Thanks for sharing this. Large scale identification of PPIs generated hundreds of thousands interactions, which were collected together in specialized biological databases that are continuously updated in order to provide complete interactomes. The first of these databases was the Database of Interacting Proteins (DIP).
40:09 // pg. 60 How does that prior probability is the same for all interactions?? I thought differently. If P(true_PPI) is 0.6, wouldn't that P(false_PPI) is 0.4? Whatever probability we have for the true_PPI, wouldn't the false probability be 1-P(true)? Could anyone help me out? Thanks
13:58 // Pg.23 How can we determine the delta G value? Could you give us a link or so? I assume we are not literally calculating the value based on thermodynamic data but there should be a software that does that. Could you help me how to figure del G value? Thanks
Thanks for sharing this. Large scale identification of PPIs generated hundreds of thousands interactions, which were collected together in specialized biological databases that are continuously updated in order to provide complete interactomes. The first of these databases was the Database of Interacting Proteins (DIP).
56:45 This guy is!!! is looking at pictures of puppies during MIT lecture, holly molly
40:09 // pg. 60
How does that prior probability is the same for all interactions?? I thought differently. If P(true_PPI) is 0.6, wouldn't that P(false_PPI) is 0.4? Whatever probability we have for the true_PPI, wouldn't the false probability be 1-P(true)? Could anyone help me out? Thanks
13:58 // Pg.23
How can we determine the delta G value? Could you give us a link or so? I assume we are not literally calculating the value based on thermodynamic data but there should be a software that does that. Could you help me how to figure del G value? Thanks
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