Download Bacterial Computing - BLI-Research-SynBio-2016-session-2

Bacterial Computing
Daniel Cui & Eileen Liang
Overview
➢ Solving the Hamiltonian Path Problem
➢ Diagnosing stomach cancer (design)
Hamiltonian Path Problem
➢HPP: whether there is a route in directed graph from beginning node to ending
node in such a way that each vertex is only visited once
➢Bacterial computers: programmed by constructing gene circuits to execute
algorithm that is responsive to environment and result can be observed
Advantages of Using Bacterial Computing
➢Are autonomous
➢Can adapt to changing conditions/evolve to meet challenges of problem,
➢Exponential growth of bacteria continuously increases the number of processors
working on the problem
Abstractions
➢DNA segments: were treated as edges of directed graph
➢Treated all nodes, except for terminal one, as genes split into two halves
➢Arrangement of DNA edges: represented HPP solution and displayed new
phenotype
How Bacteria were Programmed/Designed
➢Used E coli and programmed it by constructing gene circuits to execute an
algorithm that is sensitive to its environment and result can be observed
➢Researchers: encoded three node directed graph as DNA segments that were
autonomously shuffled randomly inside bacteria with recombination system
➢Recombination system: stimulated by Hin recombinase which inverts DNA
fragments between hixC sites
Mathematical Modelling
➢Determining the effects of orientation
and order of DNA on probabilities of
detecting a solution to the HPP
○ Using permutations, matrices and probability
➢Determining the number of bacteria
necessary in order to assure a definite
plasmid with the solution to the HPP
○ 1 billion identical, evenly distributed plasmids
in order to be 99.9% assured of a result
Proof-of-Concept Experiment
➢Use directed graph with three nodes and three edges
➢Unique HPP pathway: starts at RFP node and travels via edge A to GFP node
and from GFP to TT via edge B
➢Edge C (detractor): from RFP to TT node which is the ending
DNA Constructs
➢Used to encode solved HPP solution as positive control and two unsolved
configurations
➢Solution: must start at RFP node and end at GFP node
➢ DNA edge A: starts at 5 half of RFP and ends at 3 end of GFP
➢ DNA edge B: starts at 3 half of GFP and ends at double terminator TT
➢ DNA edge C: starts at 3 half of RFP and ends at double terminator TT
Expression Cassettes
- Contain all three DNA edges
- Designed expression cassette to contain all three DNA edges (no recombination yet)
- Ensure solutions begin at RFP node : cassette starts with bacteriophage T7 RNA
polymerase promoter, RBS, and a 5 RFP prior to first hixC site
RBS
5 RFP
hixC
DNA Constructs Used in Experiment
➢ABC and ABC’ (backwards edge C): two solutions and both expected to
fluoresce yellow because RFP and GFP genes are both intact
➢ACB and BAC
➢ ACB: RFP intact but GFP is not which makes it fluoresce red
➢ BAC: both genes are not intact which makes it not fluoresce
Bacterial Cotransformation
➢Helped produce random ordering of edges in directed graph
➢Co transformation: 1. Plasmid conferring ampicillin resistance and containing
one of three constructs & 2. Plasmid encoding tetracycline resistance with a
Hin recombinase expression cassette
➢Resulting co transformed colonies: grown for isolation of plasmids containing
Hin-exposed HPP constructs, and isolated plasmids go through 2nd round of
transformation into bacteria that expressed bacteriophage T7 RNA polymerase
Results
➢Before recombination: three constructs which consist of ABC (yellow), ACB
(red), and BAC (no fluorescence)
➢Recombination: produced random orderings of edges in directed graph using
each starting construct
Design
➢Use Bacteroides thetaiotaomicron to diagnose stomach cancer
➢Bacterial computing: enable bacteria to sense the presence of abnormal growth
of stomach cells
➢Will fluoresce green in solid waste that has been excreted by the body to notify
the patient
What is Stomach Cancer?
➢Is a type of cancer that originates in the mucus-producing cells on inside lining
of the stomach (adenocarcinoma)
➢Begins when cell receives a mutation in its DNA and starts to divide at a rapid
rate, enabling it to form a tumor and to eventually metastasize
Helicobacter pylori
➢Bacterium that lives in the mucus lining of the stomach and converts urea to
ammonia → acids from the stomach enters the lining and causes ulcers
➢Commonly linked with non-cardia gastric cancer
○ Those with H. pylori infections are 8 times more likely to develop non-cardia stomach cancer
Diagnosis Using Bacterial Computing
➢Bacteroides (engineered to produce GFP): will utilize quorum sensing to sense
growth of Helicobacter pylori
➢Presence of H. pylori: will elicit response in Bacteroides, causing it to activate
its gene for fluorescence
Diagram
Truth Table
Autoinducer-2
GFP Promoter
1
1
0
0
Alternate Methods
➢Endoscopies and Endoscopic ultrasounds, in which probes are inserted through
the mouth and used to check for the presence or spread of cancer. If concern is
raised, biopsies can be performed to yield a definite result
➢ However these methods are not always useful for early detection
➢ MIT: used engineered bacteria that can penetrate and grow in the tumor’s
environment in order to express gene for lacZ enzyme which acts on galactose
that is linked to luciferin (already injected into patient)
Sources
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http://www.pnas.org/content/97/4/1328/F1.large.jpg
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http://www3.cs.stonybrook.edu/~skiena/combinatorica/animations/anim/ham.gif
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http://news.mit.edu/sites/mit.edu.newsoffice/files/images/2016/MIT-Program-Bacteria_0.jpg
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http://cache1.asset-cache.net/gc/184894666-bacterial-computing-conceptual-artworkgettyimages.jpg?v=1&c=IWSAsset&k=2&d=TkiXQJku1xbSNsEneOujEllTkNYDmVAJS%2B6%2FXvW8BKMj
MN5Wl7mQ%2FzIj2Z%2BTc4Lx2pMx5qXS%2FZNcUJb4XFSsXQ%3D%3D
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http://333oee3bik6e1t8q4y139009mcg.wpengine.netdna-cdn.com/wp-content/uploads/2014/05/hpyloripic11.png
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https://jbioleng.biomedcentral.com/articles/10.1186/1754-1611-3-11
https://userscontent2.emaze.com/images/fbbebda7-163e-4f7d-94e5-3848cff5c389/3591a3a5-3baf-4a03-b530e218d1261988image3.jpg
http://www.austincc.edu/microbio/2704t/hp1_files/image001.gif
https://upload.wikimedia.org/wikipedia/commons/thumb/e/e1/AI-2.png/250px-AI-2.png
http://www.tsienlab.ucsd.edu/Images/General/IMAGE%20-%20Molecule%20-%20GFP%20+%20FlAsH%20-
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Thank you for listening!