AI Article Synopsis
- A new coarse-grained method for simulating duplex DNA has been developed, utilizing a generalized multi-harmonic model that addresses limitations in current mesoscopic simulation techniques.
- This method is based on precise simulations of unique tetranucleotide sequences, capturing the relationship between helical states and backbone configurations to create accurate atomistic representations of DNA.
- The algorithm is user-friendly, accessible via a web interface, and efficiently reproduces the structural characteristics of long DNA segments that are difficult to model using traditional atomistic methods.
Article Abstract
We present a new coarse grained method for the simulation of duplex DNA. The algorithm uses a generalized multi-harmonic model that can represent any multi-normal distribution of helical parameters, thus avoiding caveats of current mesoscopic models for DNA simulation and representing a breakthrough in the field. The method has been parameterized from accurate parmbsc1 atomistic molecular dynamics simulations of all unique tetranucleotide sequences of DNA embedded in long duplexes and takes advantage of the correlation between helical states and backbone configurations to derive atomistic representations of DNA. The algorithm, which is implemented in a simple web interface and in a standalone package reproduces with high computational efficiency the structural landscape of long segments of DNA untreatable by atomistic molecular dynamics simulations.
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Source |
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7049737 | PMC |
| http://dx.doi.org/10.1093/nar/gkaa015 | DOI Listing |
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