Tuesday, January 31, 2017

Novel DNA Base Pairs

At left, a redesigned protein (not directly related to the paper discussed here).  By Pablo.gainza - Own work, CC BY-SA 3.0, https://commons.wikimedia.org/w/index.php?curid=25728531

This article is on a more basic science topic we usually don’t discuss here, but I thought it is very interesting and useful to introduce such study to a more general audience. Abstract:

All natural organisms store genetic information in a four-letter, two-base-pair genetic alphabet. The expansion of the genetic alphabet with two synthetic unnatural nucleotides that selectively pair to form an unnatural base pair (UBP) would increase the information storage potential of DNA, and semisynthetic organisms (SSOs) that stably harbor this expanded alphabet would thereby have the potential to store and retrieve increased information. Toward this goal, we previously reported that Escherichia coli grown in the presence of the unnatural nucleoside triphosphates dNaMTP and d5SICSTP, and provided with the means to import them via expression of a plasmid-borne nucleoside triphosphate transporter, replicates DNA containing a single dNaM-d5SICS UBP. Although this represented an important proof-of-concept, the nascent SSO grew poorly and, more problematically, required growth under controlled conditions and even then was unable to indefinitely store the unnatural information, which is clearly a prerequisite for true semisynthetic life. Here, to fortify and vivify the nascent SSO, we engineered the transporter, used a more chemically optimized UBP, and harnessed the power of the bacterial immune response by using Cas9 to eliminate DNA that had lost the UBP. The optimized SSO grows robustly, constitutively imports the unnatural triphosphates, and is able to indefinitely retain multiple UBPs in virtually any sequence context. This SSO is thus a form of life that can stably store genetic information using a six-letter, three-base-pair alphabet.

In summary, bacteria are being engineered to stably contain within their genome novel DNA base pairs, a phenomenon that can, with further work, expand the genetic information contained in DNA and therefore expand the products that can be generated from these novel genes, bestowing unique and/or enhanced physiological function for the organism.  

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