Biocurious
/ a biophysics blog
About Biocurious
Biocurious is a weblog about biology through the eyes of physicists. More...
Recent comments
Molecule of the Month
Browse by section
Academics
Andre's Research
Biocuriosities
Books
Graduate School
History of Science
Hot off the Press
Igor's Research
Interdisciplinarity
Molecule of the Month
Open Access
Philip's Research
Philosophy of Science
Physics
Physicsworld.com
Other blogs
Backreaction
Ceclia's Blog at PHD Comics
Cocktail Party Physics
Cosmic Variance
The Daily Transcript
Easternblot
Everyday Scientist
The Evilutionary Biologist
Evolgen
Freelancing Science
The Futile Cycle
Good Math, Bad Math
iMechanica
in singulo
Incoherently Scattered Ponderings
Juniorprof
Life of a Lab Rat
The Loom
Malletrivia
Metadatta
Mixed States
Not Even Wrong
Notes from the biomass
Notional Slurry
OpenScience Project
Pharyngula
PLoS Blog
Ponderings of a fool
Recombinants
The Sandwalk
SciAm Observations
ScienceBlogs
Shtetl-Optimized
Three-toed Sloth
Uncertain Principles
What's New by Bob Park
Powered by
Hosted by
Hot off the Press: Single molecule DNA sequencing
Posted 11 August 2006 by PhilipJ under Hot off the Press & Biocuriosities
The recent achievement of single-basepair (bp) resolution measurements of RNAp transcription in an optical trapping system (which I talked about here) was remarkable not only from a technical point of view, but also because of the new sequencing possibilities opened up by this assay. With single-basepair resolution, if the dynamics of the polymerase were in some way dependent on the underlying sequence, it should be possible to sequence individual strands of DNA.
Building on the work in the single-basepair resolution paper, the Block lab has a new result in this week’s Science, where they are (mostly) able to sequence a 32 bp section of DNA upon which an RNA polymerase is stepping.
By keeping the concentration of one of the four nucleotides required for transcription extremely low, pausing events will occur as the RNAp attempts to add this nucleotide to the growing chain. Holding each of the four nucleotides at the rate-limiting concentrations in four otherwise identical assays, the paper shows that it is possible to sequence the underlying DNA by analyzing the ordered sequence of pausing in each of the four cases. An example of their transcription data is shown below (A), with the inferred sequence shown in (B).
These data, acquired over a span of three minutes and using only four DNA molecules, are capable of determining 30 of the 32 bases in the sequence. To increase the accuracy of the assay, one need only combine the statistics from a number of identical transcription assays.
This doesn’t mean, however, that we’ll get ultrafast sequencing from now on. RNAp is quite processive (traveling up to ~2000 bp), but other elements of the dynamics make long sequencing difficult. This assay uses the pausing induced by low concentrations of a nucleotide required for transcription, but RNAp is known to have random pausing events due to misincorportation of a nucleotide as well, which complicates the analysis.
Still, these are very exciting results, and here is a direct link to the paper (PDF), courtesy the Block lab website!
EnzymeX Apple Design Award Elsevier: scientific publisher and arms trader
This work is licensed under a Creative Commons Attribution-Share Alike 3.0 License.
man, thats hot.
Cool! The Pocket Sequencer is one small step closer to reality! Yay Biophysics!