diff --git a/biocomputing/README.md b/biocomputing/README.md
index dfb2723..ca6488e 100644
--- a/biocomputing/README.md
+++ b/biocomputing/README.md
@@ -5,9 +5,13 @@ Some resources that may assist in understanding papers in this section:
 
 ---------
 * [Molecular Computation of Solutions to Combinatorial Problems](http://www.cs.duke.edu/courses/cps296.4/spring04/papers/Adleman94.pdf)
-    - An interesting and inspiring approach to solving the (NP-complete) Hamiltonian Graph problem. 
+    - An interesting and inspiring approach to solving the (NP-complete) Hamiltonian Graph problem.
 
-* [The chemical basis of morphogenesis](http://www.dna.caltech.edu/courses/cs191/paperscs191/turing.pdf)    
+* [The chemical basis of morphogenesis](http://www.dna.caltech.edu/courses/cs191/paperscs191/turing.pdf)
     - How we can generate patterns from reaction-diffusion models and how those models apply in real life situations: cells self-organisation and pattern creation.
     - Includes advance mathematical concepts, basic chemistry, basic biology.
     - By Alan Turing
+
+* [A DNA-Based Archival Storage System](https://homes.cs.washington.edu/~luisceze/publications/dnastorage-asplos16.pdf)
+    - DNA is a strong candidate for storing data stably for centuries. DNA also has a very high data/volume density (1 exabyte / mm³).
+    - This paper describes an algorithm for storing binary data in the form of DNA that is optimized for biochemical reactions.