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Cell Reproduction
Cell Reproduction
ChromosomesMitosisMeiosis
ChromosomesMitosisMeiosis
ChromosomesChromosomes
Cell DivisionCell Division
• Cell Division is the process by which cells reproduce.
• information in the cell is contained in genes → genes code for proteins → proteins carry out cellular functions
• Each body cell that results from cell division must have an exact copy ofthe DNA in the original cell.
• Cell Division is the process by which cells reproduce.
• information in the cell is contained in genes → genes code for proteins → proteins carry out cellular functions
• Each body cell that results from cell division must have an exact copy ofthe DNA in the original cell.
Chromosome StructureChromosome Structure
ChromosomeStructure
ChromosomeStructure
Chromosome StructureChromosome Structure
ChromosomeStructure
ChromosomeStructure
Chromosome NumberChromosome Number
KaryotypeKaryotype
Diploid vs. HaploidDiploid vs. Haploid• Diploid (2n): a cell that
contains both chromosomes of a homologous pair• Humans = 46 (somatic cells:
body cells)
• Haploid (n): a cell that has only one chromosome of each homologous pair• Humans = 23 (gametes:
egg and sperm)
• Diploid (2n): a cell that contains both chromosomes of a homologous pair• Humans = 46 (somatic cells:
body cells)
• Haploid (n): a cell that has only one chromosome of each homologous pair• Humans = 23 (gametes:
egg and sperm)
MitosisMitosis
MitosisMitosis• Mitosis: the division of the cell
nucleus in which the chromosomes in the parent cell divide into two identical sets
• In somatic cells (body cells), the number of cells is increased without changing the information contained in the DNA or the amount of DNA in those cells.
• Mitosis: the division of the cell nucleus in which the chromosomes in the parent cell divide into two identical sets
• In somatic cells (body cells), the number of cells is increased without changing the information contained in the DNA or the amount of DNA in those cells.
Binary FissionBinary Fission
• Binary Fission: cellular division of unicellular organisms that produces identical offspring
• Binary Fission: cellular division of unicellular organisms that produces identical offspring
Cell CycleCell Cycle
OverviewOverview
Important StructuresImportant Structures
Asters
Centrioles
Polar Fibers
Kinetechore Fibers
Equator
Kinetechore
Mitosis in AnimalsMitosis in Animals
G1
• Normal growing cell
• DNA = chromatin
• Organelles are doubling (not shown)
G1
• Normal growing cell
• DNA = chromatin
• Organelles are doubling (not shown)
S• DNA
Replication
G2
• Final Preparation for Mitosis
S• DNA
Replication
G2
• Final Preparation for Mitosis
Prophase• Chromosom
e formation• Nucleus and
nucleolus disappear
• Centrioles begin forming spindle fibers
Prophase• Chromosom
e formation• Nucleus and
nucleolus disappear
• Centrioles begin forming spindle fibers
Cell Membrane
Nucleus
Nucleolus
Telophase• Nucleus and
nucleolus reappear
• Chromatids uncoil back to chromatin
• Beginning of cell division
Telophase• Nucleus and
nucleolus reappear
• Chromatids uncoil back to chromatin
• Beginning of cell division
Anaphase• Chromosom
es split into chromatids
• Chromatids move to opposite poles
Anaphase• Chromosom
es split into chromatids
• Chromatids move to opposite poles
Metaphase• Chromosom
es line up along the equator
Metaphase• Chromosom
es line up along the equator
Cytokinesis• Complete cell division results in daughter
cells that are exactly the same as the original
Cytokinesis• Complete cell division results in daughter
cells that are exactly the same as the original
Mitosis in PlantsMitosis in Plants
Cleavage Furrow & Cell PlateCleavage Furrow & Cell Plate
Control of Cell SizeControl of Cell Size
• Cell Size (SA/V)
• Regulatory Checkpoints - Enzymes
• Cell Size (SA/V)
• Regulatory Checkpoints - Enzymes
MeiosisMeiosis
OverviewOverview
MeiosisMeiosis
Genetic RecombinationGenetic Recombination• Genetic Recombination: the
process that results in chromosomes being arranged in many different ways• crossing-over between homologues
or chromatids• homologous pairs separate
independently in meiosis I• sister chromatids separate
independently in meiosis II
• Genetic Recombination: the process that results in chromosomes being arranged in many different ways• crossing-over between homologues
or chromatids• homologous pairs separate
independently in meiosis I• sister chromatids separate
independently in meiosis II
CROSSINGV
ER
CROSSINGV
ER
Independent
Assortment
