User:Jerome Bonnet/Notebook/Genetically encoded memory

{| width="800"
 * style="background-color: #cdde95;" align="center"|
 * style="background-color: #cdde95;" align="center"|




 * align="center" style="background-color: #e5edc8;" |

title=Search this Project


 * colspan="2" style="background-color: #F2F2F2;" align="right"|Customize your entry pages 
 * colspan="2"|
 * colspan="2"|
 * colspan="2"|

Project Description

 * Phase 1: Exploring the best ways to implement genetically encoded memory in living organisms.

see also Endy genetic memory notebook


 * Phase 2: Using integrases/Excisionase pairs to flip DNA sequences

Background

 * How does nature encodes memory?
 * Natural memory
 * Bioengineering fundation
 * references on engineering memory in living organisms

Building a genetically encoded memory device

 * genetically encoded memory performance requirements


 * How to write and store memory?


 * How to read the memory state?


 * Building blocks


 * Possible system architectures


 * bistability

Applications
Building a cell-cycle counter

misc
http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pubmed&pubmedid=17986449

links
Bionumbers

Expasy

Pubmed


 * }