Abstract: Self-assembly is beginning to be seen as a practical vehicle for computation. The assembly of DNA-based tiles into 2D periodic arrays had been.

Slides:

Advertisements

Similar presentations

NSF-ITR: EIA : Structural DNA Nanotechnology

Advertisements

In the name of GOD. Zeinab Mokhtari 22-Sep-2010 Angew. Chem. Int. Ed. 2006, 45, 735 –739 Finite-Size, Fully Addressable DNA Tile Lattices Formed by Hierarchical.

Two States of the Array B. Ding & N.C. Seeman, Science 314, (2006).

Reshma P Shetty, Drew Endy and Thomas F Knight Jr.

DNA as a solution of computational problems Radosław Łazarz

Topics in Biological Physics Design and self-assembly of two-dimensional DNA crystals Benny Gil 16/12/08 Fig3.a.

DNA: Not Merely the Secret of Life Bio-Inspired Bottom-Up Nanoscale Control of the Structure of Matter Nadrian C. Seeman Department of Chemistry New.

Introduction to Microsoft Word 2007 Um AL Qura University Qadri Mishael.

What Is the Intellectual Goal of Structural DNA Nanotechnology? Controlling the Structure of Matter in 3D to the Highest Extent (Resolution) Possible,

Презентація за розділом “Гумористичні твори”

Центр атестації педагогічних працівників 2014

Галактики і квазари.

Характеристика ІНДІЇ.

Процюк Н.В. вчитель початкових класів Боярської ЗОШ І – ІІІ ст №4

Simple Bulged 3-Arm Junction Triangle (1996) J. Qi, X. Li, X. Yang & N.C. Seeman, J. Am. Chem. Soc., 118, (1996).

ES1050 – Introductory Engineering Design and Innovation Studio 1 Computer Aided Design (CAD) Part 5 Prof. Paul Kurowski.

DNA Computing on a Chip Mitsunori Ogihara and Animesh Ray Nature, vol. 403, pp Cho, Dong-Yeon.

Synthesis and Characterization of DNA- Dendrimer Building Blocks for the Creation of DNA-based Nanostructures Shiping Fang, Hye Jin Lee, Ming Li, Richard.

Algorithmic self-assembly for nano-scale fabrication Erik Winfree Computer Science Computation & Neural Systems and The DNA Caltech DARPA NSF NASA.

DNA Nanotubes: Construction and Characterization of Filaments Composed of TX-tile Lattice.

Powering the nanoworld: DNA-based molecular motors Bernard Yurke A. J. Turberfield University of Oxford J. C. Mitchell University of Oxford A. P. Mills.

4/4/20131 EECS 395/495 Algorithmic DNA Self-Assembly General Introduction Thursday, 4/4/2013 Ming-Yang Kao General Introduction.

Chapter 04 Tutorial Using StateCAD. Objective This tutorial will give you exposure to using StateCAD and VHDL Using HDL Bencher and Modelsim for simulating.

NIRT/GOALI: SELF ASSEMBLY AT ELECTRONIC AND PHOTONIC SCALES S.M. Lindsay (PI) Hao Yan (Co-PI) Rudy Diaz (Co-PI) Devens Gust (Co-PI) Shreya Battacharyya,

Challenges for Biomolecular Computing Alvin R. Lebeck Department of Computer Science Duke University + = Duke Computer Architecture.

Духовні символи Голосіївського району

DNA nanotechnology: Geometric sorting boards

Presented by Pardeep Dhillon and Ehsan Fadaei

Solution of Satisfiability Problem on a Gel-Based DNA computer Ji Yoon Park Dept. of Biochem Hanyang University.

Towards Autonomous Molecular Computers Towards Autonomous Molecular Computers Masami Hagiya, Proceedings of GP, Nakjung Choi

AIM: Genetic Engineering: changing the DNA of living organisms. 1. Inserting genes into other organisms 2. Selective Breeding 3. Cloning.

Automated DNA Sequencing AP Biology Fall Automated DNA Sequencing  Currently, laboratories use automated DNA sequencing to determine the unknown.

Computation by Self-assembly of DNA Graphs N. Jonoska, P. Sa-Ardyen, and N. Seeman Genetic Programming and Evolvable Machines, v.4, pp , 2003 Summarized.

Chapter 04 Tutorial Using StateCAD

Computational and Experimental Design of DNA Devices

Introduction to Tiling Assembly

B-Z Device Chengde Mao. B-Z Device Chengde Mao.

Molecular Computation

Programmable DNA Lattices: Design Synthesis & Applications

DNA-Based Computation Times

Autonomous Programmable Nanorobotic Devices Using DNAzymes

Lecture 9 Genome Mapping By Ms. Shumaila Azam

GENETIC ENGINEERING.

Проф. д-р Васил Цанов, Институт за икономически изследвания при БАН

ЗУТ ПРОЕКТ на Закон за изменение и допълнение на ЗУТ

О Б Щ И Н А С И Л И С Т Р А П р о е к т Б ю д ж е т г.

Електронни услуги на НАП

Боряна Георгиева – директор на

РАЙОНЕН СЪД - БУРГАС РАБОТНА СРЕЩА СЪС СЪДЕБНИТЕ ЗАСЕДАТЕЛИ ПРИ РАЙОНЕН СЪД – БУРГАС 21 ОКТОМВРИ 2016 г.

Сътрудничество между полицията и другите специалисти в България

Съобщение Ръководството на НУ “Христо Ботев“ – гр. Елин Пелин

НАЦИОНАЛНА АГЕНЦИЯ ЗА ПРИХОДИТЕ

ДОБРОВОЛЕН РЕЗЕРВ НА ВЪОРЪЖЕНИТЕ СИЛИ НА РЕПУБЛИКА БЪЛГАРИЯ

Съвременни софтуерни решения

ПО ПЧЕЛАРСТВО ЗА ТРИГОДИШНИЯ

от проучване на общественото мнение,

Васил Големански Ноември, 2006

Програма за развитие на селските райони

ОПЕРАТИВНА ПРОГРАМА “АДМИНИСТРАТИВЕН КАПАЦИТЕТ”

БАЛИСТИКА НА ТЯЛО ПРИ СВОБОДНО ПАДАНЕ В ЗЕМНАТА АТМОСФЕРА

МЕДИЦИНСКИ УНИВЕРСИТЕТ – ПЛЕВЕН

Стратегия за развитие на клъстера 2015

Моето наследствено призвание

Правна кантора “Джингов, Гугински, Кючуков & Величков”

Безопасност на движението

A Crystalline DNA Device

13.2 – Manipulating DNA.

At the Crossroads of Chemistry, Biology, and Materials

Complete Vehicle Systems.

Presentation transcript:

Abstract: Self-assembly is beginning to be seen as a practical vehicle for computation. The assembly of DNA-based tiles into 2D periodic arrays had been reported several times with a variety of motifs. In our work, one layer of self-assembled DNA 2-D array will be used as the programmable template. Sequence dependent nano-mechanical DNA devices will be inserted into the array. Each device can enter into a bi-stable state, and that this state could be controlled as well by the sequences of DNA. This system can lead to the computation of an arbitrary boolean function or creation of 2D DNA layers satisfying specific properties. A DNA Motif to Insert a Sequence-Driven Device into a DNA Array Baoquan Ding, Nadrian Seeman

Structures of of the 2 states of the Sequence-Driven DNA Devices TPX TJX

Molecular Models of the 2 states of the Sequence-Driven DNA Devices

Simple Model of the Device and the Inserting into Array

Model of the Array that Contain Different State Devices

Electrophoresis Analysis of the Formation of the Device

Electrophoresis Analysis of Operation of the Device

TX 2D DNA Array that Works as the Template

2D Array with Protruding Marker Tiles

One State of Modified Device that Will be Inserted into Array

Template Array that Contain Different States Devices

Summary: Sequence-driven DNA devices that will be inserted into 2D DNA array have been constructed. The template array has been designed, and construction and AFM analysis are currently in progress.