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Saturday, December 08, 2007

The Nathaniel Abraham Affair

 
Nathaniel Abraham was a post-doc in a lab working on zebrafish development. He was fired because he revealed after he was hired that he does not believe in evolution.

Almost every scientist agrees that this was proper [Slackjawed creationist surprised at his own incompetence at a scientific job]. You can't work in a field that requires an understanding of evolution if you don't accept the fundamental scientific fact of evolution.

However, knowing what's right scientifically isn't the same as winning a case in court. The creationists are more than happy to take this to court because they get a lot of traction from portraying the scientific establishment as a bunch of bigots who discriminate against religion.

John Pieret looks at the court case [The Other Guy's Court]. This may get complicated. It could easily turn into a situation where justice and the law turn out to be different things.

I don't think lawyers should be deciding what's proper science and what's not—that includes Dover—but I can't see any way out of this quagmire as long as there's confusion about the differences between science and religion.


Impending Canadian Copyright Legislation Could Be Disasterous

 
The Government of Canada has served notice that it intends to amend Canadian copyright law to bring it more into line with international standards. The goal has widespread support but the proposed legislation goes too far. The Conservative government is looking at changes that mimic the American Digital Millennium Copyright Act (DMCA) [What Is DMCA and Why Should We Care?].

Industry Minister Jim Prentice (see photo) is the man behind this obnoxious legislation.

A consortium of 92 Canadian Colleges and Universities has issued a statement opposing many of the proposed changes (Association of Universities and Colleges of Canada, AUCC). You can read the entire document at AUCC SUBMISSION TO THE MINISTERS OF INDUSTRY AND CANADIAN HERITAGE CONCERNING COPYRIGHT LAW REFORM.

This is the part that refers to new laws governing internet service providers (ISPs) such as universities and colleges.
One legislative option to address this issue would be to introduce a “notice and notice” system under which an ISP must forward to its user an allegation by a copyright owner that material on the user’s web site infringes copyright. The ISP would be required to take steps to remove the material from the hosted web site only after there has been a finding of infringement by a court and the issuance by the court of a removal order. If an ISP failed to take the steps mandated by the court order, it would be liable for authorizing infringement. This "notice and notice" approach is the existing industry practice of ISPs in Canada and has worked well for both rights holders and for ISPs. The "notice and notice" approach is supported by the Canadian Association of Internet Providers, representing major Canadian ISPs.

An alternative legislative option promoted by some interests would see the introduction of a "notice and takedown" regime similar to the one set out in the Digital Millennium Copyright Act (DMCA) in the U.S. Under this approach, when an ISP is notified by a copyright owner that there is allegedly infringing material on a web site, the ISP must respond expeditiously to remove, or disable access to, the material that is claimed to be infringing. AUCC agrees with the view of the Canadian Association of Internet Providers that this approach has the serious disadvantage of putting ISPs in a "quasi-judicial" role that conflicts with the interests of the users of their services. A “notice and takedown” approach could create incentives for ISPs to take the path of least resistance by removing content without warning or evidence of actual infringement, and thereby harm freedom of expression. This is not a minor matter for universities given that many university faculty members maintain web sites, often related to the university courses that they teach and their research.
AUCC recommendation on the liability of ISPs for infringements by users of their services:

AUCC recommends that the Copyright Act be amended to codify a “notice and notice” system under which an ISP’s obligations would be to forward to its users any allegations of copyright infringement made by a copyright owner. An ISP should not be liable for infringing material that has been posted on a web site by a user of the ISP’s services unless, after a court has ruled that the material is infringing and orders its removal, the ISP fails to comply with the court order within a reasonable time.
This is important legislation that could have a serious impact on the internet in Canada. It's one time when we definitely do not want to copy the Americans as the present government is so fond of doing. People need to pay attention. Contact your Member of Parliament.

Read the links on Canadian Cynic [ Keep Those Cards and Letters Coming] for more information.


Junk DNA in the Toronto Star

 
Cameron Smith is an an environmentalist who lives Gananoque, Ontario (Canada). He was written more that 500 columns for the Toronto Star. Most of them are about nature. His latest column in today's Idea section caught my attention [Getting to the root of plant life].

The column seems to be heading in the direction of promoting the "intelligence" of plants (see below). There will be a followup column soon, according to Cameron Smith.

The part that disturbs me is the following,
However, with their mapping of the human genome, they [molecular biologists] discovered that humans carry only about 25,000 protein-coding genes. This was startling, because the simple nematode worm has about 19,000 such genes – and the human body is immeasurably more complex than a worm's. So, why didn't humans have a lot more protein-coding genes – genes that instruct proteins what to do?
I've addressed this point several times [Facts and Myths Concerning the Historical Estimates of the Number of Genes in the Human Genome, SCIENCE Questions: Why Do Humans Have So Few Genes?]. It's simply not true that all scientists were surprised by the number of genes we have. For many, this result was anticipated and it poses absolutely no problems in understanding biological complexity. There's no pressing need to look for some magic bullet.
To find answers, molecular biologists had to revise their notions of the genetic code. They knew that a huge number of genes in the human genome, making up more than 98 per cent of the genome, don't code protein. These they had previously dismissed as evolutionary leftovers, or junk DNA.

In an enormous turnaround, they began looking at these non-coding genes more closely and discovered they were not junk after all.
There's a lot of nonsense in those few sentences. The most important flaw is that the basic message is completely wrong. It is simply not true that molecular biologists have discarded the concept of junk DNA. The vast majority of molecular biologists know the facts; namely that >90% (probably more) of our genome consists of junk DNA. Just because there are a few renegade scientists who don't know any better does not make these facts disappear.
They had an extremely important function. A key to the mystery lay in the nature of complexity. There was no doubt protein-coding DNA was capable of creating complexity.

It could issue instructions for creating the legions of proteins that, in the case of humans, make up half their dry weight. But regulating the process was another matter. Without regulation, the results would be mostly chaotic.

In addition, as the complexity of organisms increased, the amount of regulation that was needed increased exponentially.

Regulation, it turns out, is the job of RNA (ribonucleic acid), located in the nucleus of cells along with DNA. It's from the so-called junk DNA that RNA gets regulatory instructions.

This revelation opened the intellectual floodgates, and put to rest the notion that life was ruled by a robotic DNA ritually coding proteins, much like a machine stamping out widgets.
Here are the scientific facts in a nutshell.
  • Scientists have known about regulatory sequences for at least fifty years. They were never, ever, thought to be junk DNA by any competent molecular biologist.
  • There is no evidence to support the half-baked notion that the amount of DNA sequence required for regulation of "complex" organisms (i.e., humans) is exponentially more than that required for regulation of "simple" organisms (i.e., nematodes). All available evidence shows that gene regulation in all multicellular species is very similar.
  • We've known about regulation by small RNA's since the 1970's. Nothing new there. There is no solid evidence to suggest that regulation of typical human genes requires RNA and much theoretical and experimental evidence against such an idea. Active imagination doesn't count in science. Scientists need real data before jumping to the extraordinary conclusion that human gene regulation is fundamentally different than other species.
  • One of the many reasons for accepting that only 2% of our genome is functional has to do with the concept of genetic load [Facts and Myths ...]. If junk DNA is full of genes encoding regulatory RNAs then we're in big trouble because mutation rates are going to kill us off pretty quickly.
Cameron Smith seems to be quite taken with the ideas of Anthony Trewavas at the Institute of Molecular Plant Science, University of Edinburgh (Edinburgh, UK). Trewavas has been writing papers promoting the idea that plants have a form of intelligence. He doesn't mean they have a brain, of course, what he means is that plants have a complex form of regulation that responds to the environment.

According to Trewavas, systems biology and computer modeling have revealed a level of complexity that scientists never suspected (Trewavas, 2006). Naturally, this totally unsuspected level of regulatory complexity has been hidden from those scientists who have adopted a reductionist approach to science.
Systems approaches enable plant scientists to understand the structural stability of plants, their control and design structure, and how these lead to robust and resilient behavior. These capabilities are the result of a complex biological system in which control operates at many different levels (Figure 1). Complexity is a serious biological problem, and it is likely that biological systems are the most complex known. Increasingly, scientists are going to have to depend on computational biologists to construct models that can then be tested back in laboratory conditions. However, as indicated here, laboratory conditions are only one environmental circumstance among many in which plant systems develop. In 10 years, my own estimate is that plant molecular research groups will be half modelers and half wet investigators producing new data for modelers.
I'm getting a little tired of this sort of rhetoric. Systems biology, properly defined, can be a very useful approach to a problem but turning it into a religion isn't going to help. I'm content to wait and see whether the systems biologists are actually going to deliver something (other than rhetoric) before jumping on that bandwagon.

Trewavas believes in the power of information theory (IT). This faith him to conclude that plants have a form of intellignece (Trewavas, 2005a, 2005b, 2003).

This idea of intelligent plants should not be taken literally. Trewavas clearly means it to be controversial and clearly understands that it is a metaphor. However, the concept is based on an false premise, in my opinion. The premise is that there is a complex sophisticated (and largely undiscovered) regulatory circuit in plants that allows them to behave as though they were responding to the environment in an intelligent way. I don't think we need to go down that path. Yes, plants can control gene expression, just like bacteria, but I see no value in exaggerating that control to the extent that Trewavas does.
From the current rate of progress, it looks as though plant communication is likely to be as complex as that within the brain. (Trewavas, 2003, p.6).



Trewavas, A. (2003) Aspects of plant intelligence. Ann Bot (Lond). 92:1-20. [PubMed]

Trewavas, A. (2005a) Plant intelligence. Naturwissenschaften. 92:401-13. [PubMed]

Trewavas, A. (2005b) Green plants as intelligent organisms. Trends Plant Sci. 10:413-9. [PubMed]

Trewavas, A. (2006) A brief history of systems biology. "Every object that biology studies is a system of systems." Francois Jacob (1974). Plant Cell. 18:2420-2430. [PubMed]

Friday, December 07, 2007

Spe Salvi - Saved by Hope

 
Last week Pope Benedict XVI issued an encyclical titled Spe Salvi, a reference to a statment made by Paul to the Romans; "Spe Salvi facti sumus"—in hope we were saved.

It probably won't come as a surprise to learn that God is the "hope" that sustains all Roman Catholics.
In this sense it is true that anyone who does not know God, even though he may entertain all kinds of hopes, is ultimately without hope, without the great hope that sustains the whole of life (cf. Eph 2:12). Man's great, true hope which holds firm in spite of all disappointments can only be God—God who has loved us and who continues to love us "to the end," until all "is accomplished"
Atheists, by definition, do not believe in God. Therefore, we cannot have hope. This makes sense if you substitute "superstition" for "hope."

It's often the case when reading these papal ramblings that some passages are difficult to understand. I wonder if this is deliberate? Here's an example,
It is not the elemental spirits of the universe, the laws of matter, which ultimately govern the world and mankind, but a personal God governs the stars, that is, the universe; it is not the laws of matter and of evolution that have the final say, but reason, will, love—a Person. And if we know this Person and he knows us, then truly the inexorable power of material elements no longer has the last word; we are not slaves of the universe and of its laws, we are free. In ancient times, honest enquiring minds were aware of this. Heaven is not empty. Life is not a simple product of laws and the randomness of matter, but within everything and at the same time above everything, there is a personal will, there is a Spirit who in Jesus has revealed himself as Love.
This seems to be more than just the passive Theistic Evolutionism of Ken Miller. It seems to be closer to a God who intervenes and guides frequently. A God who plays a much more active role than most Catholics I know would be willing to admit.

The most controversial part of the Pope's message is the following,
The atheism of the nineteenth and twentieth centuries is—in its origins and aims—a type of moralism: a protest against the injustices of the world and of world history....If in the face of this world's suffering, protest against God is understandable, the claim that humanity can and must do what no God actually does or is able to do is both presumptuous and intrinsically false. It is no accident that this idea has led to the greatest forms of cruelty and violations of justice; rather, it is grounded in the intrinsic falsity of the claim. A world which has to create its own justice is a world without hope.
Now, I understand the part about a world without hope. It must be nice to rely on your preferred superstitions to get out of dealing with the problems of the world. You can be comforted in the hope that God will eventually fix it when he turns his attention to our suffering.

The part I don't get is the claim that atheism is the source of the greatest forms of cruelty and injustice. For more than a thousand years the Roman Catholic Church dominated European culture and almost everyone was a Christian. As far as I know, cruelty and injustice didn't go away during those times.

On the other hand, since the enlightenment and the coming out of atheists in the eighteenth and nineteenth centuries, we have seen huge advances in extension of fairness and justice to all people. For example, in most secular nations women are treated with something approaching equality. Meanwhile, the true believers still haven't elected a female Pope.


Is Your Water Bottle Killing You?

 
CTV News is reporting that Mountain Equipment Co-op is going to stop selling polycarbonate water bottles [Sporting goods chain drops bisphenol A products]. The bottles leach tiny amounts of a compound called bisphenol-A (BPA) and there have been reports out for many years that BPA is dangerous to your health. One of the products that's causing concern is Nalgene® water bottles with the number 7 in a triangle. These bottles are make of a type of polycarbonate called Lexan that contains BPA.

Concern about possible health problems due to BPA have been around for years. As is usually the case whenever the alarm is sounded, the environmentalist/green/healthfood movements will be the first to respond. They have been strongly opposed to plastic water bottles for some time. Their claims about chemical dangers tend to be exaggerated so it's often hard to know who to believe. (But see TheGreenGuide for a reasoned opinion [ The Bisphenol-A Debate: A Suspect Chemical in Plastic Bottles and Cans].)

Bisphenol A resembles steroid hormones such as estrogen and it may interact with estrogen receptors. Some studies have linked it to increased risk for cancer in humans. There's a long list of other possible diseases that are possibly associated with BPA including the usual suspects like autism. Many of these presumed linkages are not credible but there are enough real scientific studies to cause concern.

The Bisphenol A website is maintained by a consortium of chemical companies. They have a clear vested interest in proving that their plastics are safe. The site contains many interesting facts and figures about the controversy including this report just released by Centers for Disease Control and Prevention (CDC) scientists in Atlanta, Georgia (USA) [Exposure of the U.S. Population to Bisphenol A and 4-tertiary-Octylphenol: 2003-2004]. The study shows that 93% of the population has detectable levels of BPA but these levels are far below the concentrations that produce harmful effects in animal studies.

What we need in situations like this is a neutral third party to evaluate the risks. Neither the chemical industry nor the healthfood industry can be trusted.

Along comes the Journal of the American Medical Association (JAMA). The Oct. 3, 2007 issue has an article summarizing the results of two recent studies [Expert Panels Weigh Bisphenol-A Risks].

The first study was done by a group of 38 scientists in November 2006.
After reviewing more than 700 studies, the group concluded that the molecular mechanism of BPA action in humans and animals is essentially identical, said Frederick S. vom Saal, PhD, of the Endocrine Disruptors Group at the University of Missouri-Columbia. Additionally, they determined that human and animal cells respond to similar doses of BPA and that the documented responses to very low-dose exposures can be explained by BPA's interaction with estrogen receptors on the cellular membrane.

"It's through these cell membrane receptors that doses below a part per trillion in cell culture can activate changes in cells," vom Saal said. "We're talking about levels of potency that are absolutely equivalent to estradiol."

The BPA doses that have been linked with health problems in animals are actually lower than the levels of free biologically active BPA that have been documented in human blood by a variety of techniques, such as ELISA testing and mass spectrometry, vom Saal said.

"The wide range of adverse effects of low doses of BPA in laboratory animals exposed both during development and in adulthood is a great cause for concern with regard to the potential for similar adverse effects in humans," according to the consensus statement. The statement calls for more research to probe BPA's effects in laboratory animals, wildlife, and humans.
The second study was done last August by a panel of the National Toxicology Program (NTP) Center for the Evaluation of Risks to Human Reproduction.
Although the panel rated the likelihood of human reproductive problems as "minimal" or "negligible," based on existing studies, it did have "some concern" that exposure could have neurological or behavioral effects in pregnant women, fetuses, infants, and children.

One reason for the differences in the groups' conclusions is that the NTP panel chose to exclude studies in which animals were exposed to BPA through injections. Members of the panel noted that most human exposure occurs through ingestion of the substance and that this translates to lower doses because the chemical is metabolized by the liver. But other researchers argue that such studies should have been included and that excluding them overlooks important evidence that exposure to low doses of BPA may lead to morphological and functional changes in the reproductive tracts of animals exposed early in development (Maffini MV et al. Mol Cell Endocrinol. 2006;254-255:179-186).
The bottom line is that there is enough concern to warrant trying to cut down on BPA intake. While the evidence suggests that it may be impossible to completely avoid exposure, you can still avoid the most likely sources—including those plastic water bottles.

It's probably time to switch to glass or metal, just to be on the safe side.


Mitt Romney and Truthiness

 
I noticed the following in Mitt Romney's religion speech [Mitt Romney's Faith In America address (as prepared for delivery)].
Americans acknowledge that liberty is a gift of God, not an indulgence of government. No people in the history of the world have sacrificed as much for liberty. The lives of hundreds of thousands of America's sons and daughters were laid down during the last century to preserve freedom, for us and for freedom loving people throughout the world. America took nothing from that century's terrible wars - no land from Germany or Japan or Korea; no treasure; no oath of fealty. America's resolve in the defense of liberty has been tested time and again. It has not been found wanting, nor must it ever be. America must never falter in holding high the banner of freedom.
I don't mean to diminish the role played by the United States of America during the second half of World War II but it seems a touch arrogant to say that "No people in the history of the world have sacrificed as much for liberty."



As for not taking any land from Japan, the people of the Ryukyu Islands (including Okinawa) might disagree. America occupied those islands until they were returned to Japan in 1972. The USA still has a military base on Okinawa as far as I know.

America also gained control over the Amami, Miyako and Yaeyama Islands groups at the signing of the Treaty of San Francisco. These islands were subsequently returned. I suppose Mitt Ronmney could argue that technically these territorial acquisitions were on behalf of the United Nations but that's not going to fool anyone.

America took back its colony of the Marianna Islands (Guam) after world War II but this isn't really taking land from Japan since America had previously owned the colony after grabbing it from Spain in 1898.

I was also stuck by the following statement.
I'm not sure that we fully appreciate the profound implications of our tradition of religious liberty. I have visited many of the magnificent cathedrals in Europe. They are so inspired ... so grand ... so empty. Raised up over generations, long ago, so many of the cathedrals now stand as the postcard backdrop to societies just too busy or too 'enlightened' to venture inside and kneel in prayer. The establishment of state religions in Europe did no favor to Europe's churches. And though you will find many people of strong faith there, the churches themselves seem to be withering away.
Unlike many others, Romney seems to be aware of the implications of American tradition of religious liberty. Whereas in Europe religion is disappearing in spite of the fact that European countries have state religions, in America where "religious liberty" is the norm, religion is still so important in politics that Romney is forced to give a speech defending his version of religion. There's irony hidden in there somewhere.
In such a world, we can be deeply thankful that we live in a land where reason and religion are friends and allies in the cause of liberty, joined against the evils and dangers of the day. And you can be certain of this: any believer in religious freedom, any person who has knelt in prayer to the Almighty, has a friend and ally in me. And so it is for hundreds of millions of our countrymen: we do not insist on a single strain of religion - rather, we welcome our nation's symphony of faith.
Does this sound like someone who would respect atheists and agnostics? How abut Buddhists?


[Photo Credits: Mitt Romney from his campaign webstite (True Strength for America's Future); WWI statistics are from Wikipedia.]
[Hat Tip: RichardDawkins.net]

Complementary and Alternative Medicine Exposed

 
Skeptics Canada is launching a year-long campaign against complementary and alternative medicine (CAM). The opening salvo will be fired tonight at the monthly meeting. Go to the Ontario Institute for Studies in Education (OISE) Building on Bloor St., just west of the St. George subway stop. The meeting is in rm 2211 from 7-9 pm.
First in a series of presentations on the topic of complementary and alternative medicine. Professor Michael De Robertis will speak on homeopathy, and award-winning journalists Paul Benedetti and Wayne MacPhail will speak on chiropractic. As well, a public test of one or more alt-med treatments is being planned.
Unfortunately, I won't be able to make it because of another commitment but I can assure you that it will be very entertaining. This is a good cause. Alternative medicine is gaining in popularity as more and more people strart looking for simple cures. Don't forget why it's called "alternative" medicine—it's because it's the alternative to rational evidence-based medicine.

The latest version of Skeptics Circle (#75) has four articles on alternative medicine.

Detox and Re-Tox: Bad Medicine and Even Worse Homeopathy at Alt-Med Mecca NewsTarget on The Bad Idea Blog.

Random reward may explain why homeopathy still exists on Med Journal Watch.

How we know what will kill or cure us on Junkfood Science.

Diluting the Profits on Skeptico.


Thursday, December 06, 2007

Irreducible Complexity

Lately I've run across several different definitions of irreducible complexity [Utterly Stupid Quote of the Day]. Most people seem to think that irreducible complexity is defined as something that cannot evolve but that's not the original definition [IDiot Logic].

Here's what Michael Behe says on page 39 of Darwin's Black Box.
By irreducibly complex I mean a single system composed of several well-matched, interacting parts that contribute to the basic function, wherein the removal of any one of the parts causes the system to effectively cease functioning. An irreducibly complex system cannot be produced directly (that is by continuously improving the initial function, which continues to work by the same mechanism) by slight, successive modifications of a precursor system, because any precursor to an irreducibly complex system that is missing a part is by definition nonfunctional.
Behe then goes on to say that an irreducibly complex system cannot evolve by natural selection.

The definition is not a problem. By this definition there are many irreducibly complex systems in biology. For example, the bacterial flagella is a pretty good example as long as you relax the criteria a little bit. (Some of the minor parts can easily be removed without affecting the overall function.)

The problem is not with the definition, it's with the conclusion. Irreducibly complex systems can easily evolve. All that's required is for the simpler intermediates to have some function other than the one seen in the final completed structure. In the case of the bacterial flagella this simpler function was secretion of large molecules. The flagella evolved from a type III secretion system by just adding a few extra components.

Thus, as Behe says above, it was not produced directly by continuously improving the initial function. Instead, there were several intermediate functions (e.g., secretion) that preceded the shift to the final function we observe today. This is how irreducibly complex systems evolve.

The citric acid cycle is another example of an irreducibly complex system for which there's an easily understood evolutionary pathway. The circular pathway arose when the ends of a forked pathway were joined by evolution of a single enzyme [Defining Irreducible Complexity].

Irreducible complexity is a concept invented by Intelligent Design Creationists. You'd think they would at least make the effort to understand something they created!


My Moral Foundations

 
I took the Moral Foundations Questionnaire to see the basis of my morality. My score is shown in green and typical scores for liberals are colored blue. Conservatives are red. (Strange choice of colors, if you ask me.)


What does this mean? Not much really, although the people who run the test think it's important. Here's what they say ...
The scale is a measure of your reliance on and endorsement of five psychological foundations of morality that seem to be found across cultures. Each of the two parts of the scale contained four questions related to each foundation: 1) harm/care, 2) fairness/reciprocity (including issues of rights), 3) ingroup/loyalty, 4) authority/respect, and 5) purity/sanctity.

The idea behind the scale is that human morality is the result of biological and cultural evolutionary processes that made human beings very sensitive to many different (and often competing) issues. Some of these issues are about treating other individuals well (the first two foundations - harm and fairness). Other issues are about how to be a good member of a group or supporter of social order and tradition (the last three foundations). Haidt and Graham have found that political liberals generally place a higher value on the first two foundations; they are very concerned about issues of harm and fairness (including issues of inequality and exploitation). Political conservatives care about harm and fairness too, but they generally score slightly lower on those scale items. The big difference between liberals and conservatives seems to be that conservatives score slightly higher on the ingroup/loyalty foundation, and much higher on the authority/respect and purity/sanctity foundations.

This difference seems to explain many of the most contentious issues in the culture war. For example, liberals support legalizing gay marriage (to be fair and compassionate), whereas many conservatives are reluctant to change the nature of marriage and the family, basic building blocks of society. Conservatives are more likely to favor practices that increase order and respect (e.g., spanking, mandatory pledge of allegiance), whereas liberals often oppose these practices as being violent or coercive.
I love it when they talk about basic foundations of morality and the biological basis of morality and then give tests where people are all over the map. How can we have such differences between liberals and conservatives if these "foundations" are universal and innate? Does this mean that right-wing conservatives were born stupid and there's nothing they can do about it?

That's a scary thought.


[Hat Tip: Gene Expression]

Canadian Students Are #3 in Science

 
The Organization for Economic Co-operation and Development (OECD) has a Programme for International Student Assessmant (PISA).

The first study was carried out in 2000 and it tested for reading ability. Canada ranked fourth in that survey, behind Korea, Finland, and Hong Kong–China.

The second study in 2003 measured mathematical ability and Canada was fifth. Only Chinese Taipei, Finland, Korea, and Hong Kong–China did better.

The 2006 study evaluated scientific literacy. Over 22,000 15-year-old Canadian students from more than 1,000 schools took part in the test. Canadian students ranked in third place behind Finland and Hong Kong-China. The chart (above, left) shows all countries that ranked significantly above the OECD average. The chart below lists some of the countries that were below average. In total, more than 400,000 students from 57 countries took the test.

The PISA study defined scientific literacy as ...
... an individual’s capacity to use scientific knowledge, to identify questions, and to draw evidence-based conclusions in order to understand and help make decisions about the natural world and the changes made to it through human activity.
Science competency was evaluated through a series of questions designed to elicit information on ...
1. Identifying scientific issues required students to recognize issues that can be explored scientifically and the key features of scientific investigation.

2. Explaining phenomena scientifically involved the application of the knowledge of science to describe or interpret phenomena scientifically and predict changes.

3. Using scientific evidence meant interpreting the evidence to draw conclusions; to explain them; to identify the assumptions, evidence, and reasoning that underpin them; and to reflect on their implications.
Students were assessed on two different kinds of scientific literacy ...
Knowledge of science. This entailed an understanding of fundamental scientific concepts and theories, in core scientific areas. The four content areas covered were “Physical systems,” “Living systems,” “Earth and space systems,” and “Technological systems,” representing key aspects of understanding the natural world.

Knowledge about science. This included understanding the purposes and nature of scientific enquiry and understanding scientific explanations, which are the results of scientific enquiry.
The complete Canadian Report can be found on the Council of Ministers of Education website. There's much more information about other countries on the PISA website.

In general, the study looks very good. The questions are excellent and the analysis seems scholarly and well-reasoned. There are no great surprises. Student performance is correlated with school funding levels and socio-economic level.


The Golden Compass

 
This is a clip from The Golden Compass. It's the movie the Christians are afraid of. They want you to boycott it because it promotes atheism. It looks pretty good to me. I think I'd go see it even if it wasn't just to oppose the boycott.

BTW, I also liked The Chronicles of Narnia even though it had a Christian theme. I don't have much trouble separating fantasy from reality.





Tangled Bank #94

 
The latest version of the Tangled Bank has been posted by Felicia Gilljam on Life before death [Tangled Bank #94].
Welcome to Tangled Bank #94! My name is Felicia and this is my blog, Life before death, in which I write about secularism, science and bees, with the occasional digression into other things. You may notice that there has been a bit of a gap in posting lately, but I’m back in the game now. Should anyone want to know more about myself (unlikely as that may seem), there’s an About link in the sidebar. But now, without further ado, let’s get on with the carnival!
For those who have difficulty submitting articles to Tangled Bank, let me remind you that you can mail URL's to host followed by the "at" symbol then tangledbank.net.


Wednesday, December 05, 2007

Sandwalk Readers Are Left of Center

 
The results of last month's poll show that 70% of Sandwalk readers tend to be liberals or left wingers. I suppose that's not a big surprise. Most of us tend to read blogs that reflect our point of view on the world. This blog is not likely to appeal to those from the right wing of the political spectrum.




Nobel Laureate: Hugo Theorell

 

The Nobel Prize in Physiology or Medicine 1955.
"for his discoveries concerning the nature and mode of action of oxidation enzymes"


Axel Hugo Theodor Theorell (1903 - 1982) received the Nobel Prize in Physiology or Medicine for his work on biological oxidation-reduction reactions. These reactions are catalyzed by oxidoreductases and they often involve the oxidation and reduction of various cofactors. One of these cofactors, FMN, was Monday's Molecule #54. Near the beginning of his scientific career, Theorell worked with "yellow enzyme." The yellow color was due to the presence of riboflavin which turned out to be the cofactor FMN. It was possible to follow the oxidation and reduction of the cofactor by observing the change in color from yellow to white as it was reduced.

Later on he worked with alcohol deydrogenase, an enzyme that couples the oxidation of organic molecules to the reduction of NAD+. At the time this cofactor was known as DPN+. Theorell developed fluorescence spectroscopic methods to measure these very fast reactions.

Theorell also worked with cytochrome c, a heme-containing electron carrier involved in oxidation-reduction reactions that transfer electrons from complex III to complex IV during membrane-associated electron transport in mitochondria. Theorell was aware of the α-helix discovered by Pauling & Corey and his first X-ray images of cytochrome c confirmed that the heme group was completely surrounded by α-helices.

The Nobel Prize is awarded by the Karolinska Institute and Theorell was the first scientist from that institute to receive a Nobel Prize.

THEME:

Nobel Laureates
The presentation speech was given by Professor E. Hammarsten of the Royal Caroline Institute.
Your Majesties, Your Royal Highnesses, Ladies and Gentlemen.

The Collegium of Karolinska Institutet has this year awarded the Prize in Physiology or Medicine to Professor Hugo Theorell for his discoveries concerning the nature and mode of action of oxidative enzymes.

More than a hundred years ago the vast field of research within which Theorell's work has been carried out was opened up by a Swedish investigator, Berzelius, who advanced the concept of catalysis and postulated that vital reactions were brought about by means of catalysts, subsequently called enzymes.

Let us as an example consider sugar, dissolved in water. It is not acted upon by oxygen outside the organism, but in living cells it is rapidly broken down by means of oxygen and enzymes, with the simultaneous liberation of energy in a form suitable for use in further reactions.

During the latter part of the 19th century the catalysts postulated by Berzelius were detected - enzymes that quicken dull and sluggish molecules such as oxygen and sugar which will not spontaneously interact. The enzymes bring about this change in the behaviour of the sluggish molecules, called activation, by contacting them for a moment and then releasing them - now in an active form - into the whirls of the molecular dance where they originate new compounds. The enzyme will contact one molecule after another without itself being changed or directly participating in the dance. It is like a tool in a production line, activating the inert material delivered to it by the belt so that a maelstrom of rapid reaction is created beyond it. But such a maelstrom can never come to rest since other tools are soon encountered, each of which maintains the motion and adapts it to a new rhythm. Thus the substances to be metabolized are brought into a sequence of rapid transformations by a versatile machinery built up of strictly specific units, the enzymes.

It is of fundamental importance to know the nature and mode of action of everyone of these truly life-giving enzymes. Their number is still unknown but it is certainly very great - Berzelius' intuitive idea has been fully confirmed in this respect.

In this field a Swedish investigator has once again substantially enlarged our knowledge.

Hugo Theorell realized from the first the importance in scientific investigation of seizing and keeping the initiative. He has realized, too, that «live and let live» is a fertilizing principle for teamwork. The able must not for long remain mere collaborators. They must themselves show initiative and become independent activators. An enzyme can give life to sluggish material in such a way that a new independent enzyme is created. Theorell's scientific work deals with active enzymes, but he is himself an efficient activator on the more complex human level.

His first discovery was made during the period 1933-1935 which, as a Fellow of the Rockefeller Foundation, he spent with the foremost pioneer in enzyme research, Otto Warburg. He arrived with his own idea and with his own technical means of substantiating it. He now made his great classical discovery of the splitting and recombination of the yellow enzyme. «Meister der Enzymforschung», Warburg called him after this scientific achievement. Since then Theorell has illuminated and clarified our understanding of several of the enzymes necessary for life, and in a passionate search for truth and fact in science has spared neither thoroughness nor effort.

Following a logical plan of investigation and with continuous refinement of technique he has clarified and enlarged that field of knowledge in which he is an outstanding leader.

The iron atoms built into many oxidative enzymes constitute functional centres, and many aspects of their intricate linkages to other parts of the enzyme have been revealed, as well as other important routes for the transport of electrons involved in the functioning of oxidative enzymes. He and his collaborators have shed light on the iron-containing enzymes called peroxidases. Before Theorell began his investigations, our knowledge of these substances was little more than guesswork. The extremely high velocity of their reactions demanded the skilful application of a range of advanced technique. It can safely be predicted that the profound analyses thereby performed will be decisive for the future integration of the role of the peroxidase system into the pattern of action of living organisms. The function of another group of iron-containing enzymes, the cytochromes, began to emerge towards the end of the last century, and here again Theorell has achieved an incisive analysis. The nature and function of the muscle pigment were also established through his investigations. He showed it to be an oxygen reservoir which comes into action when the oxygen content of the blood is depleted. It is a source of a «second wind».

A most important part of Theorell's researches has been concerned with the velocities of enzyme reactions and the factors which influence them, factors which determine the directions into which the enzymes force the processes in living organisms. These experiments are not only of basic importance but may be considered model investigations in enzymology.

Professor Hugo Theorell. A fertile imagination. An undeviating and critical accuracy. An astonishing technical skill.

All scientists possess some of these attributes. Very few have all. You are one of these few. In accordance with your gifts you have chosen the most important of all tasks in biology. The purification and the characterization of enzymes are essential prerequisites for progress within the realm of biological research. You have managed to bring about a decisive advance in this fundamental field, and in so doing you have brilliantly taken up and tended the heritage from Berzelius.

On behalf of Karolinska Institutet I ask you to receive your Nobel Prize for Physiology or Medicine for 1955 from the hands of His Majesty the King.


[Photo Credit: Karolinska Institute]

Does Blogging Hurt Your Chances of Getting Tenure?

 
Here are two examples of academics who blog and who didn't get tenure [Too Much Information?]. Neither of them are certain that their blogs had any effect on the tenure committee but who knows for sure?

There are many blogging Assistant Professors who got tenure so it can't be all that bad. My own feeling is that blogging takes up a lot of time and those who are up for tenure might be able to make better use of that time.


[Hat Tip: Joshua Rosenau at Thoughts from Kansas (Science educator "Expelled!," Disco Inst remains silent)]