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I am using Tajima's D to identify signatures of selection across a chromosome with a sliding window analysis. I am looking for a coalescence simulation tool that will allow me to estimate p-values for the Tajima's D estimates across the chromosome while also correcting for type II error (false positives).

The chromosome I am investigating is approximately 19 million nucleotides in length. So far, I have investigated it using windows of 5, 50 and 500 KB in steps of 2.5, 25 and 250KB respectively.

To find the critical values of Tajima's D for these windows (to see if any chromosome regions show significant departures from neutral expectations), I have tried using Ardell's (20004) program SCANMS in conjunction with Hudson's (2002) program MS. This program combination takes far too long for the chromosome in question (in fact, the program has never finished even when run for a whole day).

Does anyone know if it is possible to program MS + SCANMS so that it can process a list of smaller chromosomal windows rather than one window at a time? If so, I might be able to analyze the different parts of the chromosome

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Perhaps if you gave us a clue on how to program MS + SCANMS it would be a little easier. What command-lines are involved to invoke this processing, and in what way does it get changed to use different windows and steps ? –  Magoo Mar 18 '13 at 3:44
    
MS operates in a Linux system, while SCANMS is written in Perl. A typical MS command would be: ./ms 30 10000 –t 3.0 | ./sample_stats | cut –f 6 | ./stats 0.025 0.5 0.975; where 30 is the number of polymorphic sites, 1000 is the number of simulation, and 3.0 is the value of theta (a measure of effective population size and mutation rate) in the simulation. The final command ./stats 0.025 0.5 0.975 calls in the compiled stats package to return the values of the simulated distribution at 0.025, 0.0975 and 0.5. –  gwilymh Mar 19 '13 at 14:10

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