓ > - chromosome 70. chromosome number ↓ Half. are same ↓ Each chromosome Each chromosome double chromatid single chromatid. - I 1 ME > n (2(m 4 D C & 4D C -gamets - ↑ > M-F.. - -. of & of 324 ul M m-E se & 4-gamete 2n M > 2C ↑ M Gi > 24 Gi G2 S Ga UCS S zu4 nc - 2n ques : - NEET-2023 in Manipur 2C. 9 1. In G -Phase value of DNA = , In S-phase = 46 In G2-phase = 4C After mitosis = 2C each cell After meiosis - 1 = 2 c each. cell After meiosis- I = < each cel 0. 2 In 62-phase amount of DNA 20 Pg. =. In Sphale Pg - = 20. In Si-phase 10 Pg > =. - > After meiosis- I Pg 5 - = After meiosis F + each lopg = > - - Cell. After mitosis lopg - = 0 3 In G , -phase number of chromosome In.. : > In G2-phase = 2n -> In s-phase. = 2u > - After mitosis = 2u > - After meiosis - I = M - Each Cell > - After meiosis - - I = N 9 4.. In G2-phase Chromosome number = 20 In G1-phan = 20 After meiosis - E = 10 20 En S-phase = After mosis - # = 10 After mitosis = 20. 9 5. In pollen grain microspore sperm = gamet or In megaspore egg ora =+ gamete => DNA value = < & chromosome = n > In 6,-phane = 2) &In - En S - phase = 462 In > - In G2-phase = 42 & In > - After mitosis = 21 & Zu > - After meiosis-1 = 2 c & n > - Each # & cell. > - After meiosis - = C Y - i-phase it mitosis-phase 5 % part ↓ division phase Dividing. I shortest period of cell cycle I most dramatic period of cell cycle. mitosis discovered > - Stransburger in plant all > o > - flamming in Animal all Plant Cell (Diploid (2n) ~ mitosis are present in C Haplo'd (n) bothe > - Animal cell ↓, (2n) Diplied cell only but except in HapliedDrone. A male bee mechanism mitosis of - In somatic ceus. Parent cell. In > - G 1 Growth A Interphase > - StDNA Replication Y > - 42 2n K K Karyokinesis * >. : = 4-phases B M-phase ↓ - mitosis Y prophase Anaphase metaphase - L S Telophane & & 2n 24) C k : : = Cytokinesis Y D C.. ↓, in plant cel In Animal progeny are genetically ↓ ↓ cell cell plate cellfurrow Identical to parent cell method ↓ method chromosome number same ↓ centrifugal ↓ centripetal Equational division Manner Manner M-phase Metosis-phase :+ 2. Step A K. K. Karyokinesis) it Division of Nucleus > - division of nucleus in mitosis & meiosis : Indirect > - In mitosis = Karyokinesis - > 4-phases da Y prophase MetaphaphoreTelophane. B. C K.. (Cytokinesis) if Division of Cytoplasm. Mitosis (mitotic division) - Equational division Identical > progeny are genetically to parent cell - ↓, Chromosome number > - Same. I prophase K. K. > 4-phane = PMAT > - Metaphase > - Anaphall > - Telophale 1 prophale - Ist phase of K Ko. > - Longest phase of K. K. P P Centricle ↳ 8 ↑ - ⑧ - ji > N ·. Mr im · ⑧ /Centriole ↓ > Nucleoly : L ⑧ p : centriole Early prophase Late prophal 1 N M.. 2 Nucleolus Size = ↑ > - No Mo > - chromosome are Sprime Stage. > - Nucleolve > - Terminal end are not visible. - E R C G B..... Y > - chromosome condensation - start. Disappeare > - Centridle move to opposite poles. in Animal Cell. Note :+ 1. Formation of Astral ray's a Spindal fibre start in prophase : ii. formation of spindl fibre by microtubules iii In Animal Celli-Amphiastral mitosis +ut ↓ Centriole + ↓ Formation astral ray's of Arrangement of Spindal fibre. in. In plant cell:+ Anastral mitosis that ht > - Centide - > - arrangement of Spindal fibre by an astral wayts. v Transition to metaphase. 2) h&PI C Astral ray's ⑧ & & > Centriole & spindle fibre attach * with Kinetochore X chromatio & X all ach - WI th X Centromere. · · -Centriole S & > SPI S S 2. Metaphore if Best Study condition for Morphology of chromosome. I Short > chromosome I Thick Astral ray's P spindl fibre ⑧ I. 28 > - Equator line of metaphasian plate ⑧ P > All chromosome more at equatorline. > - formation of one metaphasian plate. - Al chromosome in Centre - Congression Stage. > - Formation of Spindle fibre s - formation of Centromere > - Complete in + formation of Kinetochore metaphase. - Condensation Chromosome. 3 Anaphase :- Smallest Phase of K. K. for behaviour -> Best study condition of chromosome > - change of Chromosome ↓, Shape ! ↓, = shape chromosome Shape Best study of. Note Stage to :- Po ↳ S pindle , S Fibre chromatio 24 0DDD EU n A 11 wu vv ----- X Centromere 7 a i D DO O D I T enterzond Fibre Split. Repulsion ↳ ⑨ P Force Early Anaphase Late Anaphare - splitting of centromere. > - separate chromatic => chromatid Separation - Start more to opposite poles > - spindle fibre -s Short long - Feterzonal Fibre + 4. Telophane if Last Phase of K.. K > Recovery Phase Reverse of prophase. - P · NN A A Chromosome 8 ↑ * cluster 2n Y Binucleate X 24 D Do Do G P Late Telophase Early Telophane > - all chromosome > N. Mo more at opposite poles. > - Nucleoly > Re-appeare to - E R & G B.... chromatid is Cluster stage > - chromosome decondensation chromosome inspireme 2 sen 24 44 S tage ↓ Terminal end 2C 2n are not visible. & N M.. Nucleolus 2441 E R CG B... 1/ 2( > zu dis appeare 2C san Chromosome 24 UC Cluster zu" NEET = 2023 > Manipur.1 9 Doubling of the number of chromosome can be achieved mitotic cell division soon ? by disrupting after (1) prophase 2) Metaphase (35 Anaphase (4) Telophane. Doubling of in 9 the number of chromosome 2.. mitotic division ? (1) prophase (2) metaphase (3) Anaphase (4) Telophane. & tokinesis it After Karyokinesis , C. K. Start in Late Anaphase Telophane Cytokinesis in plant cell it cell plate method ↓, Centrifugal Manner ↓ Centre to periphery P-C > P Cytokinesis in Animal Cell it Cell furrow method or clearage division ↓ Centripetal Manner ↓ Periphery to Centre ~ P > P Note 1. Free nuclear divisions without C. K. only K K.. K K.. & K K.. O K K.. 3 Y · · > · g multinucleate. g ↓ Coconut coenocytic-stage Ex : -Liquid of or Syncytium Nuclear Endosperm (3n) without Note 2. Endomitosis polyploidy it Nucleus division (k) only chromosome duplication > - In plant cell polyploidy Induced by Colchicine. Note. 3 mitogens :- promoting factor for mitosis Exit Auxin > - Grtz 1 PGR + cytokinine > - Insuline : Animal Hormon > - EGF) Epidermal Factor growth Note 4. mitotic posions it Inhibitor factor EX : > - Ribonuclease + Guide. - colchicine > - Azide mustard - gas mitosis Note. 5 Formation of cell require = 1-1 Formation require mitosis 9 1 ofby cells ? %. Sol n - 1 n = No. of Cell 64-1 = 63 time mitosis Formation 100 cells require mitosis of G.. 2 So n 1 = time mitosis 100 1 = 99 - - Notes Generation = 2" n = generation.. 9 formation of by calls require generation ! Sur gn-generation n = 6 Total cell = 64. 6 2 = 2x2X2x2X2x2 = 64 Cell generation = 6. significance of mitosis : - Cell I Size Increase mitosis Shape by 1 - 11 cell number - Increase mitosis by iii progeny are genetically ↓ goentical to parent led is division mitosis a Equational. mitosis in cell repair & regeneration by In Infurd. Cell wound cell Y mitosis Y by in Dead Cell all repair - by mitosis cell regeneration mitosis V cell Increase growth by - O. NEET-2023 G NEET-2023 O NEET-2023 & NEET-2023 in Manipur theiosis meiotic-division it Term Discover Farmer and 1 by. moore > meiosis is a reductional division > - chromosome areReduced > - chromosome number (Half. different > progeny are genetically to - parent cell &each other. - By meiosis genetic variation create. > - meiosis in generative cel Reproductive cl Gamete mother cell. Types meiosis of 2 - types. Y ↓ meiosis - I Meiosis - I ↓ Y Heterotypic division division ↓. Homotypic s Reductional division Equational division ↓ ↓ Chromosome ' Reduce Just like mitosis ↓ ↓ Chromosome number - Half. (n) chromosome number Jame - ↓ ↓ (n) but each chromosome. but each chromosome double. chromatid ↓o Single ↓. chromatid (2 - DNA) (1-DNA) I > In Anaphare It "In Anaphase - - - ↓ > - Centromene are not split. - Centromere + Split ↓ > - chromatid - Separate chromatid are attach with centromere. Chromatid are not " After meiosis It - Separate ↓ - Formation of > - segragation of Homolog Chromos our Ome four D. C. gamete (n) Y genetically different > - After meiosis - I ↓ to cell parent formation of two Dyad Cl (n) ↓ partial divided cell Note : > - In meiosis Y -two time Cytokinesis - Karyokinesis > & : 1 DNA Replication & chromosome division it one time ↓, - (S-phase) (Anaphase II - , centriole duplication in meiosis=3 time & Nucleus division in meiosis > Indirect Mechanism meiosist In of generative or cel Reproductive cell Gamete mother cell. 2n > - G , -phase Growth S-phase A T > - terphall :. M X > - Ge-phase. · 2n B. Re-phase (meiosis/ > - meiosis -I P-II PDD chromosome M-I > - > K -. K. - E > - A I L - Half Y - T - I * n two > C. K. If in - monocots and only g - n Byad cell ↑ Animal Cell - Interkinesis Chromosome - Gap periode blu number , Jame. meiosis. M-I & M - I > - I it > P-I - > - K K.. It - M - I Y L - / > - A - I L CT - It n - n n n > CK # : in - present - - - K 3 Monocots Dicots and Haplod (n) DoCo , 4- Animal Cell gamete ↓ different to and -Genetically each other. cell parent meiosis - 1 > - Reductional division. 2 Step A. Karyokinesis-1 if Division of Nucleus > - 4-phase > - PMAT I > prophase - - > - Metaphan - I > Anaphase E - - > - Telophane. - I (1) prophase 1 it Longest & Complex Phase of - K. K -I. (meiosis If - -Sub-phase > LIPDD. 9 Leptotene if Formation of attachment point. attachment point > condensation of chromatin - M P ↓ · > N M.. formation of chromosome. Longest - > Nucleoly & animal > - thinest In - cell chromosome are Bruquilatestage material paternal 8 8 - go single chromatid ( Double chromatio (Homologan m) (H - C ). Synapses it pairing of H C. - Zygotene. b : ~ Bivalents => n + No · o bivalents - Note it ↑ - 1 Bivalent => 2-Homologous Chromosome - > - Formation of Synaptonemal Complex smade of nucleoprotein Synapses Sister chromatid Bivalent formed but not visible. ↑ ↓ formation I start in I Tetrad zgotene. I 2 3 (So(o) Y S If IfS I 3 2 Al # > matern of paterna K ) Syneptonamal 2 Homologons - chromosome Complex ↓, Synap sig ↓ Bivalent ↓ Tetrad formation - start C pachytene it Tetrad stage. 1 Tetrad formation Complete. > - Genetic m aterial exchange Chromatid > - 1 Y BD 2 3 O At M ⑧ ⑧A k Y Non-sister chromatid (C 0) Exchange of genetic Crossing > - over. if material blu two mon-sister chromatic of two H · Co > crossing over regulate by Recombinan engme - Note - : In meiosis - 1- division. - prophase - 1 > - Phase. ↓ Pachytene > sub-phase ↓, C. Or R