Data for "3D Printing-Enabled DNA Extraction for Long-Read Genomics" published as ACS Omega 2020, 5, 20817-20824

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Persistent link to this item

https://doi.org/10.13020/brk2-4t69
https://hdl.handle.net/11299/215282

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Keywords

spectrophotometry

genome mapping

long DNA

microfluidics

3D printing

nanopore sequencing

Collection period

2019-07-23
2019-11-23

Date completed

2019-11-23

Date updated

Time period coverage

Geographic coverage

Source information

Journal Title

Journal ISSN

Volume Title

Title

Data for "3D Printing-Enabled DNA Extraction for Long-Read Genomics" published as ACS Omega 2020, 5, 20817-20824

Published Date

2020-08-31

Authors

Agrawal, Paridhi

Reifenberger, Jeffrey G

Dorfman, Kevin D

Group

University of Minnesota Dorfman Lab

Author Contact

Agrawal, Paridhi
agraw135@umn.edu

Type

Dataset
Experimental Data

Abstract

The deposited data files have DNA size measurement critical to demonstrating long DNA extraction in the microfluidic device, and DNA concentration measurement to show the yield of the platform.

Description

Sizing data is measured in genome mapping nanochannels designed by Bionano Genomics. Concentration data is measured using spectrophotometry to ultimately output DNA amount in a sample.

Referenced by

Agrawal, P., Reifenberger, J. G., & Dorfman, K. D. (2020). 3D Printing-Enabled DNA Extraction for Long-Read Genomics. ACS Omega, 5(33), 20817–20824.
https://doi.org/10.1021/acsomega.0c01912

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Replaces

License

CC0 1.0 Universal
http://creativecommons.org/publicdomain/zero/1.0/

Publisher

Collections

Data Repository for U of M (DRUM)
Dorfman Group Research Data

Funding information

NIH (R21- HG009208)

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Previously Published Citation

Suggested citation

Agrawal, Paridhi; Reifenberger, Jeffrey G; Dorfman, Kevin D. (2020). Data for "3D Printing-Enabled DNA Extraction for Long-Read Genomics" published as ACS Omega 2020, 5, 20817-20824. Retrieved from the University Digital Conservancy, https://doi.org/10.13020/brk2-4t69.

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