IGEM:Harvard/2006/DNA nanostructures: Difference between revisions

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==Latch Designs==
[[Image:iGEM_harv06_mattlatch.gif]]
==Coding==
==Coding==
===Existing code===
===Existing code===

Revision as of 07:49, 7 July 2006

Project Overview

  • Our goal is to to design and implement molecular containers, which can be dynamically opened and closed by an external stimulus.
  • The containers will be implemented as DNA nanostructures, which afford a significant degree of positional control and chemical versatility.
  • As an initial proof-of-concept, we plan to use our DNA containers to demonstrate controllable activation ("delivery") of anti-thrombin aptamers.
  • We expect that molecular containers could have several interesting scientific and clinical applications, such as
    • Drug and gene delivery
    • Bio-marker scavenging (early detection of biomarkers)
    • Directed evolution (compartmentalized selections)
    • Using multiplexing for combinatorial chemical synthesis
    • Capture and stabilization of multiprotein complexes
    • Protein folding (chaperones)
    • Cell sorting

Container Specs

Container Designs

  • Design 1 hexagonal core, separate 1-ply lids

    Design 1
    hexagonal core, separate 1-ply lids

  • Design 2 hexagonal core, separate 2-ply lids

    Design 2
    hexagonal core, separate 2-ply lids

  • Design 3 rectangular core, continuous 1-ply lids

    Design 3
    rectangular core, continuous 1-ply lids

  • Design 4 hexagonal core, separate 1-ply lids

    Design 4
    hexagonal core, separate 1-ply lids

Latch Designs

Coding

Existing code

Thrombin-aptamer experiments

Bibliography

  1. Schultze P, Macaya RF, and Feigon J. Three-dimensional solution structure of the thrombin-binding DNA aptamer d(GGTTGGTGTGGTTGG). J Mol Biol. 1994 Feb 4;235(5):1532-47. DOI:10.1006/jmbi.1994.1105 | PubMed ID:8107090 | HubMed [tha1]
  2. Liu Y, Lin C, Li H, and Yan H. Aptamer-directed self-assembly of protein arrays on a DNA nanostructure. Angew Chem Int Ed Engl. 2005 Jul 11;44(28):4333-8. DOI:10.1002/anie.200501089 | PubMed ID:15945116 | HubMed [tha2]
  3. Li WX, Kaplan AV, Grant GW, Toole JJ, and Leung LL. A novel nucleotide-based thrombin inhibitor inhibits clot-bound thrombin and reduces arterial platelet thrombus formation. Blood. 1994 Feb 1;83(3):677-82. PubMed ID:8298130 | HubMed [tha3]
  4. Bock LC, Griffin LC, Latham JA, Vermaas EH, and Toole JJ. Selection of single-stranded DNA molecules that bind and inhibit human thrombin. Nature. 1992 Feb 6;355(6360):564-6. DOI:10.1038/355564a0 | PubMed ID:1741036 | HubMed [tha4]

All Medline abstracts: PubMed | HubMed

Presentations

Most recent (Week 3)

Week 2: Original proposal

Working Team Members

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