DNA in Eukaryotes: Open Ended Strings vs Closed Loops

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The discussion centers on the structural differences between DNA in eukaryotes and prokaryotes, specifically why eukaryotic DNA is linear while prokaryotic DNA is circular. One perspective suggests that linear DNA allows for greater complexity in organisms, facilitating the exploration of new ecological niches. The conversation also touches on the evolutionary aspects, indicating that eukaryotes may have acquired genes that stabilize linear DNA, which is better suited for sexual reproduction and gene recombination. In contrast, circular DNA, while stable, may not support the same level of genetic mixing during reproduction. The topic includes references to research on the evolution of linear chromosomes in bacteria and the implications for genetic diversity and stability in different organisms.
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Why is the DNA in eukaryotes an open ended string rather than a closed loop?
 
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because it is too long to be in a loop?
 
..something with D-branes.. I don't remember :wink:

But seriously, it is a good question.. let's turn it around: why is the DNA in prokaryotes circular and when did the separation between circular and linear DNA start. I guess spuriousmonkey has a point.
 
This is how I think about it:
that by using an open ended string form, it is easier to build up
a more complex organism which might carve out new ecological niches for themselves.
But since this is wild, unsubstantiated speculation from my side, I wanted to hear an expert's view on the matter..
 
I don't think it is a question of length. Many bacteria have more than one chromosome and if you add all the genetic material (including plasmid) some bacteria have large genome. Linear chromsome tend to be unstable if some component are not present. Circular chromosome can be done artificially in yeast (http://www.nature.com/cgi-taf/DynaPage.taf?file=/ng/journal/v20/n2/abs/ng1098_203.html)

I think the difference between linear and circular is probably due to their distinct evolution and early in their evolution, eukaryotes acquire genes that stabilize the linear form. As far as complexity and exploting unique niche, bacteria are ahead of eukaryotes. Linear chromsome seems better suite for sexual reproduction. Recombination between two linear chromosome seem to be easier than circular DNA.

This is paper on the evolution of linear chromosome in bacteria.
http://www.sciencedirect.com/science?_ob=ArticleURL&_udi=B6T2W-405SX5F-1&_user=458507&_handle=B-WA-A-A-BW-MsSAYZW-UUA-AUYZAZDVBE-AUYBDVYWBE-BEBWEBBUY-BW-U&_fmt=summary&_coverDate=05%2F05%2F2000&_rdoc=1&_orig=browse&_srch=%23toc%234929%232000%23998139997%23192052!&_cdi=4929&view=c&_acct=C000022002&_version=1&_urlVersion=0&_userid=458507&md5=66cbcaff630244073273ac3dca1eed2f
 
Last edited:
iansmith, great!
So, linear DNA is the best tool for gene-mixing when gene-mixing is to occur by means of sexual reproduction?
 
I think he has a very good point too.. on average 40 cross-overs occur during meiosis, I don't see that happening with circular DNA.. :)
 

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