Original source: http://madhadron.com/?p=263
A farewell to bioinformatics
Published: March 26, 2012
Category: biology:nontechnical
I’m leaving bioinformatics to go work at a software company with more technically ept people and for a lot more money. This seems like an opportune time to set forth my accumulated wisdom and thoughts on bioinformatics.
My attitude towards the subject after all my work in it can probably be best summarized thus: “Fuck you, bioinformatics. Eat shit and die.”
Bioinformatics is an attempt to make molecular biology relevant to reality. All the molecular biologists, devoid of skills beyond those of a laboratory technician, cried out for the mathematicians and programmers to magically extract science from their mountain of shitty results.
And so the programmers descended and built giant databases where huge numbers of shitty results could be searched quickly. They wrote algorithms to organize shitty results into trees and make pretty graphs of them, and the molecular biologists carefully avoided telling the programmers the actual quality of the results. When it became obvious to everyone involved that a class of results was worthless, such as microarray data, there was a rush of handwaving about “not really quantitative, but we can draw qualitative conclusions” followed by a hasty switch to a new technique that had not yet been proved worthless.
And the databases grew, and everyone annotated their data by searching the databases, then submitted in turn. No one seems to have pointed out that this makes your database a reflection of your database, not a reflection of reality. Pull out an annotation in GenBank today and it’s not very long odds that it’s completely wrong.
Compare this with the most important result obtained by sequencing to date: Woese et al’s discovery of the archaea. (Did you think I was going to say the human genome? Fuck off. That was a monument to the glory of that god-bobbering asshole Francis Collins, not a science project.) They didn’t sequence whole genomes, or even whole genes. They sequenced a small region of the 16S rRNA, and it was chosen after pilot experiments and careful thought. The conclusions didn’t require giant computers, and they didn’t require precise counting of the number of templates. They knew the limitations of their tools.
Then came clinical identification, done in combination with other assays, where a judicious bit of sequencing could resolve many ambiguities. Similarly, small scale sequencing has been an incredible boon to epidemiology. Indeed, its primary scientific use is in ecology. But how many molecular biologists do you know who know anything about ecology? I can count the ones I know on one hand.
And sequencing outside of ecology? Irene Pepperberg’s work with Alex the parrot dwarfs the scientific contributions of all other sequencing to date put together.
This all seems an inauspicious beginning for a field. Anything so worthless should quickly shrivel up and die, right? Well, intentionally or not, bioinformatics found a way to survive: obfuscation. By making the tools unusable, by inventing file format after file format, by seeking out the most brittle techniques and the slowest languages, by not publishing their algorithms and making their results impossible to replicate, the field managed to reduce its productivity by at least 90%, probably closer to 99%. Thus the thread of failures can be stretched out from years to decades, hidden by the cloak of incompetence.
And the rhetoric! The call for computational capacity, most of which is wasted! There are only two computationally difficult problems in bioinformatics, sequence alignment and phylogenetic tree construction. Most people would spend a few minutes thinking about what was really important before feeding data to an NP complete algorithm. I ran a full set of alignments last night using the exact algorithms, not heuristic approximations, in a virtual machine on my underpowered laptop yesterday afternoon, so we’re not talking about truly hard problems. But no, the software is written to be inefficient, to use memory poorly, and the cry goes up for bigger, faster machines! When the machines are procured, even larger hunks of data are indiscriminately shoved through black box implementations of algorithms in hopes that meaning will emerge on the far side. It never does, but maybe with a bigger machine…
Fortunately for you, no one takes me seriously. The funding of molecular biology and bioinformatics is safe, protected by a wall of inbreeding, pointless jargon, and lies. So you all can rot in your computational shit heap. I’m gone.
Please send questions and comments to Fred Ross (keep the 'madhadron.com:' at the start of your subject).
Disclaimer: This is not my rant, but I thought there are some interesting points.
Sorry that I addressed it as 'your oppinions', I thought you referenced your own blog. It is definitely a polemic speech, and even a relatively good one. As with any good polemic rant, it contains some truth and is good in concealing that it in its overly generalized tone totally misses the point. See my response as an open response to the anonymous author.
See also: "Hello Fred, It’s been almost two years since “A farewell to bioinformatics”. I’m sure there are people who want to know how well it worked out for you. What parts of bioinformatics do you miss? " http://www.homolog.us/blogs/blog/2014/02/17/horror-awaits-quit-bioinformatics-academia/
In addition to all comments, I recommend paragraph "The problems underlying the programs for identifying TEs and repeats" in article "Identifying repeats and transposable elements in sequenced genomes: how to find your way through the dense forest of programs" It expresses my own thoughts, especially that more programs should be open-source and easy to enter for new contributors instead of creating new tools. How to achieve this remains a rhetorical question:) Any comments are welcomed.