Uncovering the mystery of DNA replication

Extensive research has been done on the DNA, yet many secrets about it are yet to be unfolded. Now, scientists may have taken a step towards unravelling its mysteries….

blog 3

By looking into the mechanism of a backward enzyme, scientists speculate why DNA replication always happens in the forward direction…

Nucleotide chains, such as DNA and RNA, are synthesized by making copies from other chains. The copying process always happens in a “forward” direction, from one particular end to the other. During the process, the two chains of a double-stranded DNA that will be copied are separated and aligned in opposite directions to each other, complicating matters. “When DNA is replicated, one of the two chains can be copied, or synthesized, in a continuous manner while the other chain is synthesized in many fragments( Okazaki fragments) that need to be joined later,” says Min Yao from Hokkaido University. “One of the big questions in biology has been, why cells don’t have a reverse-direction enzyme so that both chains can be synthesized efficiently.”

Recently, a group of enzymes was discovered, called Thg1-like proteins (TLPs), which were found to add nucleotide in the opposite direction. Examples of adding nucleotides in this direction are rare. TLPs are the exception and add nucleotides in the reverse direction to repair the “opposite end” of damaged RNAs. In a recently published study, Yao and her team used X-ray crystallography to uncover the structure of the TLP/RNA complex. This gave them insight into the complex mechanism that TLPs employ to add nucleotides in the reverse direction.

Their structural analysis revealed a two-step process: energy-supplying molecules are recruited and then nucleotide is added. The second step is also seen in the forward reaction. What was unique to the reverse reaction was the recruiting energy at the beginning. The enzyme apparently utilizes this energy recruitment to switch the direction from forward to reverse.

The team speculate that the reverse-direction enzyme is not used in DNA replication because it requires a structurally complicated process.

“By comparing the molecular mechanisms of forward and reverse reactions in more detail, we would like to fully understand the evolutionary context of DNA replication,” says Yao.



Reference -The above post is reprinted from materials provided by Hokkaido University.


Written by – Omkar Joshi .

Edited by- Ishaan Patil.


Leave a Reply

Fill in your details below or click an icon to log in:

WordPress.com Logo

You are commenting using your WordPress.com account. Log Out /  Change )

Google+ photo

You are commenting using your Google+ account. Log Out /  Change )

Twitter picture

You are commenting using your Twitter account. Log Out /  Change )

Facebook photo

You are commenting using your Facebook account. Log Out /  Change )


Connecting to %s