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Has anyone used any SNP analysis pipelines other than the standard variant pipeline? Any suggestions on good ones to try?
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A truly brilliant question cmm8cmm8. Kudos. I was wondering exactly the same thing. -
We use most of the libraries from bioconductors.Originally posted by cmm8cmm8 View Post
Here you will find all possible libraries for several platforms like Affy, Agilent, Illumina..
I hope this helps.Comment
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I think there's a confusion here between SNPs for microarray and SNP detection from sequencing. I believe the Bioconductor packages is for the former and the people were asking for the latter.Originally posted by manoj.b View PostWe use most of the libraries from bioconductors.
Here you will find all possible libraries for several platforms like Affy, Agilent, Illumina..
I hope this helps.
Q: What do you consider as "standard"? Only from the vendors? How about MAQ?
I'm testing NextGENe currently, which is supposedly designed for SNP detection (well, really for mutation detection). Would love to hear what other people use.Comment
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Thanks for the replies. By "standard" I was referring to the variant pipeline that comes with the instrument.Comment
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For SOLiD data, we use BFAST (admittedly my own aligner) [https://secure.genome.ucla.edu/index.php/BFAST]. The output of that is converted to SAM format (for use with samtools) [http://samtools.sourceforge.net/].
We then use the MAQ consensus model to call SNPs using samtools, modifying the various parameters (train on known data) to get the correct TPR and FPR for calling hets.
NilsComment
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Nilshomer,
I recognize that your data is SOLID, but I was wondering about your method for concensus calling in which you "train on known data" to find the best parameter settings.
I, too, am interested in doing such a thing. I have a 1M SNP Illumina array and Next-Gen data from the Illumina GA2 on the exome. What type of data did you train on?
Which parameters did you find needed the most tweaking?
Did you also find that the number of variants called by MAQ (or Samtools, in your case) was very high? I get >180,000 variants in the cns.filter.snp file when using the parameters from easyrun. This seems like way too many, but I'm having difficulty distinguishing the real things from the false positives.
Looking forward to hearing your input...Comment
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We are novice bioinformtacists so use CLC Bio's Genomic Workbench. The DIP (deletion-insertion polymorphism) algorithm works well. The SNP algorithm definitely detects known SNPs and we are optimizing the settings for best sensitivity and specificity. So far if we maximize specificity by looking at the X and Y chromosomes where SNPs should obviously be homozygous for male DNA samples, it reduces sensitivity and we miss too many known SNPs. Relaxing the criteria gives us better sensitivity but we get too many false positives.Comment
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I would plot an ROC curve based on all of the parameters in samtools at sites that Illumina genotyped as heterozygous assuming no genotyping error (1/10,000 in actuality). I found varying the "-r" parameter to be of most value. Also, further filtering like requiring a variant to be seen on both strand with sufficient coverage and quality helps a lot. We applied all these methods in our paper (self-publicity).Originally posted by erichpowell View PostComment
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We use the bioscope software from lifetech which has the dibayes algorithm implemented. If you fiddle a bit with the settings it seems to work quite ok, but we have not yet done any thorough testing.Comment
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I have been using CLC to detect SNPs based on two SAM files, but I am having big problems in getting everything running. I was wondering if there is any package in Bioconductor or another free source that I can use?
Thanks for your help,Comment
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Hi,
Without using LifeTech's BioScope/LifeScope, I think the following pipeline can be applied to SOLiD data for SNP/indel detection.
1) *.csfasta+*.qual / *.XSQ -> SAM/BAM
BFAST, BWA, or NovoalignCS
2) SAM/BAM -> SNP/indel detection
SAM tools or GATK (more accurate)
3) Annotation
GATK or ANNOVAR
I think SAM tools and GATK do not use color-space information to detect SNPs/indels. That is one of the advantage of BioScope/LifeScope.Last edited by HiroMishima; 10-31-2011, 04:44 PM.Comment
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I was wondering this, too. Thanks for your information!!Originally posted by HiroMishima View Post
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I’m not a sequencing expert. I’m a purification scientist who uses NGS to evaluate workflows my group develops. With this perspective, we think about the sample first and the NGS workflow second. The sequencer is an exceptionally honest reporter, but it can only report on what you give it, so whether you get clean, interpretable data from an NGS workflow is largely determined before you begin.
Here are nine questions we think about, in roughly the order they matter, before...06-18-2026, 07:11 AM -
Data variability is still an issue in sequencing technologies despite the advances in reproducibility and accuracy of these platforms. But the problem does not originate in the sequencing itself, but in the previous steps, before the sample reaches the sequencer.
The first step is collection, followed by preservation and sample preparation for analysis. Most scientists overlook those steps, but not being careful might just be skewing the experiment’s results.
...06-02-2026, 10:05 AM
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