J.K. and WolfeS.A. / M.H. and WolfeS.A. / DNA Technologies / JaegerS.A. / Oxford University Press / Bindn / Brodsky / Bio-Rad / H. (2005) Ab / Creative Commons / generated using template DNA / / /
Facility
DNA complex / University of California / / /
IndustryTerm
biotechnology / short-read sequencing technology / parallel technology / bioinformatics processing / canonical binding site / few extant technologies / primer-binding site / chemical / array technology / glycerol solution / /
Organization
Korf* and David J. Segal* Genome Center / University of California / Davis / Oxford University / /
Person
Nat / Brilliant / Dreier / Crotty / Ian Korf / David J. Segal / / /
Position
AA leader / T.D. / D.J. / Author / /
Product
Engine Opticon 2 System / Illumina / Sigma / /
ProgrammingLanguage
C / Perl / /
ProvinceOrState
A.B. / North Carolina / California / /
PublishedMedium
Nucleic Acids Research / /
Technology
short-read sequencing technology / Bioinformatics / bar code / BMP / massively parallel technology / antibodies / biotechnology / array technology / cloning / Perl / DNA binding / human genome / few extant technologies / DNA Chip / Gene Expression / simulation / gel electrophoresis / /
Nucleic Acids Research Advance Access published October 20, 2009 Nucleic Acids Research, 2009, 1–7 doi:[removed]nar/gkp802 Bind-n-Seq: high-throughput analysis of in vitro protein–DNA interactions using massively