An Unusual Science Conference

 

An unusual science conference was held recently in Azeroth. Many of you, like me, who know where Azeroth is. It's the virtual world of World of Warcraft. There were more than 200 people in attendance.

The three days of meetings were packed full of interesting discussion about science, or so I'm told. What was most exciting were the social events, culminating on the last day when all of the participants died in a mass attack on an enemy fortress. I've never been to a science conference that was quite like that.

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Gunther Stent (1924 - 2008)

 
Gunther Stent was one of the leading figures in the 'phage group, a group of molecular biologists who transformed the science of biology back in the 1940's, '50's, and 60's. He died on June 12th [Gunther Stent, an Early Researcher in Molecular Biology, Is Dead at 84].

Today's Citation Classic from John Dennehy is the book The Molecular Biology of Bacterial Viruses by Gunther Stent. In keeping with his main theme, John often uses the citation classic to highlight the influence of past scientists and not necessarily the significance of a single paper. Stent's name is not associated with any one experiment, or even a series of experiments. His influence extended well beyond his ability to do important experiments.

I first encountered Gunther Stent at the annual 'phage meeting held at Cold Spring Harbor every summer. I learned pretty quickly that he thought on a different plane than the rest of us. I also observed first hand the respect he earned from other famous biologists. At the time I was just a graduate student, I'm certain that Gunther Stent was unaware of my existence.

Later on I began to read Stent's articles on the history and philosophy of biology and I was greatly influenced by his writing.¹ Stent had an amazing ability to sift through the garbage and get to the heart of an argument; especially if that meant going against the perceived wisdom of his intellectual peers. Here are two examples from THE DILEMMA OF SCIENCE AND MORALS published in Zygon in March 1975. Stent is discussing contradictions between modern science and Western moral traditions.

The first example we might consider concerns the teaching of evolution in the public schools, which evidently has come a long way from the days of the Scopes Monkey Trial in Tennessee half a century ago. In 1972 the Curriculum Commission of the California State Board of Education held hearings in response to the demand of some Christian fundamentalist groups that in the officially approved biology textbooks the biblical account of Creation ought to be presented on an equal footing with the Darwinian view as an explanation of the origin of’ life and of the species. Although much of the argument before the Commission pertained to the question of whether the theory of evolution is merely an unproven speculation, as alleged by the fundamentalists, or a solidly documented scientific proposition, as claimed by the biologists, the deeper point at issue was religious freedom.

For the fundamentalists held that a Christian child in a tax supported school has as much right to be protected from the dogmas of atheism as an atheist child has to be protected from prayer. Hence, it would follow that the classroom teaching of Darwinism as the only explanation of biocosmogony is an infringement of the religious freedom of Christian parents to raise their children in the faith of their choice. This argument seems completely justified, whether or not it is true as claimed in pro-Darwinian testimony at the hearings by liberal, apologist clergymen that one can be a good Christian without taking the biblical account of Genesis all that literally. After all, the fundamentalist faith is to take the Bible literally. But the inference that follows from admitting the justice of the fundamentalist claim is not that biology texts should give Genesis equal time with evolution. Rather, it is to be concluded that no public school system can operate effectively in a heterogeneous social setting without having its curriculum prejudice the minds of the pupils against the cherished beliefs of some of the citizens. In other words, in this case the ultimate Christian ethical aim of freedom and individual rights has to give way to the pagan aim of mounting a pedagogically effective society.

The second example is much more controversial, yet the logic is impeccable. This is not the sort of thing that modern liberals (I am one) want to hear, but the very fact that they cover their ears and chant nonsense verses at the top of their lungs is the problem that Stent addresses. Most of us don't realize that the conflict between science and culture is much deeper than the fight between scientist and Biblical literalists would suggest. If you are going to adopt the positions of science and rationalism then there are some implications that may be hard to confront. Sweeping them under the rug, as many try to do, is hypocritical.

We may now consider the ethical conflicts surrounding two applications of human genetics. One of these is the very troublesome matter, at least for present-day American society, of the heritability of intelligence and in particular of the problem whether there exist significant racial differences in intelligence genotype. On the one hand, it seems reasonable to think that if there is a significant variation in the genetic contribution to intelligence between individuals, or between racial groups, then this factor ought to be taken into account in the organization of society. But, on the other hand, the mere acknowledgment of the existence of this factor, let alone taking it into account in social action, seems morally inadmissible, a scientistic underpinning of racist ideology. An excellent exposition of this problem was recently provided by W. Bodmer and L. L. Cavalli-Sforza, who show that the heritability of intelligence, unlike extrasensory perception and telepathy, is a genuine scientific proposition.

First, it is possible to obtain a meaningful measure of intelligence through IQ tests, at least insofar as the concept of intelligence applies to the capacity to succeed in the society in whose contextual setting the tests are given. Second, there do exist significant differences in IQ between individuals and between social and racial subgroups. Third, it is possible, at least in principle, to perform studies that can ascertain the relative contribution of genetic and environmental factors to the observed differences in IQ. Bodmer and Cavalli-Sforza find that there is sufficient evidence at present to make it very likely that within a socioeconomically homogeneous group heredity does make a significant contribution to extant differences in IQ. When it comes to the considerably lower mean IQ of American blacks, however, they conclude not only that the currently available data are inadequate to ascertain whether this fact is attributable mainly to hereditary or mainly to environmental differences, but “that the question of a possible genetic basis for the race IQ differences will be almost impossible to answer satisfactorily before the environmental differences between U.S. blacks and whites have been substantially reduced. . . .” Finally, “[since] for the present at least, no good case can be made for [studies on racial IQ differences], either on scientific or practical grounds, we do not see any point in particularly encouraging the use of public funds for their support. There are many more useful biological problems for the scientist to attack.”

In my opinion, this recommendation, which trivializes the problem scientifically, amounts to taking the easy way out from a serious dilemma. What if, as Bodmer and Cavalli-Sforza admit could be true, there does exist a significant genetic contribution to the mean IQ differences found between blacks and whites? They think that this “should not, in a genuinely democratic society free of race prejudice, make any differene.”’~ But if the races really differed hereditarily in intelligence, then racism would not be a “prejudice” but a true perception ofthe world and one of which a rational society ought to take account. For instance, in this case, the black-white disparities in socioeconomic levels would not reflect discrimination at all but merely an underlying biological reality. And hence the aim of an egalitarian, multiracial society would be just another unattainable, utopian dream. We thus encounter another Machiavellian contradiction between the two incompatible ethical systems of our heritage. The pagan ethics of communal purpose, which science serves, would demand that every effort be made to ascertain whether the member races of a multiracial society do in fact differ hereditarily in their intelligence. But the Christian ethics of ultimate values, which inspire science, holds racism to be an absolute evil in that it is subversive of the fundamental concept of the freedom and responsibility of the human soul. Hence, these ethics demand an uncompromisingly hard line against research on race intelligence. Since there must not be any hereditarily determined racial differences in intelligence, research that entertains the possibility of such differences is a priori evil.

In today's world we need more Gunther Stent's, not fewer.

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1. Incidentally, I'm currently reading Richard Dawkin's anthology of Modern Science Writing. Stent is not in that book but, then again, neither are many other scientists who should be there. It's probably no coincidence that most of those scientists express opinions that differ from those of Richard Dawkins.

[Photo Credit: Left-to-right: Esther Lederberg, Gunther Stent, Sydney Brenner and Joshua Lederberg. From Wikipedia : "The original photo is owned by the Esther M. Zimmer Lederberg Estate. With the permission of that Estate's Trustee, Matthew Simon, I have adapted the photo for free use."

You've Been Left Behind

 

You've Been Left Behind is a very special website.

If you are sure that you've led a good Christian life then you can expect to be raptured. This could happen at any time. What about the friends and relative you leave behind? You've Been Left Behind will automatically send out email messages telling everyone where you've gone. It might give them one last chance.

We all have family and friends who have failed to receive the Good News of the Gospel.

The unsaved will be 'left behind' on earth to go through the "tribulation period" after the "Rapture". You remember how, for a short time, after (9/11/01) people were open to spiritual things and answers. (We are still singing "God Bless America" at baseballs' seventh inning stretch.) Imagine how taken back they will be by the millions of missing Christians and devastation at the rapture. They will know it was true and that they have blown it. There will be a small window of time where they might be reached for the Kingdom of God. We have made it possible for you to send them a letter of love and a plea to receive Christ one last time. You can also send information based on scripture as to what will happen next. Each fulfilled prophecy will cause your letter and plea to be remembered and a decision to be made.

"WHY" is one last chance to bring them to Christ and snatch them from the flames!

How does it work?

We have set up a system to send documents by the email, to the addresses you provide, 6 days after the "Rapture" of the Church. This occurs when 3 of our 5 team members scattered around the U.S fail to log in over a 3 day period. Another 3 days are given to fail safe any false triggering of the system.

We give you 150mb of encrypted storage that can be sent to 12 possible email addresses, in Box #1. You up load any documents and choose which documents go to who. You can edit these documents at any time and change the addresses they will be sent to as needed. Box #1 is for your personal private letters to your closest lost friends and relatives.

We give you another 100mb. of unencrypted storage that can be sent to up to 50 email addresses, in Box #2. You can edit the documents and the addresses any time. Box #2 is for more generic documents to lost family & friends.

The cost is $40 for the first year. Re-subscription will be reduced as the number of subscribers increases. Tell your friends about You've Been left behind.

I can foresee a few problems. What if three of the five Christians don't get raptured in spite of the fact that they've led a good Christian life? Maybe God will punish them for trying to scam their fellow Christians? Wouldn't that be a bummer? We might go for a week or so before noticing that some people were missing and by then it may be too late to recant.

What happens if all the ISP technical people get raptured and the server goes down within 48 hours? Have they thought of that? They should make sure that everyone working for the ISP is a heathen and/or an extremely disreputable person. That should also be a requirement for airline pilots, police, and lawyers doctors. We're gonna need them.

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[Hat Tip: RichardDawkins.net]

[Image credit: The cartoons are from There's a New World Coming by Hal Lindsey. Thanks to Brian Larnder of Primordial Blog for bringing it to my atention (Hallucinogenic Christian Comic). Apparently Brian used to read, and believe, these comics when he was little.]

Nobel Laureates: Gerald Edelman and Rodney Porter

 

The Nobel Prize in Physiology or Medicine 1972.

"for their discoveries concerning the chemical structure of antibodies"

Gerald M. Edelman (1929 - ) and Rodney R. Porter (1917 - 1985) received the Nobel Prize in Physiology or Medicine for elucidating the structure of immunoglobulins (antibodies). They determined that immunoglobulins were composed of two heavy chains and two light chains. There are three domains in the molecule. Two of them form binding sites for antigens and the third one links the two heavy chains together.

Edelman and Porter founded the field of molecular immunology, a field that today encompasses hundreds of labs. If you count all the clinical immunologists and cellular immunologists, there are as many immunology labs in the world as there are biochemistry labs. That was not true in the 1950's when Edelman and Porter began their work.

The presentation speech was in Swedish by Professor Sven Gard of the Karolinska Medico-Chirurgical Instit.

THEME:
Nobel Laureates

Your Royal Highnesses, Ladies and Gentlemen,

Immunebodies or antibodies is the designation of a group of proteins in the blood, that play an important part in the defense against infections and in the development of many different diseases. Their perhaps most characteristic property is the capacity to react and combine with substances, foreign to the organism, so-called antigens and to do so in a highly specific manner. There probably exist more than 50,000 different antibodies in the blood, each of them reactive against one particular antigen. Their main features are similar but they show individual characteristics and constitute, therefore, an extremely heterogeneous group. Since, in addition, they appear as very large molecules of a complex structure, it is understandable that the study of their chemistry for a long time offered great difficulties.

Up to 1959 the knowledge about their nature and mechanism of action was rather incomplete. That same year, however, Edelman and Porter separately and independently published their fundamental studies of the molecular structure of antibodies. Both of them had aimed at splitting the giant molecule into smaller, well defined fragments that might be more easily analysed than would the whole complex.

Porter's aim was to separate those parts of the antibody which are responsible for their specific reactivity. He hoped by this means to obtain a preparation lacking most of the biologic functions of the antibody but, on account of its capacity of combination, capable of competing with the antibody for the binding sites of the antigen. He succeeded in achieving this by means of treatment of the antibody, under strictly controlled conditions, with a protein-splitting enzyme called papain. By this treatment the antibody split into three parts. Two of these could combine specifically with the antigen and they were almost identical in other respects as well. The third fragment differed distinctly from the others, lacked binding capacity but possessed certain other biologic characteristics of the intact molecule.

Edelman for his part assumed the molecule, like those of many other proteins, to be composed of two or more separate chain structures held together by cross links of some kind, most probably so-called sulphide bonds. His assumption turned out to be correct. By means of a fairly rough treatment he was able to sever the cross bonds and release a number of separate chain molecules. Both he and Porter could later show that the antibody was in fact composed of four chains, one pair of identical, "light" chains and one pair of like- wise identical, "heavy" chains.

On the basis of the collected evidence Porter built a model of the molecule which has later, with overwhelming probability, been proven correct.

Accordingly the antibody molecule appears in the shape of the letter Y, with a stem and two angled branches. Each branch is composed of one light and one half of a heavy chain in side by side arrangement. The stem is made up of the remaining halves of the heavy chains. The specific combining capacity is accounted for by the structure of the free tips of the branches and in like measure by the light and the heavy chain; separately they are inactive. Porter's papain treatment attacks the molecule exactly at the point of branching and splits off the branches from the stem.

These discoveries incited an intense activity in laboratories in the four corners of the world. Apparently there existed a latent need for immunochemical research that could not be satisfied until today's prize winners had opened the way and provided the means. During the two decades that have since past our knowledge about the processes of immunity has broadened and deepened to an extent that perhaps has not yet been fully appreciated, even by some specialists in closely related fields. Many novel and fascinating aspects on problems in the fields of molecular biology and genetics have grown out of the immunochemical studies. We have now a new and firmer grasp of the question of the role of immunity as defense against and as cause of disease. Our possibilities to make use of immune reactions for diagnostic and therapeutic purposes have improved. It is, thus, a very important pioneer contribution that has been rewarded with this year's prize in physiology or medicine.

Gerald Edelman, Rodney Porter,

By clarifying the principal chemical structure of immunoglobulins you achieved an extremely important break-through in the field of immunochemistry. You, so to speak, opened the sluice-gates and gave impetus to the flood of research that soon started gushing forth, irrigating previously arid land, making it fertile and producing rich harvests. By awarding you the prize in 'physiology or medicine the Karolinska Institute has recognized the great significance of your accomplishments for biology in general and medicine in particular. On behalf of the Institute I wish to express our admiration and extend to you our heart-felt felicitations.

Now I ask you to proceed to receive your prize from the hands of His Royal Highness the Crown Prince.

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[Image Credit: The cartoon of an immunoglobulin molecule is from the Genetics Home Reference website of the National Institutes of Health (USA).]

How long does it take to synthetize a molecule of leucine anyway?

Bora Zivkovic asked this question on A Blog Around the Clock: How long does it take to synthesize a molecule of leucine anyway?.

A dozen or so years ago, I drove my Biochemistry prof to tears with questions - she had 200 people in front of her and she tried hard to make Biochem interesting enough not to get us all bored to tears, and she was pretty good at that, as much as it is possible not to make people bored to tears with Biochem. But my questions exasperated her mainly because she could not answer them, because, as I learned later, the field of biochemistry was not able to answer those questions yet at the time: questions about dynamics - how fast is a reaction, how long it takes for a pathway to go from beginning to end, how many individual molecules are synthesized per unit of time?, etc.

Bora, I'm sorry your Professor wasn't able to answer your questions. The answers have been known for decades. Perhaps she didn't know the answers, or perhaps there was another reason why she didn't answer.

The rate of enzymatic reactions is part of the field of enzyme kinetics. The material is usually covered in introductory biochemistry. The particular value you were looking for is called the catalytic constant, k_cat. It represents the number of moles of substrate converted to product per second per mole of enzyme under saturating conditions. In other words, it's the maximum speed of an enzyme. This is also called the turnover number.

Typical values for most enzymes are between 10² and 10³. What this means is that a given enzyme can catalyze between 100 and 1000 reactions per second.

A metabolic pathway in cells is a series of reactions where a substrate is converted to a product in several steps. The pathway for leucine biosynthesis is well known. It begins with pyruvate, which is converted in three reactions to α-ketoisovalerate. That intermediate can be converted directly to valine or it can serve as the substrate for a series of four reactions leading to leucine.

All of the enzymes have been studied. I'd have to look up all of the k_cat values to give you a precise answer but it's easy to give a reasonable estimate.¹

Biochemical pathways operate, for the most part, under near-equilibrium conditions. What this means is that there is a steady state concentration of all reactants in the pathway. These concentrations correspond to the equilibrium values for each reaction.

The flux in a pathway depends on how quickly the end product is utilized. Under normal conditions leucine will be used up in protein synthesis at a nearly constant rate but that rate might rise if the cell is growing rapidly and it might fall if the cell is starved for nutrients. When leucine synthesis is required, for whatever reason, it's maximum rate of synthesis will be equal to the turnover number of the slowest enzyme in the pathway.

You can safely assume that this will be between 100 and 1000 molecules per second per enzyme. That's the answer you should have been given. In a big mammalian cell growing in tissue culture there will be lots and lots of enzyme and the flux could be a million molecules per second. It will be much less in smaller cells that are not growing.

The key to understanding metabolic pathways is to appreciate that there is a pool of leucine in the cell and a pool of the last intermediate. These pools of metabolites are at steady-state concentrations and the enzyme is constantly making leucine and converting leucine back to the intermediate because that's what happens under equilibrium conditions. The rates of the forward and reverse reactions are equal, and fast.

As soon as the leucine pool is depleted there will be some net synthesis of leucine made from the pool of the last intermediate to restore the steady-state equilibrium concentrations. The rate of this reaction is very rapid.²

Then the pool of the last intermediate is replenished from the second-last intermediate etc. etc. All of these reactions are rapid. Most students seem to think that there are no intermediates and when leucine is needed the enzymes have to grab a pyruvate molecule and run through the entire pathway to make a new molecule of leucine. Such a pathway is impossible.

Well, the field is starting to catch up with my questions lately - adding the temporal dimension to the understanding of what is going on inside the cell. In today's issue of PLoS Biology, there is a new article that is trying to address exactly this concern: Dynamics and Design Principles of a Basic Regulatory Architecture Controlling Metabolic Pathways:

That's an interesting paper but it doesn't answer any of your questions.

The paper address the induction of enzymes in yeast. When yeast cells grow in the presence of leucine they turn off synthesis of the pathway enzymes because there's no need to synthesize leucine when it's available in the medium. If you then shift the cells to leucine free medium they will begin to make the leucine pathway enzymes. It takes about one hour to make signifcant amounts of enzyme.

Enzyme induction has been studied for over 50 years. The diagram below is from Monod's Nobel Lecture of 1965. The current PLoS paper adds some information to this field but, with all due respect, it is not a breakthrough and it does not answer fundamental questions in biochemistry that were unknown when you were a student. You may not have been aware of kinetic studies when you were a student but that's a reflection on the quality of your education and not on what was known in biochemistry at the time.

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1. Perhaps your biochemistry Professor didn't want to spend the time looking up all the details? Whenever I get a question like that I assign the task to the student. It's a good exercise for them to search through the scientific literature to find the answer to their own question. It also helps them appreciate why their Professor may not have had the answer at her fingertips.

2. For the sake of simplicity, I'm ignoring regulation. Some enzymes in the pathway might be regulated in which case the steady-state concentrations might not correspond to the equilibrium concentrations. This doesn't make much difference when it comes to addressing Bora's questions.

Wordle

 
Eva Amsen is writing her thesis. It is very easy to get distracted when you are writing your thesis—everyone needs a break from time to time. Eva found a fabulous website while she was surfing the net looking for references to put in her thesis and she blogged about it on [Expression Patterns].

The website is called Wordle. Here's what it does ...

Wordle is a toy for generating “word clouds” from text that you provide. The clouds give greater prominence to words that appear more frequently in the source text. You can tweak your clouds with different fonts, layouts, and color schemes. The images you create with Wordle are yours to use however you like. You can print them out, or save them to the Wordle gallery to share with your friends.

I fed it my essay on What Is a Gene? and here's what it gave me ...

Each time you try you get a different configuration of words so it's worthwhile to experiment a bit in order to get a pleasing layout. You can change fonts, colors, background and other things afterwards. Isn't this great?

Here's how Wordle handles another essay Evolution by Accident.



Here's another example with Theistic Evolution: The Fallacy of the Middle Ground.


This is so much fun. It must be bad for you. Send me your favorite Wordles, they must be created from something you wrote.

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With or Without God

 
Come to the Centre for Inquiry's lecture by Gretta Vosper.

With or Without God: Why the Way We Live is More Important than What We Believe

Starts: Friday, June 20th at 7:30 pm
Ends: Friday, June 20th at 9:30 pm
Location: Centre for Inquiry Ontario, 216 Beverley St, Toronto ON (1 minute south of College St at St. George St)

Lecture and Book Launch:
Gretta Vosper, United Church Minister at West Hill United Church, Toronto, and founder and Chair of the Canadian Centre for Progressive Christianity

In Gretta Vosper's church there are no prayers, no miracles-performing magic Jesus and no omnipotent God at all. Vosper's book argues that the Christian church, in the form in which it exists today, has outlived its viability and either it sheds its no-longer credible myths, doctrines and dogmas, or it's toast. With a humanist worldview, Vosper proposes a radical change at the heart of faith. The new church she envisions will play a viable and transformative role in the shaping of a future society. What will save the church from certain demise, Vosper argues, is a new emphasis on just and compassionate living.

A catered receptions shall precede the talk at 6pm exclusively for Friends of the Centre.

Canadian Centre for Progressive Christianity:

MacLeans Magazine coverage "The Jesus Problem":

Globe and Mail coverage "Taking Christ Out of Christianity"

Cost: $6 general, $4 students, FREE for Friends of the Centre

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Monday's Molecule #76

 
Name this molecule, being as specific as you can.

There's a direct connection between today's molecule and a Nobel Prize. The prize was awarded for discovering the basic structure of the molecule, although not at the level of detail depicted here. That came later.

The first person to correctly identify the molecule and name the Nobel Laureate(s), wins a free lunch at the Faculty Club. Previous winners are ineligible for one month from the time they first collected the prize. There are four ineligible candidates for this week's reward. You know who you are.

THEME:

Nobel Laureates
Send your guess to Sandwalk (sandwalk (at) bioinfo.med.utoronto.ca) and I'll pick the first email message that correctly identifies the molecule and names the Nobel Laureate(s). Note that I'm not going to repeat Nobel Laureate(s) so you might want to check the list of previous Sandwalk postings by clicking on the link in the theme box.

Correct responses will be posted tomorrow. I may select multiple winners if several people get it right.

Comments will be blocked for 24 hours. Comments are now open.

UPDATE: The molecule is immunoglobulin G (IgG) and the Nobel Laureates are Gerald Edelman and Rodney Porter (1972). The first correct answer was from Jon Turnbull who beat everyone else by more than one hour! Honorable mention (and a free lunch) goes to Haruhiko Ishii of UCSD. Not only did he identify the molecule as IgG, he also showed that it was very likely to be Mab231, a mouse monoclonal anti-canine lymphoma antibody composed of IGg2a heavy chains and κ light chains [PDB 1IGT].

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Café Scientifique and Nature Network Pub Night

 
CAFÉ SCIENTIFIQUE PRESENTS
The future of medicine: help, hope or hype? (download the poster)

What lies in the future for medicine and health care? Over the next 50-100 years, how will we conquer illnesses and stay healthy? Join the discussion and debate at the next Café Scientifique, The future of medicine: help, hope or hype?, where experts will peek at the potential for robotics, genomics, alternative therapies and personalized medicine to cure our ills.

Experts:

• Dr. Tony Pawson – Distinguished Investigator, Samuel Lunenfeld Research Institute of Mount Sinai Hospital
• Karl Schroeder – Science fiction author and futurist
• Dr. Calvin Gutkin – Executive Director and CEO, The College of Family Physicians of Canada

Wednesday, June 18, 2008, from 6 to 8pm
Duke of York Pub – ground floor
39 Prince Arthur Avenue -Close to the St. George subway (Bedford exit)

FREE

Presented by the Samuel Lunenfeld Research Institute of Mount Sinai Hospital and Ontario Science Centre, with generous support from Canadian Institutes of Health Research.

Café Scientifique is a place where, for the price of a cup of coffee or a pint of beer, anyone can join discussions that explore the latest ideas in science and technology.

The members of the Toronto hub of Nature Network will meet afterwards in the Duke of York (same place as Café Scientifique) [see Eva Amsen's posting on easternblot]. You get two stimulating meetings for the price of one (i.e. free!).

If you haven't yet joined the Toronto hub of Nature Network you should sign up here. Current members of the Toronto hub are here.

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Kansas vs Darwin

 
Jeff Tamblyn, the director of Kansas vs Darwin will be in town this week for the ReelHeART International Film Festival. The film will be shown on Thursday evening. Here's the trailer, details below ...

Kansas vs. Darwin screening Thursday, June 19, 7:00 PM
ReelHeART International Film Festival
RHIFF MAIN PROGRAM B Tickets $8
INNIS THEATER 222
Innis College, University of Toronto
2 Sussex Avenue [1 block south of Bloor Street, on St. George Street]
Toronto, ON M5S 1J5
Advance Sales on line April 21, 2008 at www.reelheart.com

Kansas vs. Darwin
Director, Jeff Tamblyn, USA

Kansas vs. Darwin is a smart, funny, feature-length documentary about the Kansas state school board hearings on evolution. Features intimate revealing interviews with all major players on both sides, and exclusive, multi-camera footage of the hearings. Far more than a political film, Kansas vs. Darwin skillfully weaves multiple themes into a gripping dialectic, putting you face to face with, and inside the heads of, those who oppose your most closely held beliefs. Challenging and entertaining, it’s packed with fascinating characters who will leave you in admiration and astonishment, embarrassment and exasperation, as they feverishly pursue their goals, sometimes stumbling over their own eagerness in the attempt to win the most important battle of their lives.

I'm going. Contact me if you plan to attend and you want to meet up for dinner before the show.

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Fernando

 
Fernando was one of ABBA's biggest hits. There's a lot of debate about which war it refers to. The song mentions crossing the Rio Grande and that prompts many people in America to think of the Mexican revolution of 1910-1920. However, there aren't many examples of fighting that took place near the Rio Grande and there aren't too many examples of revolutionaries who crossed into Mexico from the USA.

Most people assume the song is about the Spanish civil war and the reference to the Rio Grande is just a generic reference to a river. Keep in mind that ABBA is a European group and the Spanish Civil War is still fresh in the memories of many europeans. For many it was glorious, but losing, fight against fascism.

The song refers to Fernando, a man who fought on the losing side against tyranny and fascism. Fernando was a revolutionary and a guerrilla fighter. He is now old and gray like many of the freedom fighters from all over Europe who went to Spain in the 1930's.

John McCain likes ABBA. I hope he appreciates that this song is about people who fought to defend their country from foreign domination. (Franco was supported by Hitler and Mussolini.)

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Bias Against Female First-Author Papers

 
This is a follow-up to a posting back in January where I mentioned a recently published article by Budden et al. (2008) [see Bias Against Women?]. That article claimed to show evidence of a systematic bias against papers with women as first authors. The bias was mitigated when a particular journal switched to a double-blind reviewing system. This resulted in a significant increase in the number of published papers with women as first authors.

I was first alerted to the problem when GrrlScientist posted a favorable review of the paper, agreeing with the conclusion that journal reviewers were biased against papers with female first authors [Women, Science and Writing].

My first reaction was skeptical. These are biology papers and it didn't seem plausible that reviewers would be biased against papers with female first authors. There might possibly be a bias against papers from a lab run by women but that's not the same thing. In the biological sciences the principle investigator is often the last author and not the first. Furthermore, in my experience there wasn't any discrimination against female scientists at this level (publication). Half of our graduate students are women—why would we be biased against papers with one of them as first author? The study just didn't make sense.

Many Sandwalk readers interpreted my skepticism as an attempt to dismiss all forms of sexism in science. That was not my intent. Far from it, in fact, because I was very much aware of a particular case of sexism that greatly troubled me. What makes me angry is that I know of overtly sexist behaviors that are not challenged by scientists in the same department who are, themselves, not sexist. The subject of sexism came up at SciBarCamp in February where there was a session organized by physics professors to discuss sexism in physics departments. There seems to be a major problem in physics.

If you read the comments in my January posting you'll see how difficult it was to separate out the issue of whether the particular study on double-blind reviews was a legitimate scientific study, and whether sexism is common in science.

At the risk of encountering the same problem again, let's look at some recent events. A re-analysis of the original publication data has been published by Webb et al. (2008). They looked more carefully at the data from journals with double-blind review and from comparable journals that identify the authors. They found that the number of papers with women as first authors showed a general increase in most journals. The trend in the journal that initiated double-blind review back in 2001 was not significantly different. Thus, they conclude that there's no evidence of systemic bias against female first authors.

This is one of the points that I mentioned in the comments to my January posting but several other readers dismissed it. They implied that any attempt to question the data in the original paper was, itself, sexist.

The following correction appeared in the last week's (June 4th) issue of Nature.

The Editorial 'Working double-blind' (Nature 451, 605–606; 2008) referred to a study(1) that found more female first-author papers were published using a double-blind, rather than a single-blind, peer-review system. The data reported in ref. 1 have now been re-examined (2). The conclusion of ref. 1, that Behavioral Ecology published more papers with female first authors after switching to a double-blind peer-review system, is not in dispute. However, ref. 2 reports that other similar ecology journals that have single-blind peer-review systems also increased in female first-author papers over the same time period. After re-examining the analyses, Nature has concluded that ref. 1 can no longer be said to offer compelling evidence of a role for gender bias in single-blind peer review. In addition, upon closer examination of the papers listed in PubMed on gender bias and peer review, we cannot find other strong studies that support this claim. Thus, we no longer stand by the statement in the fourth paragraph of the Editorial, that double-blind peer review reduces bias against authors with female first names.

I believe that Nature has done the right thing in retracting their earlier claim. The problem of sexism in science is serious and needs to be addressed. But it doesn't do anyone any good if one side is supporting their claims with sloppy science. It would be good if we could get beyond that.

It may not be easy. The authors of the original paper have published a critique of the re-analysis (Budden et al. 2008b). They dispute the re-interpretation although they admit that their analysis is subject to different interpretations.

If the original paper was any other kind of scientific paper the criticism would be harsh. It will be interesting to see if any of the original strong supporters of the claim of sexist bias against female first authors are willing to reconsider their position on that particular issue.

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[Hat Tip: R. Ford Dennison]

Budden, A., Tregenza, T., Aarssen, L., Koricheva, J., Leimu, R. and Lortie, C. (2008a) Women, Science and Writing. Trends in Ecology & Evolution, 23(1), 4-6. [PubMed] [doi:10.1016/j.tree.2007.07.008] (ref 1.)

Budden, A.E., Lortie, C.J., Tregenza, T., Aarssen, L., Koricheva, J., and Leimu, R. (2008b) Response to Webb et al.: Double-blind review: accept with minor revisions. Trends in Ecology and Evolution [doi:10.1016/j.tree.2008.04.001]

Webb, T. J., O'Hara, B. and Freckleton, R. P. (2008) Does double-blind review benefit female authors? Trends in Ecology and Evolution [doi:10.1016/j.tree.2008.03.003] (ref 2.)

Alex Palazzo in Toronto

 
Alex Palazzo of The Daily Transcript has been in Toronto for the past few days. We were able to get together for lunch on Wednesday and for some light liquid refreshments on Wednesday evening. It should come as no surprise that we were able to find several things we agree on and several more that we don't. It was a lot of fun. (I made a bet with Alex on Wednesday evening. He'll reveal it on his blog. He will lose.)

Yesterday's departmental seminar was very impressive. Alex has a nice story to tell about targeting mRNA to the endoplasmic reticulum. He has also discovered an unusual pathway for exporting certain mRNAs from the nucleus. This pathway seems to be specific for those mRNAs that encode secreted proteins.

I think everyone in the department was impressed. Maybe he'll be my colleague next year.

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Alex Meets Toronto Bloggers

 
Alex Palazzo of The Daily Transcript met with Eva Amsen of easternblot, John Dupuis of Confessions of a Science Librarian, and Phillip Johnson of Biocurious.

Eva posted photos and a description of what they talked about [Science Bloggers].

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Friday the 13th in Port Dover

 
It's Friday the 13th and the bikers are gathering in Port Dover. This year they're hoping to set a new Guinness record for the most bikes (>10,000).

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