What is the Difference Between Parallel and Antiparallel Beta Pleated Sheets?
🆚 Go to Comparative Table 🆚The main difference between parallel and antiparallel beta pleated sheets lies in the direction of the polypeptide strands and the stability of the hydrogen bonds.
- Parallel beta pleated sheets have polypeptide strands running in the same direction. The hydrogen bonds in parallel beta sheets are less stable, and the geometry of the individual amino acid molecules makes them longer and thus weaker. Parallel sheets are less twisted than antiparallel sheets and are always buried.
- Antiparallel beta pleated sheets have polypeptide strands running in opposite directions. The hydrogen bonds in antiparallel beta sheets are strong and stable, as they are aligned directly opposite each other. Antiparallel sheets can withstand greater distortions (twisting and beta-bulges) and are more stable than parallel sheets.
In summary, parallel beta pleated sheets have polypeptide strands running in the same direction, with less stable hydrogen bonds, while antiparallel beta pleated sheets have polypeptide strands running in opposite directions, with strong and stable hydrogen bonds.
Comparative Table: Parallel vs Antiparallel Beta Pleated Sheets
The main difference between parallel and antiparallel beta pleated sheets lies in the orientation of the polypeptide strands. Here is a comparison of their key features:
Feature | Parallel Beta Pleated Sheets | Antiparallel Beta Pleated Sheets |
---|---|---|
Orientation | Polypeptide strands run in the same direction. | Polypeptide strands run in opposite directions. |
Hydrogen Bonding | Hydrogen bonds form between strands in the same direction, creating a twisted pleated appearance. | Hydrogen bonds form between strands in opposite directions, creating a twisted pleated appearance. |
Stability | Parallel sheets are less stable due to the geometry of the individual amino acid molecules, which makes them longer and weaker. | Antiparallel sheets are more stable because the hydrogen bonds are shorter and stronger. |
Formation | Parallel beta sheets can form when two or more segments of a polypeptide chain overlap and form a row of hydrogen bonds. | Antiparallel beta sheets can form when a polypeptide chain sharply reverses direction, often in the presence of two consecutive proline residues. |
Despite their differences, both parallel and antiparallel beta pleated sheets are common secondary structures of proteins, and they are held together by hydrogen bonding between the strands.
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