DNA Sequence Determination by Hybridization: a Strategy for Efficient Large-Scale Sequencing

Radoje Drmanac; Snezana Drmanac; Žaklina Strezoska; Tatjana Paunesku; Ivan Labat; Marija Zeremski; Jay Snoddy; William K. Funkhouser; Ben F. Koop; Leroy Hood; Radomir Crkvenjakov

doi:10.1126/science.8503011

DNA Sequence Determination by Hybridization: a Strategy for Efficient Large-Scale Sequencing

Radoje Drmanac(Argonne National Laboratory), Snezana Drmanac(Argonne National Laboratory), Žaklina Strezoska(Argonne National Laboratory), Tatjana Paunesku(Argonne National Laboratory), Ivan Labat(Argonne National Laboratory), Marija Zeremski(Argonne National Laboratory), Jay Snoddy(Argonne National Laboratory), William K. Funkhouser(California Institute of Technology), Ben F. Koop(California Institute of Technology), Leroy Hood(California Institute of Technology), Radomir Crkvenjakov(Argonne National Laboratory)

Science

June 11, 1993

10.1126/science.8503011

Cited by 235

Abstract

The concept of sequencing by hybridization (SBH) makes use of an array of all possible n-nucleotide oligomers (n-mers) to identify n-mers present in an unknown DNA sequence. Computational approaches can then be used to assemble the complete sequence. As a validation of this concept, the sequences of three DNA fragments, 343 base pairs in length, were determined with octamer oligonucleotides. Possible applications of SBH include physical mapping (ordering) of overlapping DNA clones, sequence checking, DNA fingerprinting comparisons of normal and disease-causing genes, and the identification of DNA fragments with particular sequence motifs in complementary DNA and genomic libraries. The SBH techniques may accelerate the mapping and sequencing phases of the human genome project.

DNA Sequence Determination by Hybridization: a Strategy for Efficient Large-Scale Sequencing

Abstract

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