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Chromatin structure

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NOMI KhanS

information about chromatin

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CHROMATIN STRUCTURE • Chromatin is composed of DNA and proteins, mostly basic proteins called histones • That help chromatin fold so it can pack into the tiny volume of a cell’s nucleus. • The two basic types of chromatin are 1. Euchromatin 2. Heterochromatin
EUCHROMATIN • The chromatin fibres in this region are loosely coiled . • Euchromatin undergoes the normal process of condensation and de condensation in the cell cycle. • Euchromatin constitutes the majority of the chromosomal material and is where most transcription takes place.
HETEROCHROMATIN • The chromatin fibres in this region are more tightly folded • Heterochromatin remains in a highly condensed state throughout the cell cycle, even during interphase. • All chromosomes have heterochromatin at the centromeres and telomeres. • In addition to remaining condensed throughout the cell cycle, heterochromatin is characterized by a general lack of transcription.
HISTONES Most eukaryotic cells contain five different kinds of histones: H1, H2A, H2B, H3,and H4. These are extremely abundant proteins; the mass of histones in eukaryotic nuclei is equal to the mass of DNA.
NUCLEOSOMES • The total length of human DNA, if stretched out, would be about 2 m, and this all has to fit into a nucleus only about 10 mm in diameter. • In fact, if you laid all the DNA molecules in your body end to end, they would reach to the sun and back hundreds of times. • DNA folding must occur in your body and in all other living things. We will see that eukaryotic chromatin is indeed folded in several ways. • Eukaryotic DNA combines with basic protein molecules called histones to form structures known as nucleosomes. These structures contain four pairs of core histones (H2A, H2B, H3, and H4) which wrapped a stretch of about 146 bp of DNA.
30-NM FIBER • Nucleosomes fold on themselves to form a dense, tightly packed structure that makes up a fiber with a diameter of about 30 nm . • Two different models have been proposed for the 30-nm fiber: • A solenoid model, in which a linear array of nucleosomes are coiled, • Helix model, in which nucleosomes are arranged in a zigzag ribbon that twists or supercoils. Recent evidence supports the helix model
HIGHER-ORDER CHROMATIN FOLDING • The next-higher level of chromatin structure is a series of loops of 30-nm fibers. • On average, each loop encompasses some 20,000 to 100,000 bp of DNA and is about 300 nm in length. • The 300-nm loops are packed and folded to produce a 250-nm-wide fiber. • Tight helical coiling of the 250-nm fiber in turn produces the structure that appears in metaphase individual chromatids approximately 700 nm in width.
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Human genetics..........................pptx
 

Chromatin structure

  • 1. CHROMATIN STRUCTURE • Chromatin is composed of DNA and proteins, mostly basic proteins called histones • That help chromatin fold so it can pack into the tiny volume of a cell’s nucleus. • The two basic types of chromatin are 1. Euchromatin 2. Heterochromatin
  • 2. EUCHROMATIN • The chromatin fibres in this region are loosely coiled . • Euchromatin undergoes the normal process of condensation and de condensation in the cell cycle. • Euchromatin constitutes the majority of the chromosomal material and is where most transcription takes place.
  • 3. HETEROCHROMATIN • The chromatin fibres in this region are more tightly folded • Heterochromatin remains in a highly condensed state throughout the cell cycle, even during interphase. • All chromosomes have heterochromatin at the centromeres and telomeres. • In addition to remaining condensed throughout the cell cycle, heterochromatin is characterized by a general lack of transcription.
  • 4. HISTONES Most eukaryotic cells contain five different kinds of histones: H1, H2A, H2B, H3,and H4. These are extremely abundant proteins; the mass of histones in eukaryotic nuclei is equal to the mass of DNA.
  • 5. NUCLEOSOMES • The total length of human DNA, if stretched out, would be about 2 m, and this all has to fit into a nucleus only about 10 mm in diameter. • In fact, if you laid all the DNA molecules in your body end to end, they would reach to the sun and back hundreds of times. • DNA folding must occur in your body and in all other living things. We will see that eukaryotic chromatin is indeed folded in several ways. • Eukaryotic DNA combines with basic protein molecules called histones to form structures known as nucleosomes. These structures contain four pairs of core histones (H2A, H2B, H3, and H4) which wrapped a stretch of about 146 bp of DNA.
  • 6. 30-NM FIBER • Nucleosomes fold on themselves to form a dense, tightly packed structure that makes up a fiber with a diameter of about 30 nm . • Two different models have been proposed for the 30-nm fiber: • A solenoid model, in which a linear array of nucleosomes are coiled, • Helix model, in which nucleosomes are arranged in a zigzag ribbon that twists or supercoils. Recent evidence supports the helix model
  • 7. HIGHER-ORDER CHROMATIN FOLDING • The next-higher level of chromatin structure is a series of loops of 30-nm fibers. • On average, each loop encompasses some 20,000 to 100,000 bp of DNA and is about 300 nm in length. • The 300-nm loops are packed and folded to produce a 250-nm-wide fiber. • Tight helical coiling of the 250-nm fiber in turn produces the structure that appears in metaphase individual chromatids approximately 700 nm in width.