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Chro mosome Oragnisation . chromosome is made of chromatin (nucleic acid and protein). when in mitotic and meiotic stages of cell cycle, chromatin (euchromatin & heterochromatin) stains readily. What chromosome is made of?. Chromatin is organised on three basic levels: primary (nucloesome)
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chromosome is made of chromatin (nucleic acid and protein). • when in mitotic and meiotic stages of cell cycle, chromatin (euchromatin & heterochromatin) stains readily. What chromosome is made of?
Chromatin is organised on three basic levels: • primary (nucloesome) • secondary (solenoid) • tertiary/quaternary (final folding into chromosome shape) • A typical eukaryotic chromosome contains 1 to 20 cm of DNA. During metaphase of meiosis/mitosis, this DNA is package into a chromosome with a length of only 1 to 10 m (a condensation of almost 104-fold in length from the naked DNA molecule). Chromosome Packaging
Base pairing Chromosome Packaging
double strand Chromosome Packaging
double helix Chromosome Packaging
Chromosome Packaging beaded string (beads-on-a-string) – nucleosome structure of chromatin
Chromosome Packaging nucleosome
Chromosome Packaging • nucleosome contains histones (2 of each H2A, H2B, H3 and H4, and one H1) • histones (102 amino acid residues; containing up to 20% lysine and arginine) are highly positively charged – to counteract the negative charges of the phosphate groups on the double helix backbone. • modification (acetylation, methylation or phosphorylation) of histone tail will affect the level of positive charge to regulate DNA compaction.
Chromosome Packaging • the diameter of nucleosome (bead) is 11nm. • 200 bp of DNA associated with one bead, 145 bp are associated with the histone core, 23 bp protected by H1 and 8 to 114bp (depends on species and type of cells) form a linker between beads. • the rate of DNA winding is 1.7 turns per core particle, producing a six- to sevenfold reduction in the length of DNA.
Second level of chromatin organization: solenoid • the nucleosome is supercoiled and organised into a solenoid structure, with 6-7 nucleosomes per turn. • H1 stabilizes the structure of solenoid. • the supercoiling produces a fibre of approximately 30nm in diameter. Chromosome Packaging
Chromosome Packaging Higher order folding of chromatin into chromosome
Protection Compaction DNA metabolism Roles of Chromosome Packaging