Utilization of computer science for construction and characterization of DNA nano-structures

Research output: Chapter in Book/Report/Conference proceedingBook chapterResearchpeer-review

Standard

Utilization of computer science for construction and characterization of DNA nano-structures. / Andersen, Felicie F.; Villesen, Palle; Knudsen, Bjarne; Wiuf, Carsten; Desideri, Alessandro; Knudsen, Birgitta R.

DNA Microarrays, Synthesis and Synthetic DNA. Nova Science Publishers, 2011. p. 317-330.

Research output: Chapter in Book/Report/Conference proceedingBook chapterResearchpeer-review

Harvard

Andersen, FF, Villesen, P, Knudsen, B, Wiuf, C, Desideri, A & Knudsen, BR 2011, Utilization of computer science for construction and characterization of DNA nano-structures. in DNA Microarrays, Synthesis and Synthetic DNA. Nova Science Publishers, pp. 317-330.

APA

Andersen, F. F., Villesen, P., Knudsen, B., Wiuf, C., Desideri, A., & Knudsen, B. R. (2011). Utilization of computer science for construction and characterization of DNA nano-structures. In DNA Microarrays, Synthesis and Synthetic DNA (pp. 317-330). Nova Science Publishers.

Vancouver

Andersen FF, Villesen P, Knudsen B, Wiuf C, Desideri A, Knudsen BR. Utilization of computer science for construction and characterization of DNA nano-structures. In DNA Microarrays, Synthesis and Synthetic DNA. Nova Science Publishers. 2011. p. 317-330

Author

Andersen, Felicie F. ; Villesen, Palle ; Knudsen, Bjarne ; Wiuf, Carsten ; Desideri, Alessandro ; Knudsen, Birgitta R. / Utilization of computer science for construction and characterization of DNA nano-structures. DNA Microarrays, Synthesis and Synthetic DNA. Nova Science Publishers, 2011. pp. 317-330

Bibtex

@inbook{264a10c50aef47af8c35b31177ec67b9,
title = "Utilization of computer science for construction and characterization of DNA nano-structures",
abstract = "In the upcoming field of DNA nano-science, DNA is used as an entity for building higher order self-assembled structures rather than for storage of genetic information. The application of DNA as a building block relies, like its biological blueprinting function, on the specific pairing between bases holding pairs of DNA molecules together. However, the complexity involved in building even simple DNA architectures is usually so high that designing structures from more than a few base sequences makes the use of computer programs indispensible. Moreover, synthetic DNA nano-structures are often time-consuming and expensive to build and their structures can be difficult to validate. Therefore, atomistic simulations, which can predict assembly efficiency and physical properties of the designed structures are of great value for both the processes of design and characterization. In this article we summarize examples of computational tools for the design and characterization of DNA nano-structures with particular emphasis on a three-dimensional truncated octahedral structure.",
author = "Andersen, {Felicie F.} and Palle Villesen and Bjarne Knudsen and Carsten Wiuf and Alessandro Desideri and Knudsen, {Birgitta R.}",
year = "2011",
month = dec,
day = "1",
language = "English",
isbn = "9781612098234",
pages = "317--330",
booktitle = "DNA Microarrays, Synthesis and Synthetic DNA",
publisher = "Nova Science Publishers",
address = "United States",

}

RIS

TY - CHAP

T1 - Utilization of computer science for construction and characterization of DNA nano-structures

AU - Andersen, Felicie F.

AU - Villesen, Palle

AU - Knudsen, Bjarne

AU - Wiuf, Carsten

AU - Desideri, Alessandro

AU - Knudsen, Birgitta R.

PY - 2011/12/1

Y1 - 2011/12/1

N2 - In the upcoming field of DNA nano-science, DNA is used as an entity for building higher order self-assembled structures rather than for storage of genetic information. The application of DNA as a building block relies, like its biological blueprinting function, on the specific pairing between bases holding pairs of DNA molecules together. However, the complexity involved in building even simple DNA architectures is usually so high that designing structures from more than a few base sequences makes the use of computer programs indispensible. Moreover, synthetic DNA nano-structures are often time-consuming and expensive to build and their structures can be difficult to validate. Therefore, atomistic simulations, which can predict assembly efficiency and physical properties of the designed structures are of great value for both the processes of design and characterization. In this article we summarize examples of computational tools for the design and characterization of DNA nano-structures with particular emphasis on a three-dimensional truncated octahedral structure.

AB - In the upcoming field of DNA nano-science, DNA is used as an entity for building higher order self-assembled structures rather than for storage of genetic information. The application of DNA as a building block relies, like its biological blueprinting function, on the specific pairing between bases holding pairs of DNA molecules together. However, the complexity involved in building even simple DNA architectures is usually so high that designing structures from more than a few base sequences makes the use of computer programs indispensible. Moreover, synthetic DNA nano-structures are often time-consuming and expensive to build and their structures can be difficult to validate. Therefore, atomistic simulations, which can predict assembly efficiency and physical properties of the designed structures are of great value for both the processes of design and characterization. In this article we summarize examples of computational tools for the design and characterization of DNA nano-structures with particular emphasis on a three-dimensional truncated octahedral structure.

UR - http://www.scopus.com/inward/record.url?scp=84892947276&partnerID=8YFLogxK

M3 - Book chapter

AN - SCOPUS:84892947276

SN - 9781612098234

SP - 317

EP - 330

BT - DNA Microarrays, Synthesis and Synthetic DNA

PB - Nova Science Publishers

ER -

ID: 203899310