Friday, March 09, 2007

Workshop in Ohio

I will not probably have much time for posts next week since I plan to attend a workshop in Columbus, Ohio. The workshop is organised by the Mathematical Biosciences Institute of the Ohio State University and is entitled Workshop for young researchers in mathematical biology (remember what the meaning of young researcher is from my previous post from my visit to Barcelona :().

At any rate there will be some interesting people both in the category of keynote speakers and "young" researchers. Some of them doing bio mathematics of cancer so expect a report on that when I come back.

Thursday, March 08, 2007

cancer genes

The information can be found tailored for all types of users. For those who want an easy take here is the BBC version. Nature has a nice overview and the article proper.

Here is my take: a (fairly large) group of researchers mainly at the Sanger, in UK have studied hundreds of genes that are mutated in about 200 types of cancers. The trick here is to find what genes DO drive cancer as opposed to 'just happen to be mutated' in a cancer. At the end of the day your average tumour cell in an advanced stage tumour is likely to contain several mutations and many of them will probably be hitchhikers not necessarily contributing to the overall fitness of the cell. Unfortunately the result of the research is that the number of genes mutated in many cancers is higher than expected and telling apart driving genes from others will be a challenging task. One thing of working with so many types of cancers (200) is that genes that might not play any significant role in one type of cancer might turn to be important in the next.

Wednesday, March 07, 2007

Telomeres, cancer and aging

One quite fascinating thing in animal biology is the question of immortality or, to be more precise, the lack of it. While most unicellular organisms can divide for as long as they have the luck to find resources and space to do so, human cells can divide only a limited amount of times (approximately around 50 times, although this does not apply to stem cells that can divide an unlimited amount of times). In principle the limitation in divisions for most human cells is due to a mechanism that has been evolved and is not an intrinsic limitation. The cancer hypothesis is that the limitation makes the appearance of cancer more unlikely. If a cell is limited to just a few divisions, if it acquires a mutation that mutation is unlikely to spread to far.

The reason for this limitation are the telomeres, situated at the end of the chromosomes, that get shorter each time the cell divides. Once these telomores reach a critical size and become to small the cell will enter a state called senescence by which they will not divide again.

This is an interesting link in which they talk about this and how in the next few decades we might know enough about the effects of limited cell replication in human life expectancy, how to increase it (maybe for ever) and how to do that avoiding nasty side effects (like increased probability of dying from cancer). The website in which this is hosted is covering all sorts of news, many of them of dubious scientific interest, but the information in the link looks sound.

On the other hand in a more reliable source (PNAS) there is a nice study on how telomere dysfunction can cause genetic instability. They work on a disease known as Werner syndrome but it is quite useful stuff for cancer research. This Werner syndrome results in people aging prematurely and researchers at the Salk institute have found how extra short telomeres can be the source of the problem.

Monday, March 05, 2007

Bioinformatics and google

First of all, I am not a bioinformatician. I even thought I had an idea of what is the aim of bioinformatics but after a visit to the group of Nuria Lopez Bigas at the Biomedical Research Parc in Barcelona I realised that the scope of what I thought the field is about was too narrow (they do some nice machine learning and statistical work on disease related genes).

I have seen this video on Google video (only one of these sites that allows the user to download the video for offline use) some time this weekend. It is just a talk by David Vise, the author of a book about Google, to staff at Google Inc. Google is one company that fascinates (and in a sense, worries) me tremendously. As a side note, this blog is posted in one of their servers.

The thing is that at the end of the talk, David mentions the interests of one of Google founders (I think it is Larry Page) on biology. Then I thought (and I am sure that I will be the last of a long list of people) that, wow, that is really a good match: google and bioinformatics. Biology until know was mostly a science in which practitioners collected facts. There is loads of data and little idea of how to make sense of it, asides from evolution and a few other very general ideas. One of the aims of google is precisely to find patterns in the zitabytes of information stored in their servers. I have the feeling that we will see more of Google in that field.