What is the Difference Between Type 1 2 and 3 Restriction Endonuclease?
🆚 Go to Comparative Table 🆚Type 1, 2, and 3 restriction endonucleases are enzymes that cleave DNA at specific sequences. They differ in their recognition and cleavage sites, as well as their subunit structure and function. The main differences between these three types are:
- Type 1 Restriction Endonucleases:
- Recognize specific DNA sequences but make cuts at seemingly random sites that can be as far as 1,000 base pairs away from the recognition site.
- Consist of three subunits and are considered bifunctional enzymes.
- Require ATP, Mg2+, and S-adenosyl for restriction.
- Type 2 Restriction Endonucleases:
- Recognize and cut directly within the recognition site.
- Have a 4-6 base pair palindromic sequence.
- Are usually homodimers.
- Require Mg2+ for restriction.
- Restriction and methylation are separate reactions.
- Type 3 Restriction Endonucleases:
- Recognize specific sequences but make their cut at a different specific location that is 20-30 base pairs downstream of the recognition site.
- Consist of more than one subunit, usually two, and are bifunctional enzymes with both restriction and methylase activities.
- Have a 5-7 base pair asymmetric restriction recognition site.
- Require ATP and Mg2+ for restriction.
- Restriction and methylation reactions happen simultaneously.
In summary, the main differences between Type 1, 2, and 3 restriction endonucleases are the locations of their cleavage sites, their subunit structures, and their specific functions.
Comparative Table: Type 1 2 vs 3 Restriction Endonuclease
Type 1, 2, and 3 restriction endonucleases are enzymes that cleave DNA at specific sequences. Here is a table comparing the differences between these three types of restriction endonucleases:
Feature | Type 1 | Type 2 | Type 3 |
---|---|---|---|
Cleavage Site | Random and away from the recognition site | At the recognition site | 20-30 base pairs downstream of the recognition site |
Recognition Sequence | Bipartite sequence | Stereotypical sequence | Two separate non-palindromic sequences |
Enzyme Structure | Complex with both restriction and methylase activities | Single-subunit enzyme | Hetero-oligomeric and multifunctional protein composed of two subunits (Res and Mod) |
Substrate DNA Specificity | No cleavage at the recognition site | Cleavage at the recognition site | Cleavage at a different specific location |
Cofactor Requirements | Independent | Independent | Requires ATP and AdoMet |
Sequence Specificity | Not absolute | Absolute | Absolute |
Cleavage Pattern | Random | Predictable | Predictable |
Usage in Molecular Biology | Limited | Commonly used | Limited |
Type 1 restriction endonucleases recognize a bipartite sequence but do not produce a predictable cleavage pattern, as they cut DNA at random far from their recognition sites. Type 2 restriction endonucleases recognize stereotypical sequences and produce a predictable cleavage pattern at the recognition site. Type 3 restriction endonucleases recognize two separate non-palindromic sequences and usually cleave DNA about 20-30 base pairs downstream of the recognition site. These enzymes play a role in protecting the organism against invading foreign DNA.
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- Type I vs Type II Interferon
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- Ligase vs Lyase
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