- School of Mathematics and Statistics - Research Publications
School of Mathematics and Statistics - Research Publications
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ItemEFFICIENT POOLING DESIGNS FOR LIBRARY SCREENINGBRUNO, WJ ; KNILL, E ; BALDING, DJ ; BRUCE, DC ; DOGGETT, NA ; SAWHILL, WW ; STALLINGS, RL ; WHITTAKER, CC ; TORNEY, DC (ACADEMIC PRESS INC ELSEVIER SCIENCE, 1995-03-01)We describe efficient methods for screening clone libraries, based on pooling schemes that we call "random k-sets designs." In these designs, the pools in which any clone occurs are equally likely to be any possible selection of k from the v pools. The values of k and v can be chosen to optimize desirable properties. Random k-sets designs have substantial advantages over alternative pooling schemes: they are efficient, flexible, and easy to specify, require fewer pools, and have error-correcting and error-detecting capabilities. In addition, screening can often be achieved in only one pass, thus facilitating automation. For design comparison, we assume a binomial distribution for the number of "positive" clones, with parameters n, the number of clones, and c, the coverage. We propose the expected number of resolved positive clones--clones that are definitely positive based upon the pool assays--as a criterion for the efficiency of a pooling design. We determine the value of k that is optimal, with respect to this criterion, as a function of v, n, and c. We also describe superior k-sets designs called k-sets packing designs. As an illustration, we discuss a robotically implemented design for a 2.5-fold-coverage, human chromosome 16 YAC library of n = 1298 clones. We also estimate the probability that each clone is positive, given the pool-assay data and a model for experimental errors.