Navigation ...
|
|
|
Scientific Writing ...
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
Other Writing ...
|
|
|
|
|
|
Reference details
| Author(s)
| Year
| Title
| Reference
| View/Download
|
Les Hatton , Greg Warr | 2018e | CoHSI II; The average length of proteins, evolutionary pressure and eukaryotic fine structure | https://arxiv.org/abs/1807.11076 | No downloadable files available yet |
Synopsis and invited feedback
This work was or is being reviewed by domain-specific experts appointed independently.
If you would like to provide feedback just e-mail me here.
| Synopsis
| Invited Feedback
| Importance (/10, author rated :-) )
|
| The CoHSI (Conservation of Hartley-Shannon Information) distribution is at the heart of a wide-class of discrete systems, defining (amongst other properties) the length distribution of their components. Discrete systems such as the known proteome, computer software and texts are all known to fit this distribution accurately. In a previous paper, we explored the properties of this distribution in detail. Here we will use these properties to show why the average length of components in general and proteins in particular is highly conserved, howsoever measured, demonstrating this on various aggregations of proteins taken from the UniProt database. We will go on to define departures from this equilibrium state, identifying fine structure in the average length of eukaryotic proteins that result from evolutionary processes. | None yet | 9 |
Related links
| Related papers and links
|
| Sorry, no links registered in database yet. |
Auto-generated: $Revision: 1.63 $, $Date: 2020/01/25 16:18:09 $, Copyright Les Hatton 2001-
|
