What is the Difference Between Type I and Type II Restriction Enzyme?
🆚 Go to Comparative Table 🆚Type I and Type II restriction enzymes are enzymes that cleave DNA molecules at specific sites, but they differ in their structure, recognition sequences, and cleavage sites. Here are the main differences between the two types:
- Structure: Type I enzymes are multisubunit enzymes composed of restriction and modification enzymes, while Type II enzymes are homodimers, meaning they are composed of two identical subunits.
- Recognition Sequence: Type I enzymes recognize specific DNA sequences but make their cut at seemingly random sites that can be as far as 1,000 base pairs away from the recognition site. In contrast, Type II enzymes recognize and cut directly within the recognition site.
- Cleavage Site: Type I enzymes cleave DNA at random sites, more than 1,000 base pairs away from the recognition site, while Type II enzymes cleave DNA at specific sites, either at the recognition site or within a short distance from it.
- Co-factor Requirements: Type I enzymes require ATP, Mg2+, and S-adenosyl-L-methionine for their activation, while Type II enzymes require only Mg2+.
- Molecular Weight: Type I restriction enzymes have a molecular weight of 400,000 daltons, while Type II restriction enzymes have a weight range of 20,000 to 100,000 daltons.
Examples of Type I enzymes include EcoA1, EcoB, EcoKI, and CfrA1, while examples of Type II enzymes include EcoR1, BamHI, and HindIII.
Comparative Table: Type I vs Type II Restriction Enzyme
Type I and Type II restriction enzymes are both used in molecular biology to modify DNA, but they differ in their recognition and cleavage of DNA sequences. Here is a table highlighting the differences between the two types:
| Feature | Type I | Type II |
|---|---|---|
| Number of enzymes | One enzyme with different subunits for recognition, cleavage, and methylation | Two different enzymes, each for recognition and cleavage |
| Cleavage site | Cleaves DNA up to 1000 base pairs away from the recognition site | Cleaves DNA within a specific sequence of 2-8 base pairs, which is palindromic |
| Methylation | Methylates at the same sequence it recognizes | Does not methylate the recognition site |
| Subunit structure | Enzyme compromises of one subunit | Enzyme compromises two subunits |
| Cofactor requirements | Most Type II restriction enzymes do not require a cofactor such as ATP or S-adenosylmethionine | Some Type I enzymes require cofactors |
In summary, Type I restriction enzymes consist of one enzyme with different subunits for recognition, cleavage, and methylation, while Type II restriction enzymes consist of two different enzymes, each for recognition and cleavage. Type I enzymes recognize and cleave DNA at seemingly random sites, while Type II enzymes recognize and cleave DNA within a specific palindromic sequence.
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