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Principles of Inheritance and Variation Handwritten Notes PDF Download

Principles of Inheritance and Variation Handwritten Notes PDF Download

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Molecular Basis of Inheritance Handwritten Notes PDF Download

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Notes Name- Molecular Basis of Inheritance

 

Subject – Biology

 

Class – 12th

 

Total Pages: 124 ages

 

Total Size: 25 MB

 

File Format: PDF (Portable Document Format)

 

Language of the Notes: English

 

Format: PDF (Portable Document Format)

 

Notes Type: Handwritt

en Notes

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Description

Description

  • Definition: The molecular basis of inheritance refers to the mechanisms through which genetic information is passed from one generation to the next at the molecular level.
  • Genetic Material: DNA (Deoxyribonucleic Acid) is the primary genetic material in most organisms.

2. Structure of DNA

  • Double Helix Model: Proposed by Watson and Crick.
  • Components:
    • Nucleotides: Basic units of DNA, consisting of a phosphate group, a deoxyribose sugar, and a nitrogenous base.
    • Nitrogenous Bases: Adenine (A), Thymine (T), Cytosine (C), Guanine (G).
    • Base Pairing: A with T (two hydrogen bonds), C with G (three hydrogen bonds).
    • Backbone: Alternating sugar and phosphate groups.

3. DNA Replication

  • Semi-Conservative Replication: Each new DNA molecule consists of one old and one new strand.
  • Key Enzymes:
    • Helicase: Unwinds the DNA double helix.
    • DNA Polymerase: Adds new nucleotides to the growing strand.
    • Primase: Synthesizes RNA primer.
    • Ligase: Seals the gaps between Okazaki fragments on the lagging strand.

4. Transcription

  • Definition: The process of synthesizing RNA from a DNA template.
  • Types of RNA:
    • mRNA (Messenger RNA): Carries genetic information from DNA to the ribosome.
    • tRNA (Transfer RNA): Brings amino acids to the ribosome.
    • rRNA (Ribosomal RNA): Forms the core of the ribosome’s structure.
  • Steps of Transcription:
    • Initiation: RNA polymerase binds to the promoter region.
    • Elongation: RNA polymerase synthesizes RNA.
    • Termination: RNA polymerase reaches a terminator sequence and releases the RNA.

5. Genetic Code

  • Triplet Code: Each codon (set of three nucleotides) codes for one amino acid.
  • Characteristics:
    • Degenerate: Multiple codons can code for the same amino acid.
    • Universal: Same codons specify the same amino acids in nearly all organisms.
    • Non-Overlapping and Commaless: Codons are read one after another without overlapping and without gaps.
    • Translation
    • Definition: The process of synthesizing proteins from mRNA.
    • Steps of Translation:
    • Initiation: The small ribosomal subunit binds to the mRNA.
    • Elongation: tRNA brings amino acids to the ribosome, and peptide bonds form between amino acids.
    • Termination: The ribosome reaches a stop codon, and the polypeptide is released.
    • 7. Regulation of Gene Expression
    • Prokaryotic Regulation: Operon model (e.g., lac operon in E. coli).
    • Eukaryotic Regulation:
    • Transcriptional Control: Involves enhancers, silencers, and transcription factors.
    • Post-Transcriptional Control: mRNA splicing, editing, and degradation.
    • Translational Control: Involves the initiation of translation and mRNA stability.
    • Post-Translational Control: Protein modification and degradation.
    • 8. Mutations
    • Definition: Changes in the DNA sequence that affect genetic information.
    • Types:
    • Point Mutations: Single nucleotide changes (e.g., substitutions, insertions, deletions).
    • Frameshift Mutations: Insertions or deletions that alter the reading frame.
    • Causes:
    • Spontaneous Mutations: Errors in DNA replication.
    • Induced Mutations: Caused by mutagens like chemicals and radiation.
    • 9. DNA Repair Mechanisms
    • Direct Repair: Reverses DNA damage directly.
    • Excision Repair: Removes damaged DNA and replaces it with the correct sequence.
    • Base Excision Repair (BER)
    • Nucleotide Excision Repair (NER)
    • Mismatch Repair: Corrects errors missed by DNA polymerase during replication.
    • 10. Recombinant DNA Technology
    • Definition: Techniques used to manipulate DNA for research and practical applications.
    • Steps:
    • Isolation of DNA
    • Cutting DNA using Restriction Enzymes
    • Inserting DNA into Vectors
    • Introduction of Recombinant DNA into Host Cells
    • Selection and Screening of Recombinants
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