On the number of alignments of k sequences

Numerous studies by molecular biologists concern the relationships between several long DNA sequences, which are listed in rows with some gaps inserted and with similar positions aligned vertically. This motivates our interest in estimating the number of possible arrangements of such sequences. We say that a k sequence alignment of size n is obtained by inserting some (or no) 0's into k sequences of n 1's so that every sequence has the same length and so that there is no position which is 0 in all k sequences. We show by a combinatorial argument that for any fixed k ≥1, the number f(k, n) of k alignments of length n grows like ( c k ) n as n → ∞ , where c k = (2 1/ k − 1) -k . A multi-dimensional saddle-point method is used to give a more precise estimate for f(k, n).Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/41582/1/373_2005_Article_BF01787724.pd

A new method for computing asymptotics of diagonal coefficients of multivariate generating functions

Let \sum_{n\in N^d} f_{n_1, ..., n_d} x_1^{n_1}... x_d^{n_d} be a multivariate generating function that converges in a neighborhood of the origin of C^d. We present a new, multivariate method for computing the asymptotics of the diagonal coefficients f_{a_1n,...,a_dn} and show its superiority over the standard, univariate diagonal method.Comment: 9 pages, no figure

t- Graphs and Combinatorics 6,133-146 (1990) On the Number of Alignments of k Sequences

Abstract. Numerous studies by molecular biologists concern the relationships between several long DNA sequences, which are listed in rows with some gaps inserted and with similar positions aligned vertically. This motivates our interest in estimating the number of possible arrangements of such sequences. We say that a k sequence alignment of size n is obtained by inserting some (or no) 0’s into k sequences of n 1’s so that every sequence has the same length and so that there is no position which is 0 in all k sequences. We show by a combinatorial argument that for any fixed k 2 1, the number f(k, n) of k alignments of length n grows like (q) ” as n+ co, where ck = (2l ”- l)-k. A multi-dimensional saddle-point method is used to give a more precise estimate for f(k, n). 1