One of the things I work on is the nucleation of crystals. Nucleation is how crystals start to form, and so control over nucleation basically means being able to start a crystal growing where we want and when we want. We scientists have tried really quite hard to do this, for decades, and to be honest we are still pretty rubbish at it. We still can’t predict what we need to do to make a crystal on command. Sometimes nothing happens when we want a crystal to nucleate, other times when we want one crystal to form, instead we get dozens. It is a bit of a tale of woe.
I have just got back from Liquids 2014, a conference in Lisbon. I thoroughly enjoyed it, and Lisbon was great – sunny, friendly and with great seafood. I will probably write a post or two on the best talks later, but now I want to talk about how I learnt of two scientists trying to reinvent thermodynamics.
The remarkable fact that people who work on understanding our DNA always mention in their talks is that we have about 1.5 m of DNA in the nucleus of each of cells, and these nuclei are only around 5 thousandths of a millimetre across. That is a lot of DNA in a small space. Stretched out the DNA is longer than some of us are tall, but this DNA is crammed into a space too small to see with the naked eye.
I have just got back from co-organising a science workshop in Lausanne, Switzerland. It was great fun, I thoroughly enjoyed many of the talks. And as an organiser it made me happy to see the scientists enjoying the talks then realising that they can use these ideas in their own work. Some of the attendees who met at the meeting for the first time were even talking of teaming up and working together. If they do, it’ll put a smile on my face that I have helped that.
Today I am at conference on metals crystallisation, next
Friday I will be co-chairing a workshop on structure in living cells. These are two of four back-to-back conferences will be attending over the next two weeks. With this many conferences it is good to have variety. This one is near Egham in Surrey, the picture shows part of the venue.
We all have 46 chromosomes worth of DNA in each of our cells. Each one is kind of a stringy object that is typically around a few micrometres across, and all 46 are squeezed into a cell nucleus that is itself maybe only 7 micrometres across. These chromosomes are surprisingly variable. Chromosome number 18 has maybe 250 genes on it, while number 19 has around 1,500 genes, despite being around the same size*. So chromosome 19 is a lot more active than 18, many more proteins are being made from its much larger number of genes.
It has been known for a long time that the chromosomes are not uniformly distributed in the nucleus. The active ones, the ones like chromosome 19 with many genes, tend to be nearer the centre, while the quieter ones are near the edge. You can see this in image and schematic at top left, the less active chromosome 18 is at the bottom near the right end, while the more active chromosome 19 is above it and so away from the edge. The image is a from a paper by Bolzer et al.
What with high pressure penalties, last minute corners, etc, now is a good time to consider the Yerkes-Dodson Law. This is illustrated in the figure to the left. Basically it shows how difficult you find doing a task, e.g., taking a good penalty, is as a function of how much stress you are under/how much adrenalin is in your bloodstream. The y-axis says learning but is known to be more general than just learning.
For simple tasks (solid curve), the more adrenalin, the better, i.e., the more likely it is that you complete the simple task correctly. But for tasks where you have to think (see the dashed curve), it is not so simple. A bit of stress, a bit of adrenalin, helps, but too much hinders you, and the chance of you failing goes back up. There is an optimal level of pressure where you perform your best. Being half asleep is bad, but so is being panicked.
On Thursday I was quietly working in my office when a professor I don’t know, from Brunel University, phoned me. He is an organiser of next week’s 4th International Conference on Advances in Solidification Processes – a conference on metal crystallisation. One of their plenary speakers had bailed on them. He asked me to step in, so I said yes.
Today was the second of two back-to-back Open Days the University runs for prospective students. A-level students thinking of going to university in autumn 2015, and their parents, visit the university to learn about degrees and university life. Today we had about 350 to 400 visitors in the Department, and maybe a bit more than half than yesterday.
As a scientist I guess I should stop and admire the beautiful natural world a bit more than I do. Too busy doing stuff most of the time, which is a poor excuse. Anyway, above is a picture of sunset over the river Seine in Paris. To the right you can see twin squarish towers, this is I think the Notre Dame cathedral.