Hi,
I would have a question, how did you design the 200 primer pairs for your study?
thank you so much
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Originally posted by frozenlyse View PostYeah you are going to get more sequencing errors/lower quality bases at the 3' ends of your reads - however with only a 30kb region in 96 samples you are going to have ~1000x coverage so it probably won't be too much of an issue!
Couple of things to think about are
* in your PCRs what taq will you use? Phusion won't amplify from bisulfite DNA as it contains uracil. I think there is a low error rate enzyme out there which doesn't mind bisulfite but I can't remember what it is off the top of my head
* has your sequencing facility handled bisulfite sequencing before? It really skews the base composition (obviously) so I'm not sure what (if any) adjustments have to be made for proper basecalling etc
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Yeah you are going to get more sequencing errors/lower quality bases at the 3' ends of your reads - however with only a 30kb region in 96 samples you are going to have ~1000x coverage so it probably won't be too much of an issue!
Couple of things to think about are
* in your PCRs what taq will you use? Phusion won't amplify from bisulfite DNA as it contains uracil. I think there is a low error rate enzyme out there which doesn't mind bisulfite but I can't remember what it is off the top of my head
* has your sequencing facility handled bisulfite sequencing before? It really skews the base composition (obviously) so I'm not sure what (if any) adjustments have to be made for proper basecalling etc
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Originally posted by volks View Posti thought you were going to sequence the whole pcr amplicon without fragmentation. why should this then happen?
Sorry It's just that im not sure if any of that is likely hence the question to the forum
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i thought you were going to sequence the whole pcr amplicon without fragmentation. why should this then happen?
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Hi all I have another Question regarding this approach:
Q2) Secondly a concern some of my colleagues have highlighted is that using a PCR approach we would get over-representation of the start and end of the reads (i.e. the start and end of the desired 200bp amplicon) and a much lower if not absent coverage of the middle portion. Would anyone have any comments as to whether this would be the case and if so are there ways around this?
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Originally posted by volks View Post.. not so easy to retain complexity.
i would suggest whole-genome MeDIP/MCIp or alike. on one lane hiseq you could multiplex a couple of samples. and you would only have to sequence SE 50bp.
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Originally posted by frozenlyse View Post300kb target / 200bp amplicon == 1500 primer pairs just for one strand of bisulfite treated DNA (you need both strands to cover all possible SNPs). So 3000 primer pairs to cover both strands, 96 samples == 288,000 unique amplicons... At 1 lane of a GAIIx (lets be generous and say 40M PF clusters) that is ~140x coverage which is a good ball park to be in. But how are you going to do those 3000x96 PCRs, normalise the amount of products, index and mix?
Have you considered doing sequence capture followed by bisulfite instead?
Also aligning 2x100bp reads to a whole (human?) genome isn't really much of a problem, though there will always be holes in coverage due to regions of poor mappability.
Capture isn't really an option as there would be issues with complexity I think?
Thanks
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Originally posted by frozenlyse View PostHave you considered doing sequence capture followed by bisulfite instead?
i would suggest whole-genome MeDIP/MCIp or alike. on one lane hiseq you could multiplex a couple of samples. and you would only have to sequence SE 50bp.
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300kb target / 200bp amplicon == 1500 primer pairs just for one strand of bisulfite treated DNA (you need both strands to cover all possible SNPs). So 3000 primer pairs to cover both strands, 96 samples == 288,000 unique amplicons... At 1 lane of a GAIIx (lets be generous and say 40M PF clusters) that is ~140x coverage which is a good ball park to be in. But how are you going to do those 3000x96 PCRs, normalise the amount of products, index and mix?
Have you considered doing sequence capture followed by bisulfite instead?
Also aligning 2x100bp reads to a whole (human?) genome isn't really much of a problem, though there will always be holes in coverage due to regions of poor mappability.Last edited by frozenlyse; 07-06-2011, 04:55 PM.
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so you want to sequence 150 amplicons in 96 samples? you would have to do a lot of primer design, optimization and pipetting.
why dont you go for 454 sequencing? you would obtain fewer (but sufficiently many) and longer reads at a cheaper price.
alignment is not influenced by overlapping PE reads. and if you are concerned about possible biases you can soft-clip the overlap later on.
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Bisulphite sequencing on Illumina Paired End 100bp reads
Hi All Im new on here. i was after advice concerning the 100bp PE reads for bisulphite sequencing:
I would like to sequence directly from 200bp PCR fragments as I am hoping to index 96 samples in a single lane.
Is it possible to sequence many (~150) PCR amplicons that are all 200bp long using PE 100bp. I was hoping to generate similar sized bisulphite PCR amplicons (~200bp) so there would be no need for size selection and this is a reliably obtainable size for bisulphite PCR.
Also I really have no other option but to use PCR products as I plan to do bisulphite sequencing and my source material would be bisulphite PCR products. These bisulphite PCR amplicon sequences are to be aligned to a small genomic region (a large gene) where all my amplicons will come from (300kb region of bisulphite converted sequnce, which will be used specifically for the alignment) and some of these 200bp amplicons will overlap with one another (say where I was interested in a streach of 3kb or so and covered it with a number of 200bp PCR amplicons).
In essence I want as much read length (100bp x2) from the 200bp PCR amplicons as possible to look at methylated cytosines and SNPs throughout the full length of the same amplicon and so my thinking is there will be no insert for the 100bp PE read as I want data on the whole (or as much as possible) of the 200bp PCR amplicon - is this possible to achieve?
Also I have heard it is a problem bioinformaticaly that if you do 100bp PE reads, you ideally don't want the reads from either end to overlap (ie for the sequncing from either end inwards) coz if they do you can't align these easily or you get over represented sequnces?
Thanks guysTags: None
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