Edman degradation | Edman Sequencing
Summary
TLDRThe script introduces Edman degradation, a technique for protein sequencing that identifies amino acids in a peptide chain. It involves labeling and cleaving the N-terminal amino acid using phenyl isothiocyanate, Edman's reagent, under mild alkaline conditions. The resulting derivative is extracted and acidified to form a stable PTH amino acid derivative, identifiable by HPLC. This method is iterative, allowing for the sequence determination of up to 30 amino acids from the peptide's end.
Takeaways
- 🔬 Edman degradation is a method used for sequencing amino acids in proteins.
- 🔗 The process involves labeling and cleaving the N-terminal amino acid of the peptide.
- 🧪 The labeled amino acid is identified through techniques like chromatography or electrophoresis.
- 💡 Phenylisothiocyanate, also known as Edman’s reagent, is used for labeling the N-terminal amino acid.
- 🧼 The reaction between Edman’s reagent and the N-terminal amino acid occurs under mild alkaline conditions.
- 🔥 Under heat and specific conditions, a phenylthiohydantoin (PTH) derivative is formed.
- 🌡️ The PTH derivative is cleaved from the peptide and extracted using organic solvents.
- 🧊 The extracted derivative is acidified to form a stable PTH-amino acid.
- 🔍 The PTH-amino acid can be identified using chromatography techniques like HPLC.
- 🔢 Edman degradation can sequence up to 30 amino acids from the N-terminal of the peptide.
Q & A
What is Edman degradation?
-Edman degradation is a method used for the sequencing of amino acids in a protein. It involves the stepwise identification of amino acids from the N-terminus of the peptide.
How does the Edman degradation process begin?
-The process begins by labeling the N-terminal amino acid of the peptide with a reagent, which is then cleaved from the peptide.
What is the reagent used for labeling the N-terminal amino acid in Edman degradation?
-The reagent used is phenyl isothiocyanate, also known as Edman's reagent.
What conditions are required for the reaction between Edman's reagent and the N-terminal amino acid?
-The reaction occurs under mild alkaline conditions.
What is produced as a result of the reaction between Edman's reagent and the N-terminal amino acid?
-The reaction produces a phenylthiocarbamoyl (PTC) derivative of the N-terminal amino acid.
How is the PTC derivative cleaved from the parent peptide?
-The PTC derivative is cleaved under heat and acidic conditions and then extracted by organic solvents.
What happens to the PTC derivative after it is extracted?
-After extraction, the PTC derivative is acidified to form a stable PTH (phenylthiohydantoin) amino acid derivative.
How is the PTH amino acid derivative identified?
-The PTH amino acid derivative can be identified using chromatography techniques such as High-Performance Liquid Chromatography (HPLC).
What is the maximum number of amino acids that can be identified using the Edman degradation method?
-The maximum number of amino acids that can be identified by this technique is generally under 30.
How can the sequence of the peptide be determined using Edman degradation?
-The sequence of the peptide can be determined by repeating the Edman degradation process, progressively identifying each amino acid from the N-terminus.
What are some of the limitations of the Edman degradation method?
-While Edman degradation is a powerful tool, its limitations include the difficulty in identifying more than 30 amino acids and the potential for incomplete reactions or side reactions.
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