Replication forks and functionality

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The discussion centers around a question regarding DNA replication, specifically the implications of having only one functional fork per replication bubble. The consensus is that the correct answer is that replication would take twice as long, which is understood in the context of prokaryotic DNA. However, confusion arises when considering linear eukaryotic DNA, where participants debate whether complete replication is possible with only one fork. It is noted that eukaryotic DNA has multiple origins of replication, which could allow for more extensive replication despite the limitation of a single fork. Concerns are raised about potential unreplicated regions, particularly to the left of the leftmost replication bubble, highlighting the complexity of the replication process. The conversation also touches on the poorly constructed nature of the question from the textbook "Introduction to Genetic Analysis," which may contribute to the confusion. Overall, the key takeaway is the impact of replication fork functionality on the efficiency and completeness of DNA replication in both prokaryotic and eukaryotic systems.
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Hi! Was hoping I could get someone to explain this question to me..having some trouble with it...

"At each origin of replication, DNA synthesis proceeds bidirectionally from two replication forks. Which of the following would happen if a mutant arose having only one functional fork per replication bubble?

a.No change at all in replication
b. Replication would take place only on one half of the chromosome
c. Replication would be complete only on the leading strand
d. replication would take twice as long"

The answer is d, which definitely makes sense to me if this was prokaryotic DNA (ie. circular).. but I don't understand how the entire chromosome could be replicated if this was linear DNA like in most eukaryotes. Wouldn't only half of each parental strand be replicated since, for example, there isn't even a replisome traveling in the other direction to get rid of hydrogen bonds?

Thanks for your input in advance :)
 
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PoisonCupcake said:
Hi! Was hoping I could get someone to explain this question to me..having some trouble with it...

"At each origin of replication, DNA synthesis proceeds bidirectionally from two replication forks. Which of the following would happen if a mutant arose having only one functional fork per replication bubble?

a.No change at all in replication
b. Replication would take place only on one half of the chromosome
c. Replication would be complete only on the leading strand
d. replication would take twice as long"

The answer is d, which definitely makes sense to me if this was prokaryotic DNA (ie. circular).. but I don't understand how the entire chromosome could be replicated if this was linear DNA like in most eukaryotes. Wouldn't only half of each parental strand be replicated since, for example, there isn't even a replisome traveling in the other direction to get rid of hydrogen bonds?

Thanks for your input in advance :)

The context probably implies prokaryotic DNA replication. Where was this question taken from?
 
mishrashubham said:
The context probably implies prokaryotic DNA replication. Where was this question taken from?

It's from a textbook called "Introduction to Genetic Analysis". That's the whole of the question though, and that chapter discusses both prokaryotic and eukaryotic replication. The book is full of badly written questions in my opinion though.. so maybe this is just a factor of that.

So you agree the that this fits for prokaryotic replication only?
 
The answer (d) fits with eukaryotic DNA replication as well. Remember that in eukaryotes, there are multiple origins of replication, in contrast to prokaryotes which rely on only one origin.
 
But even so wouldn't there be a little bit that couldn't be replicated? Say you have 3 bubbles, all going right. Most of the chromosome could be replicated, but wouldn't there be a tiny bit to the left of the leftmost replication bubble that couldn't be done?

E: When it says one functional fork in the bubbles I assume they'd all either go left or right. Maybe some can go right or some can go left in the question??
 
DNA is pretty symmetric, so how would a replisome know which direction is right and which direction is left?
 
PoisonCupcake said:
But even so wouldn't there be a little bit that couldn't be replicated? Say you have 3 bubbles, all going right. Most of the chromosome could be replicated, but wouldn't there be a tiny bit to the left of the leftmost replication bubble that couldn't be done?

E: When it says one functional fork in the bubbles I assume they'd all either go left or right. Maybe some can go right or some can go left in the question??

The chance of all going in one direction is small. However that still leaves the problem of leftover DNA. All you need are two diverging forks or one at the end which does not open up to the periphery like you said.
 

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