Title :
Constraint checking for restriction site mapping
Author :
Ho, S.T.S. ; Allison, L. ; Yee, C.N. ; Dix, T.
Author_Institution :
Dept. of Comput. Sci., Monash Univ., Clayton, Vic., Australia
Abstract :
Introduces an algorithm for the restriction site mapping problem, based on Pratt´s separation theory. The algorithm accepts data from single and double digests of a DNA molecule, in which every fragment is given a range of possible lengths depending on experimental errors. As fragments are being assembled into potential maps of the original molecule, a sound and complete constraint checker is applied which extracts the maximum amount of information from fragment lengths. A fast checking algorithm for two enzymes is presented, and an extension of Floyd´s algorithm for the all-pairs shortest paths problem is adopted for multi-enzyme cases. Existing methods for checking fragment lengths are either weaker subset or special cases of the authors´ methods.<>
Keywords :
constraint theory; macromolecular configurations; search problems; DNA molecule; Pratt´s separation theory; constraint checker; fragment lengths; multi-enzyme cases; restriction site mapping; shortest paths problem; Assembly; Biochemistry; Computer errors; Computer science; DNA; Data mining; Measurement errors; Shortest path problem; Testing;
Conference_Titel :
System Sciences, 1991. Proceedings of the Twenty-Fourth Annual Hawaii International Conference on
Conference_Location :
Kauai, HI, USA
DOI :
10.1109/HICSS.1991.183933
