Hello
I'm not from a biology background so please forgive the ignorance. I have just read that a rare variants (MAF < 0.5%) needs a large effect size to be detected by association studies. I don't follow the reasoning behind this. As long as the rare variant is on the DNA chip you are using to detect the genotypes of the individuals in the study, why should the rare variant need to have a larger effect than any other SNP on the chip. Is it just because the biological effect in question might be over-looked and not spotted at all as a biological effect if it is rare in the population? I don't really know what 'symptoms' are measured in these studies to know how it is possible to overlook an effect. In my limited conceptualisation the subjects in the studies either have or don't a detectable illness/trait but i imagine its more subtle than this.
thanks for your help
RE: the synthetic associations paper by Goldstein, PLoS Biology recently published two rebuttals, a rebuttal to the rebuttal by goldstein, and an editorial on the topic.
I appreciate this is a separate question. I can open a new thread but it didn't seem a big enough question. The paper is called Rare Variants Create Synthetic Genome Wide Assocations. I believe it caused quite a stir so I imagine many peopple will have read it
Thank. I have another question if its ok. The paper i am reading says...'because recombination must be exceptionally high to eliminate the possibility of genome wide associations, one or more of the causal sites could be a considerable distance away from the common variant with the association signal'.. I don't get that. I thought the point was that there exists these regions called haplotypes where this is no recombination so you could use a tagSNP to tag other variants in the haplotype as they will be co-inherited. How can there be no recombination and 'exceptionally high recombination?
I guess we are only missing the key word here: statistical power. The power to detect an association is both affected by effect size and population frequency.