Genetics-And-Evolution-Molecular-Basis-Of-Inheritance-3

Why Genome Organization is Required?

Efficient storage and functioning of genetic information.

Accessibility of genes for transcription and regulation.

Levels of DNA Packaging

  1. Nucleosome (DNA wrapped around histones).

  2. Chromatin fiber (stacked nucleosomes).

  3. Looped domains (300nm).

  4. Heterochromatin (700nm, inactive).

  5. DNA compaction.

  6. Metaphase chromosome (1400nm, mitosis/meiosis).

Levels of DNA Packaging

  1. Nucleosome (DNA wrapped around histones).

  2. Chromatin fiber (stacked nucleosomes).

  3. Looped domains (300nm).

  4. Heterochromatin (700nm, inactive).

  5. DNA compaction.

  6. Metaphase chromosome (1400nm, mitosis/meiosis).

Proteins in DNA Packaging

Histones, histone modifiers, and chromatin remodelers.

Nucleosome

Basic unit of DNA packaging.

DNA wrapped around histones.

Formation of Chromatin Fiber

Compact nucleosomes stack together.

Looped Domain Formation (300nm)

Chromatin loops on a protein scaffold.

Efficient gene regulation.

Formation of Heterochromatin (700nm)

Highly condensed and inactive chromatin.

Found near centromeres and telomeres.

DNA Compaction

Progressive compaction through multiple levels.

Formation of Metaphase Chromosome (1400nm)

Full condensation in mitosis/meiosis.

Chromosome

DNA and associated proteins.

Genes encode proteins and regulate processes.

Genome Organization in Viruses

Compact genomes due to small size.

Use capsids for genetic information protection.

Chromosome Parts

Centromere (segregation).

Telomeres (protection).

Chromatids

Types of Chromosomes

Autosomal (traits).

Sex chromosomes (determine sex).

Chromosome Function

Carry genetic information.

Genes instruct protein synthesis and regulation.

Accurate inheritance during cell division.

Bacterial Genome Organization

Single, circular chromosome.

Nucleoid region for organization.

DNA supercoiling (DNA gyrase, topoisomerases) and binding proteins for compaction.

Features of Bacterial Genome

Smaller size, essential genes.

May have plasmids with additional functions.

Genome Organization in Bacteria

Primarily organized in the nucleoid.

DNA supercoiling and protein binding for compaction.

Enzymes Associated with Supercoiling

DNA gyrase and topoisomerases regulate DNA supercoiling.

Chromosome Function and DNA Supercoiling

Influences gene regulation.

Affects gene accessibility for transcription.

Genome Organization in Eukaryotes

Larger genomes, linear chromosomes.

Enclosed within a nucleus.

Eukaryotic Genome

Coding and non-coding regions.

Introns (non-coding) and exons (coding).