I'm with Orac and Orcinus on this one. This is just too delicious to resist.1
1. Although, as a notoriously bad speller, I have made some pretty similar mistakes on Sandwalk.
I got tenure! Yay! By my count it's been about fifteen years getting to this point. I started studying mathematics seriously in my last two years of college (a rather late start in this profession). Then it was five years of graduate school, three years as a post-doc in Kansas, and now five years at JMU. Pretty satisfying. Suddenly that obnoxious and contentless rejection letter I received a month ago on a paper the journal should have been honored to publish doesn't seem to sting so much. (I'll just patch it up and send it off to the next journal, where it will languish for ten months to a year. What do I care? It's not like I'm in any great hurry to publish anymore!)I guess this is when we discover that Jason is really a closet IDiot.
So there you go. Guess now I can tell you what I really think...
"for their discoveries concerning signal transduction in the nervous system"
Your Majesties, Your Royal Highnesses, Ladies and Gentlemen,
This year's Nobel Prize in Physiology or Medicine concerns the most complex structure in the universe that we know of - the human brain. It consists of 100 billion nerve cells, which is the same number of cells as the total number of human beings that have ever lived on this earth.
We talk about the "Internet revolution"; 35 million Internet users who communicate now and then - what is that compared to the nerve cells we all carry within ourselves! 100 billion nerve cells that communicate continuously.
It is this communication, "signal transduction in the nervous system," which is the subject of this year's Nobel Prize. A single nerve cell forms thousands of contact points, so-called synapses, with other nerve cells. In these synapses the nerve cells communicate by chemistry; one cell releases a transmitter, which reaches the other cell.
Professor Arvid Carlsson proved that dopamine is such a transmitter. The general belief was that dopamine was a precursor of other transmitters and of little functional importance. However, Professor Carlsson was able to show that dopamine existed in specific parts of the brain and concluded that it was a transmitter in its own right.
He then used a naturally occurring substance, reserpine, which empties the dopamine from the nerves, and found that the animals lost their ability to move. He realized that it must be possible to restore the dopamine levels with L-DOPA, a precursor of dopamine. In a conclusive, dramatic experiment he showed that the animals regained their ability to move when he gave them L-DOPA.
Reserpine had depleted dopamine and had given the animals the symptoms of Parkinson's disease, that is, rigidity and inability to move and react to stimuli in the environment. When the animals were given L-DOPA, dopamine was produced again in their brains. In this way the idea of treating Parkinson patients with L-DOPA was born. This enables millions of patients around the world to live a normal life.
Professor Paul Greengard showed what happens when dopamine and other similar transmitters stimulate a nerve cell. Receptors on the cell surface activate enzymes in the cell wall, which starts the production of second messengers. These messengers travel into the cell and activate a protein kinase, which starts to bind phosphate groups to other proteins, in this way altering their function. This leads, for example, to the opening of ion channels in the cell membrane and a change in the electrical activity of the cell.
Professor Greengard then showed that dopamine and other transmitters affect a central regulatory protein, which has been called DARPP-32. Like the conductor of an orchestra, it tells other proteins when and how to be activated.
This so-called "slow synaptic transmission" controls our movements and also those processes in the brain that elicit emotions or react to addictive drugs such as cocaine, amphetamine and heroin.
Professor Eric Kandel showed that transmitters of the same type as studied by Arvid Carlsson, via the protein kinases characterized by Paul Greengard, are involved in the most advanced functions of the nervous system such as the ability to form memories.
Imagine how difficult or impossible it must be to study how memory is formed in a human brain with 100 billion nerve cells. Eric Kandel, therefore, did something which is classical in all natural science: He chose to study a simpler model system, a sea slug, Aplysia, which has 20,000 nerve cells. He did it with the conviction that even primitive animals must learn in order to survive.
The sea slug has a withdrawal reflex protecting its gills. If they are touched repeatedly, they react less and less - just as human beings do when subjected to an unexpected touch. If, on the other hand, the touch is forceful the reflex is amplified and becomes stronger and stronger.
The habituation or amplification effect lasts only for a few minutes. One may say that the sea slug exhibits a short-term memory. If the forceful stimulus is repeated several times, the sensitization may remain for weeks, that is, the sea slug develops a long-term memory.
Professor Kandel was able to show that habituation to touching was due to changes in the synapse, the contact point between the nerve cells. During habituation less and less transmitter was released.
The forceful stimulus that formed the long-term memory worked in a completely different way. Second messengers activated protein kinases that entered the cell nucleus and started the production of new proteins. This, in turn, brought about a change in the form and function of the synapse. What we call memory is, thus, elicited by direct changes in the billion of synapses that form the contact points between the nerve cells.
I am convinced that you and I will remember this Nobel ceremony for many years. This is because of the dopamine which Arvid Carlsson discovered, enabling the brain to react to what we see and hear; the second messengers that Paul Greengard described, carrying the signals into the nerve cell; and the memory functions that Eric Kandel found to be due to changes in the very form and function of the synapses.
Dear Arvid Carlsson, Paul Greengard and Eric Kandel. Your discoveries concerning "signal transduction in the nervous system" have truly changed our understanding of brain function. From Arvid Carlsson's research we now know that Parkinson's disease is due to failure in synaptic release of dopamine. We know that we can substitute the lost function by a simple molecule, L-DOPA, which replenishes the emptied stores of dopamine and in this way, give millions of humans a better life.
We know from Paul Greengard's work how this is brought about. How second messengers activate protein kinases leading to changes in cellular reactions. We begin to see how phosphorylation plays a central part in the very orchestration of the different transmitter inputs to the nerve cells.
Finally, Eric Kandel's work has shown us how these transmitters, through second transmitters and protein phosphorylation, create short- and long-term memory, forming the very basis for our ability to exist and interact meaningfully in our world.
On behalf of the Nobel Assembly at Karolinska Institutet, I wish to convey our warmest congratulations and I ask you to step forward to receive the Nobel Prize from the hands of His Majesty the King.
[Photo Credits: The photo of Arvid Carlsson celebrating is from "The Nobel Prize did change my life!" . The photo of Paul Greengard with his wife Ursala von Rydingsvard is from The New York Times. Greengard used his prize money to fund an annual $50,000 award to an outstanding female medical researcher.
It is a well established fact that abortion can increase a woman’s risk of developing breast cancer by denying her the protective effect of both a full-term pregnancy as well as breast-feeding. In addition, the abrupt, artificial termination of a healthy pregnancy leaves a woman with an increased number of vulnerable undifferentiated (immature) breast cells which are, in turn, exposed to the massive amounts of estrogen present during early normal pregnancy. Estrogen is a known cancer causing hormone.Now, it doesn't take too much exposure to real science to recognize the problem with such claims. What they're doing is taking a little bit of truth and distorting it into something that's not the truth.
Darwinism has always been an upper-class movement. ID, by contrast, is strictly middle-class. That’s our base and that’s where we find our support.You won't believe his evidence for such a statement unless you actually follow the link and read what he wrote.
SPECIAL EVENT: Why So Few Atheists in the Media? with TVO The Agenda Producer
Starts
Friday, May 9th at 7:00 pm
Ends
Friday, May 9th at 9:00 pm
Location
Centre for Inquiry Ontario, 216 Beverley St., Toronto, ON M5T 1Z3, 1 minute south of College St. at St. George St.
Wonder why secular humanists aren't included on every media ethics panel which includes the perspectives of just about everyone else?
INFLUENTIAL TV PRODUCER DISCUSSES ATHEIST & HUMANIST MARGINALIZATION IN THE MEDIA AND SUGGEST NEW STRATEGIES
Special FREE Event!
Featuring Wodek Szemberg, TV Ontario Producer of The Agenda with Steve Paiken, Best Lecturer Competition and BIG IDEAS, and "out of the closet" atheist.
Everyone is welcome.
Keeping all these cautions in mind, it is still quite remarkable that some significant percentage of fundamentalist Protestants can go to college and still reject the basic scientific fact that humans evolved. Note that in all of the other groups the college educated subset are more inclined to accept evolution. (Do most of those "college" educated fundamentalists go to some cheap reproduction of a college run by a religious organization?)I stand by this statement.
As we've seen time and time again on the blogs (and elsewhere), the Christian fundamentalists have erected very strong barriers against learning. It really doesn't matter how much they are exposed to rational thinking and basic scientific evidence. They still refuse to listen.
This is one of the reasons why I would flunk them if they took biology and still rejected the core scientific principles. It's not good enough to just be able to mouth the "acceptable" version of the truth that the Professor wants. You actually have to open your mind to the possibility that science is correct and get an education. That's what university is all about.
Of course, we all recognize the problem here. How do you distinguish between a good Christian who is lying for Jesus and one who has actually come to understand science? It seems really unfair to flunk the honest students who admit that they still reject science and pass the dishonest ones who hide their true beliefs.
{Hat Tip: BigHeathenMike]
1. It's much safer to eat meat.
1. That might have something to do with the fact that you have to be in Toronto to collect the prize, ya think? Maybe I should have another prize for people who can't come to Toronto? How about a Tim Horton's gift certificate?
Welcome to the 104th edition of the Tangled Bank blog carnival (a biweekly showcase of good biology posts selected by the authors themselves). Rigorous calculations and archaelogical research have revealed that this is the Tangled Bank’s 4th birthday. In the birthday spirit, several people sent appropriately themed presents.
If you want to submit an article to Tangled Bank send an email message to host@tangledbank.net. Be sure to include the words "Tangled Bank" in the subject line. Remember that this carnival only accepts one submission per week from each blogger. For some of you that's going to be a serious problem. You have to pick your best article on biology.
Starts
Friday, May 2nd at 7:00 pm
Ends
Friday, May 2nd at 9:00 pm
Location
Centre for Inquiry Ontario, 216 Beverley St, Toronto ON (1 minute south of College St at St. George St)
Summary
Agnosticism, atheism and religious scepticism have a longer history in western thought than is often recognized. I survey the history of such thinking in the ancient Greek philosophical tradition from the 5th century BCE to the 2nd century CE. The views surveyed include arguments against the anthopomorphism of popular religion, explicit agnosticism, naturalistic explanations of the origin of religion, arguments that truly divine beings would be indifferent to human doings and sufferings, and sceptical attacks on the most common arguments for the existence of gods.
Brief biography of David Hitchcock
David Hitchcock is professor of philosophy at McMaster University in Hamilton, Canada. Born in 1942 in England, he was brought by his parents to Hamilton at the age of 5 and has lived there ever since, except for a year in England as a child and four years in California as a graduate student. His research falls into three main areas: the philosophy of argument, ancient philosophy, and the history of logic. He is the author of a textbook on critical thinking, as well as co-author of a textbook on logic and critical thinking in medicine. He has also co-edited a volume of original papers on the use of the "Toulmin model" for the analysis and evaluation of arguments. He is the author of dozens of book chapters, journal articles and conference proceedings papers. They deal with such topics as the evaluation of inferences, the concept of relevance, practical reasoning, the effectiveness of computer-assisted instruction in critical thinking, Plato's conception of the good, the relation between fallacies and formal logic in Aristotle's thought, Aristotle's theory of argument evaluation, the reconstruction of Stoic propositional logic, and the Polish version of Alfred Tarski's classic paper on the concept of logical consequence.
Dr. Hitchcock received his B.A. in Honours Philosophy in 1964 from McMaster University and his Ph.D. in philosophy in 1974 from Claremont Graduate School in Claremont, California. His Ph.D. dissertation dealt with the role of myth in Plato's dialogues and its relation to rational argument. He has been a full-time faculty member at McMaster since July 1968.
Dr. Hitchcock was the founding president (1983-85) of the Association for Informal Logic and Critical Thinking, an international scholarly association, and is currently serving a two-year term (2007-09) on its board.
Dr. Hitchcock has been a member of the New Democratic Party of Canada since 1963. He was the NDP candidate for Member of Parliament in the constituency of Hamilton -Wentworth in three federal elections, in 1979, 1980 and 1984. He is currently membership organizer in the Ancaster -Dundas -Flamborough -Westdale New Democratic Party Provincial Riding Association. He is also the official agent of Gordon Guyatt, who has been nominated as the NDP candidate in the constituency of Ancaster -Dundas -Flamborough -Westdale in the next federal election.
He is married and has two daughters, one stepson and four granddaughters.
$5 regular, $4 general, FREE for Friends of the Centre