Endonuclease vs Exonuclease: Difference and Comparison

Nucleases play an indispensable role in recombinant DNA technology, genetics, and genetic engineering. Because of their ability to cut DNA segments, nucleases have various practical applications.

Key Takeaways

  1. Endonucleases cleave DNA at specific internal sites, while exonucleases remove nucleotides from the ends of DNA or RNA molecules.
  2. Endonucleases play a crucial role in DNA repair and recombination, whereas exonucleases participate in DNA replication and proofreading.
  3. Restriction enzymes are examples of endonucleases, while DNA polymerase I am an example of an exonuclease.

Endonuclease vs Exonuclease

Endonuclease cut the DNA or RNA by recognizing the specific location within the nuclei acid chain. The ability of endonuclease to cleave precisely is useful in many biological processes. Exonuclease degrades DNA or RNA from the ends of the nuclei acid chain and it is helpful in cellular processes.

Endonuclease vs

Its function is to cut the DNA segment at its recognition site. More importantly, endonuclease enzymes cut the DNA segment from the inner side. 

The most vital application of exonuclease is to assist in DNA repair. More importantly, exonuclease enzymes cut DNA segments from the ends. 

Comparison Table

Parameters of ComparisonEndonuclease Exonuclease 
DefinitionEndonuclease refers to the group of enzymes that cut the DNA segments from the inner side. Exonuclease refers to the group of enzymes that cut the DNA segment from the ends. 
Lag PeriodLike the restriction endonuclease, endonucleases experience a lag period before carrying out their specific task. In exonucleases, there is an absence of a lag period before the commencement of their specific task. 
Results InThe cleaving of DNA segments results in oligonucleotides. The cleaving of DNA segments results in nucleosides.  
FunctionEndonuclease enzymes play a role in defence as they prevent the entry of pathogens.Exonucleases lack any defensive functions. 
Free EndsEndonuclease enzymes don’t require free 3’, and 5’ ends to perform their functions. Exonucleases require free ends for the commencement of their specific tasks. 
Pin This Now to Remember It Later
Pin This

What is Endonuclease?

Endonuclease refers to the group of enzymes found within the polynucleotide chain which cleave the phosphodiester bond.  Some endonuclease enzymes, for instance, deoxyribonuclease I, cut the Deoxyribonucleic acid without any regard to sequence.

Also Read:  Inhibitory vs Excitatory: Difference and Comparison

One of the most vital groups of endonucleases is the restriction enzymes. The restriction enzymes have three categories based on their action mechanism: Type I, Type II, and Type III. 

Bacterial cells are the natural source of restriction endonuclease. Moreover, the ends of endonucleases are either blunt or sticky. An example of a famous endonuclease is Cas9.

Endonucleases are vital for several reasons. However, one of the more prominent reasons is their ability to repair damaged DNA cells precisely.

What is Exonuclease?

Exonucleases refer to the group of enzymes that function by cutting nucleotides one at a time from the Exo (end) of a polynucleotide chain. These enzymes cut the nucleotide from either the 3’ or the 5’ at one specific time. Additionally, exonuclease serves as a hydrolyzing enzyme.

Exonuclease is found in humans, bacteria, animals, and insects. Interestingly, the venom of lizards and snakes consists of exonuclease enzymes. 

Exonuclease enzymes play a vital role in cellular metabolism and maintenance. Moreover, they are crucial aspects of genome stability as they cut the DNA from free ends. Exonucleases may also have a part in repairing damaged DNA cells.

In the case of exonuclease enzymes, the lag period is absent before activity. Conclusively, exonucleases are a group of enzymes serving multi-facet functions. 

Main Differences Between Endonuclease and Exonuclease

  1. Like the restriction endonuclease, endonucleases experience a lag period before carrying out their specific task. On the other hand, in exonucleases, the lag period is absent before the commencement of their specific task. 
  2. Endonuclease enzymes don’t require free 3’, and 5’ ends to perform their functions. In contrast, exonucleases require free ends for the commencement of their specific tasks. 
References
  1. https://www.tandfonline.com/doi/abs/10.3109/10409237609105456 
  2. https://www.pnas.org/content/68/4/824.short 
Also Read:  Border Collie vs Australian Shepherd: Difference and Comparison
dot 1
One request?

I’ve put so much effort writing this blog post to provide value to you. It’ll be very helpful for me, if you consider sharing it on social media or with your friends/family. SHARING IS ♥️

Piyush Yadav
Piyush Yadav

Piyush Yadav has spent the past 25 years working as a physicist in the local community. He is a physicist passionate about making science more accessible to our readers. He holds a BSc in Natural Sciences and Post Graduate Diploma in Environmental Science. You can read more about him on his bio page.

17 Comments

  1. I have a different perspective on the role of exonuclease. I don’t entirely agree with the post’s view on this subject, although the information provided is indeed enlightening.

  2. The comparison table is very well-organized and allows for a clear understanding of the differences between endonuclease and exonuclease. Impressive!

  3. This post has cleared up many misconceptions I had about the functions of exonuclease and endonuclease. I appreciate the clarity of the explanations.

  4. I find the details about the natural sources of endonuclease and the presence of exonuclease in various organisms quite fascinating. This post is very informative.

  5. The comprehensive explanation of the function and role of both endonuclease and exonuclease is truly helpful. I appreciate the insights shared in this post.

  6. The detailed comparison between endonuclease and exonuclease is enriching, and the information about their functions is well stated. Great post.

  7. I’ve always been fascinated by the role of nucleases in genetic engineering and DNA technology. The details in this post are fascinating and well explained.

  8. While the details provided are informative, I find the post to be lacking a critical analysis of the potential limitations and challenges associated with the application of nucleases.

    • That’s a valid point. The practical implications and challenges should indeed be discussed further.

    • Agreed. A more critical assessment of nucleases within real-world applications would enhance the overall value of this content.

Leave a Reply

Your email address will not be published. Required fields are marked *

Want to save this article for later? Click the heart in the bottom right corner to save to your own articles box!