cchar, v. 1.6: Count characters in sequence data.
cpg, v. 0.7: Compute the CpG content of DNA sequences.
cutSeq, v. 0.11: Cut regions from molecular sequences.
generateQuerySbjct, v. 0.4: Generate pairs of homologous DNA sequences.
gd, v. 0.12: Calculate genetic diversity (pi, S, and Tajima's D) from aligned DNA sequences with or without sliding window.
getSeq, v. 0.4: Get specific sequences from a FASTA file containing multiple entries.
ms2dna, v. 1.16: Generate samples of homologous DNA sequences evolved under defined evolutionary scenarios by converting the output of Richard Hudson's coalescent simulation program ms. As of version 1.11, it can also deal with output generated by Gary Chen's fast coalescent simulator MaCS using the pipeline macs [options] | msformatter | ms2dna -a.
randomizeSeq, v. 0.8: Randomize sequences.
sequencer, v. 1.14: Simulate shotgun sequencing with paired (as of version 1.11) or unpaired reads and a user-defined error rate.
simK, v. 0.4: Simulate pair of sequences with given number of substitutions/site (K).
M. Bramson, R. Durrett, и G. Swindle. Ann. Probab., 17 (2):
444--481(1989)This paper examines a version of the contact process with a large range. Particles die at rate 1, and a particle is created at an empty site $x$ at rate $łambda$ times the fraction of occupied sites in $y:||x-y||M$. This contact process is dominated by a branching random walk with death rate 1 and birth rate $łambda$, and it is shown that in many ways these two processes are very similar when $M$ is large. In particular, as $M\toınfty$, the critical value for the contact process converges to 1, which is the critical value for branching random walks. The authors obtain precise rates for this convergence, in every dimension, enabling them to describe the ``crossover'' from contact process to branching process behavior in terms of the survival probability of a process started from a single particle. The proofs of the main results use many estimates for branching random walks, further detailing the nature of this crossover behavior..
D. Germano, и M. Joyner. General technical report RM-Rocky Mountain Forest and Range Experiment Station, US Department of Agriculture, Forest Service (USA), (1988)
M. Bertero, P. Brianzi, E. Pike, и L. Rebolia. Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences, 415 (1849):
257-275(1988)
V. Zolotarev. Translations of Mathematical Monographs American Mathematical Society, Providence, RI, (1986)Translated from the Russian by H. H. McFaden, Translation edited by Ben Silver.
S. Ethier, и T. Kurtz. Wiley Series in Probability and Mathematical Statistics: Probability and Mathematical Statistics John Wiley & Sons Inc., New York, (1986)