I'm going to keep hammering on this until it sinks in.
We don't know how life began but one of the more fanciful hypotheses is that it began in a primordial soup of organic molecules supplied by meteors, comets, and violent lightening storms. The idea is that the ocean was full of glucose, amino acids, and nucleotides. Glucose and similar carbohydrates supplied the energy for life. Amino acids spontaneously came together to form proteins. Nucleic acids arose by stringing together pre-existing nucleotides or nucleosides.
In the most extreme version, the ocean itself was the primordial soup and concentrations of organic molecules were sufficient to drive the formation of life. A simple back-of-the envelope calculation indicates that the concentration of typical amino acids would have been about 0.1 nM (10-10 M) [Can watery asteroids explain why life is 'left-handed'?]. This is an unlikely scenario [More Prebiotic Soup Nonsense]. You won't get spontaneous formation of polymers in water at that concentration.
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Friday, July 27, 2012
High School Students Find LUCA!
What's Wrong with this Picture?
Biology New Net posted a press release today from the American Institute of Physics: Researchers dig through the gene bank to uncover the roots of the evolutionary tree. It advertises the work of William Duax and his colleagues, including some high school students who work in his lab on Fridays.
Biology New Net posted a press release today from the American Institute of Physics: Researchers dig through the gene bank to uncover the roots of the evolutionary tree. It advertises the work of William Duax and his colleagues, including some high school students who work in his lab on Fridays.
Ever since Darwin first published The Origin of the Species, scientists have been striving to identify a last universal common ancestor of all living species. Paleontological, biochemical, and genomic studies have produced conflicting versions of the evolutionary tree. Now a team of researchers, led by a professor at the State University of New York at Buffalo and including area high school students, has developed a novel method to search the vast archives of known gene sequences to identify and compare similar proteins across the many kingdoms of life. Using the comparisons to quantify the evolutionary closeness of different species, the researchers have identified Actinobacteria, a group of single membrane bacteria that include common soil and water life forms, as the base of the evolutionary tree. They will present their findings at the annual meeting of the American Crystallographic Association (ACA), held July 28 – Aug. 1 in Boston, Mass.
Thursday, July 26, 2012
The Evolution of Enzymes from Promiscuous Precursors
New enzymes often evolve from old ones via a gene duplication event. This gives rise to gene families encoding evolutionarily related enzymes with similar, but different enzymatic activities.
There are two principle ways to evolve related modern enzymes with specific activities. The first way postulates an ancestral enzyme that catalyzes a specific reaction (e.g. A1 → B1). Following a gene duplication event, one of the copies evolves an enzyme that catalyzes a completely different (but chemically related) reaction: A2 → B2.
Most people think that this is by far the most common pathway. That's because they are used to thinking that enzymes are highly specific—that's what's emphasized in most biochemistry courses. They think that it should be possible to reverse engineer the evolutionary pathway on the right-hand branch and thus transform one enzyme to another.
There are two principle ways to evolve related modern enzymes with specific activities. The first way postulates an ancestral enzyme that catalyzes a specific reaction (e.g. A1 → B1). Following a gene duplication event, one of the copies evolves an enzyme that catalyzes a completely different (but chemically related) reaction: A2 → B2.
Most people think that this is by far the most common pathway. That's because they are used to thinking that enzymes are highly specific—that's what's emphasized in most biochemistry courses. They think that it should be possible to reverse engineer the evolutionary pathway on the right-hand branch and thus transform one enzyme to another.
Wednesday, July 25, 2012
Winners of the Google Science Technology Fair
Anna Kuchment was there [Google Science Fair: Winners tackle breast cancer, hearing loss and water quality]. Just once, I'd like to see a science fair winner who actually did science and discovered something about the natural world that has nothing to do with technology or applications.
An expectant crowd gathered last night inside an airplane hangar at a flight school in Palo Alto, California to hear the winners of the second annual Google Science Fair. The grand prize went to Brittany Wenger, 17, of Sarasota, Florida, who wrote a computer program to help doctors diagnose breast cancer less invasively. Jonah Kohn, 14, of San Diego, Calif. won his age category for creating a device that converts sound into tactile vibration to improve the music-listening experience for the hearing impaired; and a trio from Spain won the 15 to 16 age category for documenting the hazardous and non-hazardous organisms found in water from different parts of their country.Anna Kuchment works for Scientific American and posts on a blog called Budding Scientist: Everything you always wanted to know about raising science-literate kids.
Gunfights Cause Collateral Damage
I heard on CNN that applications for gun permits are on the rise in Colorado. Apparently there are people who think that arming everyone will cut down on crime. They seriously believe that if more people in the Aurora Theater shooting were packing then there would have been fewer deaths and injuries. The idea is that a gunfight between the psychotic killer and an average citizen would have resulted in the killer's death.
Here's a bit of news from Toronto that might help put this in perspective. On June 2, 2012 a gang member opened fire on another gang member in the food court of the Toronto Eaton Centre. The intended target was killed but so was a nearby shopper. Three others were wounded. On July 15, 2012 two or three rival gang members decided to have a gunfight at a barbecue in a Toronto suburb. One of them was wounded. Two innocent bystanders were killed and 22 others were wounded [Scarborough shootings: What really happened on Danzig?].
Turns out that the average citizen isn't a very good shooter. More often than not, they miss their intended target and hit someone else. Lots of people die in gunfights, not just the bad guys—it's called collateral damage.
Imagine what the death toll in Aurora might have been with more than one person blasting away with an automatic weapon.
All civilized nations have strict gun control laws. Their citizens have this strange notion that killing other people is never a viable option and they can't imagine why anyone would deliberately buy guns with the intention of shooting a fellow citizen, even in self defense or prevention of a presumed crime.
I guess some nations have a long history of solving problem with gun violence and it's difficult to abandon that option.
Here's a bit of news from Toronto that might help put this in perspective. On June 2, 2012 a gang member opened fire on another gang member in the food court of the Toronto Eaton Centre. The intended target was killed but so was a nearby shopper. Three others were wounded. On July 15, 2012 two or three rival gang members decided to have a gunfight at a barbecue in a Toronto suburb. One of them was wounded. Two innocent bystanders were killed and 22 others were wounded [Scarborough shootings: What really happened on Danzig?].
Turns out that the average citizen isn't a very good shooter. More often than not, they miss their intended target and hit someone else. Lots of people die in gunfights, not just the bad guys—it's called collateral damage.
Imagine what the death toll in Aurora might have been with more than one person blasting away with an automatic weapon.
All civilized nations have strict gun control laws. Their citizens have this strange notion that killing other people is never a viable option and they can't imagine why anyone would deliberately buy guns with the intention of shooting a fellow citizen, even in self defense or prevention of a presumed crime.
I guess some nations have a long history of solving problem with gun violence and it's difficult to abandon that option.
Image Credits: Charlton Heston (top), Tombstone (bottom)
Do Invasive Mitochondria Spread by Drift or Selection?
Many species are not really "species" according to the biological species concept. They are not reproductively isolated from their closest relatives. A little bit of hybridization occurs in nature leading to the invasion of "foreign" alleles into the main population; a phenomenon known as gene flow.
Sometimes the invading alleles can become fixed (or very prevalent) in the population. This is what is presumed to have happened with Neanderthal or Denisovan alleles in modern humans. Rare matings between modern human ancestors and Neanderthal, for example, led to some gene flow between the populations [How many species of humans were there?].
The spread of invasive mitochondria is an extreme example of the fixation of invasive alleles. The example of polar bear evolution [Speciation in Bears] shows us that mitochondrial DNA can enter a population through a rare mating with an individual from another "species" and then become fixed in the new population over many thousand years.
The question is how does this fixation of "foreign" mitochondria occur? Is it an accident due to random genetic drift or do the foreign mitochondria confer a selective advantage over the original mitochondria? It seems unlikely that the mitochondria in one population (e.g. brown bears) are better than those in a foreign population (e.g. polar bears) that has adapted to a different environment.
John Hawks seems to want to have his cake and eat it too [Polar bear mtDNA replacement] ...
Jerry Coyne suggests that there's something special about mitochondria (and chloroplasts) [A new study of polar bears ...].
Sometimes the invading alleles can become fixed (or very prevalent) in the population. This is what is presumed to have happened with Neanderthal or Denisovan alleles in modern humans. Rare matings between modern human ancestors and Neanderthal, for example, led to some gene flow between the populations [How many species of humans were there?].
The spread of invasive mitochondria is an extreme example of the fixation of invasive alleles. The example of polar bear evolution [Speciation in Bears] shows us that mitochondrial DNA can enter a population through a rare mating with an individual from another "species" and then become fixed in the new population over many thousand years.
The question is how does this fixation of "foreign" mitochondria occur? Is it an accident due to random genetic drift or do the foreign mitochondria confer a selective advantage over the original mitochondria? It seems unlikely that the mitochondria in one population (e.g. brown bears) are better than those in a foreign population (e.g. polar bears) that has adapted to a different environment.
John Hawks seems to want to have his cake and eat it too [Polar bear mtDNA replacement] ...
In any single population, the behavior of mtDNA is rarely outside the very wide range of dynamics that happen by genetic drift alone, but that's more a sign of the extremely wide range of possibilities that drift allows. (This is why it took so long to demonstrate a problem with mtDNA in phylogenetic reconstruction). Now we know of many instances like polar bears, where the mtDNA genealogy has a different topology than that typical of nuclear genes. Moreover, we know that across many populations of different species, mtDNA is systematically less variable than the expected ratio from the nuclear genome. So it seems that once it enters a population, mitochondrial DNA sometimes spreads more rapidly and broadly than the typical gene. This dynamic sometimes may reflect extreme population histories, such as population bottlenecks and large-scale migrations. But in many cases it probably reflects selection on the mitochondrial genome.This is one of those issues where a little bit of evidence would be extremely helpful. Is it true that the fixation of foreign mitochondrial DNA is more common than, say, the fixation of Y chromosomes or the fixation of X-linked genes? What about other genes? Does maternal inheritance of mitochondria influence fixation?
Jerry Coyne suggests that there's something special about mitochondria (and chloroplasts) [A new study of polar bears ...].
The problem is that, for reasons we don’t fully understand, mtDNA also moves between species during hybridization much more readily than does nDNA, and that can screw up species relationships. This is true for both animals and plants, and not just for mtDNA either: in plants, DNA from another organelle, the chloroplasts (site of photosynthesis, this DNA is called “cpDNA”) also moves between species more readily than nDNA.Is it really true that mtDNA is more commonly fixed than nuclear alleles? Is it still true when you take into account maternal inheritance? I hope someone assigns this problem to a graduate student and I hope the graduate student takes care to rule out drift and accident.
....
We see this situation over and over again in biology. We don’t really know why mtDNA (and cpDNA) leak so readily between species, but we do know that this leakage makes it dicey to use only organelle’s DNA to make species trees. But the reason for this leakage compared to nDNA (so common to be almost a “rule of biology”) would make a useful paper topic for some enterprising graduate student.
Image Credit: Moran, L.A., Horton, H.R., Scrimgeour, K.G., and Perry, M.D. (2012) Principles of Biochemistry 5th ed., © Pearson Education Inc. page 419 [Pearson: Principles of Biochemistry 5/E]
Tuesday, July 24, 2012
Speciation in Bears
I read an interesting article a few months ago. It was a study of the phylogeny of bears with an emphasis of the origin of polar bears. In theory, it should be possible to put a date on the speciation event and to identify the probably ancestor of the modern polar bear.
The first thing you have to know is that polar bears and brown bears are not distinct species as defined by the biological species concept. This definition of "species" requires that there be no interbreeding with other populations, otherwise it's not a true species. (See Jerry Coyne's analysis of the problem with respect to humans.)
Polar bears and brown bears can mate to form hybrids, although this doesn't happen very often in the wild because the two "species" are geographically separated. The interesting question is when did these two populations diverge.
Many people thought the question had been answered a few years ago when Lindqvist et al. (2010) published the sequence of polar bear mitochondrial DNA ad compared it to that of other bears.
The result is shown here on the left in a figure taken from the recent paper in Science (Hailer et al, 2012). The Lindvist et al. paper showed conclusively that polar bears are relatively young as a "species" (about 150,000 years) and that they clearly arose from within the brown bear clade.
This result was somewhat surprising but not revolutionary. However, there were some experts on speciation who, questioned the conclusion; notably, Jerry Coyne [Do “polar bears” exist?]. They cautioned that using mitochondrial DNA could be misleading.
The latest study in Science shows that their concerns were justified. Hailer et al. (2012) lookd at 14 nuclear genes and constructed the tree shown shown below on the right.
This study indicates that polar bears diverged from brown bears about 800,000 years ago. Furthermore, the two populations of bear (brown and polar) form distinct clades.
What does this mean? It probably means that about 150,000 years ago there was a brief fling between a male polar bear and a female brown bear. The female offspring, carrying brown bear mitochondria, mated with male polar bears and all of their progeny contained brown bear mitochondria with mixtures of brown and polar bear alleles in their nuclei. Over time, the brown bear mitochondria became fixed by random genetic drift in the polar bear population.
This explains why the two trees differ and why you have to be cautious about using mitochondrial DNA in constructing phylogenies.
The story doesn't end there.
Just this week, a new paper appeared in PNAS confirming this result (Miller et al., 2012). Many of the authors are the same ones on the Lindqvist et al. (2012) paper. They are refuting the conclusions of their earlier paper by now showing that the sequence of nuclear genes indicate an earlier divergence of brown bears and polar bears.
I put off blogging about the Science paper because there were more important things to do and because it would have been difficult to explain the problem and the explanation. Fortunately, Jerry Coyne has now taken up the task of explaining the result at: A new study of polar bears underlines the dangers of reconstructing evolution using mitochondrial DNA. Please read his explanation of gene flow in bears based on his extensive knowledge of speciation.
The only issue I have with Coyne's explanation is that I don't think he gives enough emphasis to the idea that fixation of brown bear mitochondria in polar bears could be a genetic accident.
UPDATE: Ed Yong of Not Exactly Rocket Science already wrote about this three months ago [Polar bear origins revised – they’re older and more distinct than we thought]. John Hawks emphasizes Jerry Coyne's warning about using mitochondrial DNA and discuss the implications for hominid evolution [Polar bear mtDNA replacement].
The first thing you have to know is that polar bears and brown bears are not distinct species as defined by the biological species concept. This definition of "species" requires that there be no interbreeding with other populations, otherwise it's not a true species. (See Jerry Coyne's analysis of the problem with respect to humans.)
Polar bears and brown bears can mate to form hybrids, although this doesn't happen very often in the wild because the two "species" are geographically separated. The interesting question is when did these two populations diverge.
Many people thought the question had been answered a few years ago when Lindqvist et al. (2010) published the sequence of polar bear mitochondrial DNA ad compared it to that of other bears.
The result is shown here on the left in a figure taken from the recent paper in Science (Hailer et al, 2012). The Lindvist et al. paper showed conclusively that polar bears are relatively young as a "species" (about 150,000 years) and that they clearly arose from within the brown bear clade.
This result was somewhat surprising but not revolutionary. However, there were some experts on speciation who, questioned the conclusion; notably, Jerry Coyne [Do “polar bears” exist?]. They cautioned that using mitochondrial DNA could be misleading.
The latest study in Science shows that their concerns were justified. Hailer et al. (2012) lookd at 14 nuclear genes and constructed the tree shown shown below on the right.
This study indicates that polar bears diverged from brown bears about 800,000 years ago. Furthermore, the two populations of bear (brown and polar) form distinct clades.
What does this mean? It probably means that about 150,000 years ago there was a brief fling between a male polar bear and a female brown bear. The female offspring, carrying brown bear mitochondria, mated with male polar bears and all of their progeny contained brown bear mitochondria with mixtures of brown and polar bear alleles in their nuclei. Over time, the brown bear mitochondria became fixed by random genetic drift in the polar bear population.
This explains why the two trees differ and why you have to be cautious about using mitochondrial DNA in constructing phylogenies.
The story doesn't end there.
Just this week, a new paper appeared in PNAS confirming this result (Miller et al., 2012). Many of the authors are the same ones on the Lindqvist et al. (2012) paper. They are refuting the conclusions of their earlier paper by now showing that the sequence of nuclear genes indicate an earlier divergence of brown bears and polar bears.
I put off blogging about the Science paper because there were more important things to do and because it would have been difficult to explain the problem and the explanation. Fortunately, Jerry Coyne has now taken up the task of explaining the result at: A new study of polar bears underlines the dangers of reconstructing evolution using mitochondrial DNA. Please read his explanation of gene flow in bears based on his extensive knowledge of speciation.
The only issue I have with Coyne's explanation is that I don't think he gives enough emphasis to the idea that fixation of brown bear mitochondria in polar bears could be a genetic accident.
UPDATE: Ed Yong of Not Exactly Rocket Science already wrote about this three months ago [Polar bear origins revised – they’re older and more distinct than we thought]. John Hawks emphasizes Jerry Coyne's warning about using mitochondrial DNA and discuss the implications for hominid evolution [Polar bear mtDNA replacement].
Hailer F, Kutschera VE, Hallström BM, Klassert D, Fain SR, Leonard JA, Arnason U, Janke A. (2012) Nuclear genomic sequences reveal that polar bears are an old and distinct bear lineage. Science 336:344-347. [Abstract] [DOI: 10.1126/science.1216424]
Lindqvist, C., Schuster, S.C., Sun, Y., Talbot, S.L., Qi, J., Ratan, A., Tomsho, L.P., Kasson, L., Zeyl, E., Aars, J., Miller, W., Ingólfsson, O., Bachmann, L., and Wiig, O. (2010) Complete mitochondrial genome of a Pleistocene jawbone unveils the origin of polar bear. Proc. Natl. Acad. Sci. (USA) 107:5053-5057. [doi:10.1073/pnas.0914266107]
Millera, W., Schuster, S.C., Welch, A.J., Ratan, A., Bedoya-Reina, O.C., et al, (2012) Polar and brown bear genomes reveal ancient admixture and demographic footprints of past climate change. Proc. Natl. Acad. Sci. (USA) Published online before print July 23, 2012. [doi: 10.1073/pnas.1210506109]
How the Heck Did This Happen?
There are two recent events indicating that change is afoot in America. First, there's the recent poll suggesting that a majority of Americans (54%) could now vote for an atheist candidate who was running for President [Niose: Atheists making political inroads].
Then there's another poll showing that 19% of Americans are now nonreligious ("nones") [“Nones” climb to 19%]. The "nones" are not necessarily atheists or agnostics but it's safe to say that many of them are.
Why are these results significant? They're significant because back in 1958 only 18% of American said they could vote for an atheist and that number didn't change much until the 21st century. Also, the "nones" made up only 6% of the populations in 1990 rising to 15% in 2008.
So, what has happened in the past decade to turn people away from religion and make atheism more respectable?
I can think of two possibilities ...
Then there's another poll showing that 19% of Americans are now nonreligious ("nones") [“Nones” climb to 19%]. The "nones" are not necessarily atheists or agnostics but it's safe to say that many of them are.
Why are these results significant? They're significant because back in 1958 only 18% of American said they could vote for an atheist and that number didn't change much until the 21st century. Also, the "nones" made up only 6% of the populations in 1990 rising to 15% in 2008.
So, what has happened in the past decade to turn people away from religion and make atheism more respectable?
I can think of two possibilities ...
- The accommodationist approach that has been dominant for several decades has finally started to bear fruit.
- The rise of "militant atheists" in the past decade has forced large numbers of Americans into realizing that atheism and non-belief are respectable options.
[Hat Tip: RichardDawkins.net]
Monday, July 23, 2012
Monday's Molecule #178
It's the dog days (dies caniculares) of summer and Sirius is hard at work.
I'm going to let you off easy today. Identify the four molecules whose structures are shown on the right and name the two enzymes that catalyze the reactions. For extra accolades, tell us why those two enzymes are important in evolution and why the blogosphere is currently talking about these kinds of enzymes.
Post your answer as a comment. I'll hold off releasing any comments for 24 hours. The first one with the correct answer wins. I will only post mostly correct answers to avoid embarrassment. The winner will be treated to a free lunch with a very famous person, or me.
There could be two winners. If the first correct answer isn't from an undergraduate student then I'll select a second winner from those undergraduates who post the correct answer. You will need to identify yourself as an undergraduate in order to win. (Put "undergraduate" at the bottom of your comment.)
Some past winners are from distant lands so their chances of taking up my offer of a free lunch are slim. (That's why I can afford to do this!)
In order to win you must post your correct name. Anonymous and pseudoanonymous commenters can't win the free lunch.
Winners will have to contact me by email to arrange a lunch date.
Comments are invisible for 24 hours.
Winners
Nov. 2009: Jason Oakley, Alex Ling
Oct. 17: Bill Chaney, Roger Fan
Oct. 24: DK
Oct. 31: Joseph C. Somody
Nov. 7: Jason Oakley
Nov. 15: Thomas Ferraro, Vipulan Vigneswaran
Nov. 21: Vipulan Vigneswaran (honorary mention to Raul A. Félix de Sousa)
Nov. 28: Philip Rodger
Dec. 5: 凌嘉誠 (Alex Ling)
Dec. 12: Bill Chaney
Dec. 19: Joseph C. Somody
Jan. 9: Dima Klenchin
Jan. 23: David Schuller
Jan. 30: Peter Monaghan
Feb. 7: Thomas Ferraro, Charles Motraghi
Feb. 13: Joseph C. Somody
March 5: Albi Celaj
March 12: Bill Chaney, Raul A. Félix de Sousa
March 19: no winner
March 26: John Runnels, Raul A. Félix de Sousa
April 2: Sean Ridout
April 9: no winner
April 16: Raul A. Félix de Sousa
April 23: Dima Klenchin, Deena Allan
April 30: Sean Ridout
May 7: Matt McFarlane
May 14: no winner
May 21: no winner
May 29: Mike Hamilton, Dmitri Tchigvintsev
June 4: Bill Chaney, Matt McFarlane
June 18: Raul A. Félix de Sousa
June 25: Raul A. Félix de Sousa
July 2: Raul A. Félix de Sousa
July 16: Sean Ridout, William Grecia
I'm going to let you off easy today. Identify the four molecules whose structures are shown on the right and name the two enzymes that catalyze the reactions. For extra accolades, tell us why those two enzymes are important in evolution and why the blogosphere is currently talking about these kinds of enzymes.
Post your answer as a comment. I'll hold off releasing any comments for 24 hours. The first one with the correct answer wins. I will only post mostly correct answers to avoid embarrassment. The winner will be treated to a free lunch with a very famous person, or me.
There could be two winners. If the first correct answer isn't from an undergraduate student then I'll select a second winner from those undergraduates who post the correct answer. You will need to identify yourself as an undergraduate in order to win. (Put "undergraduate" at the bottom of your comment.)
Some past winners are from distant lands so their chances of taking up my offer of a free lunch are slim. (That's why I can afford to do this!)
In order to win you must post your correct name. Anonymous and pseudoanonymous commenters can't win the free lunch.
Winners will have to contact me by email to arrange a lunch date.
Comments are invisible for 24 hours.
Winners
Nov. 2009: Jason Oakley, Alex Ling
Oct. 17: Bill Chaney, Roger Fan
Oct. 24: DK
Oct. 31: Joseph C. Somody
Nov. 7: Jason Oakley
Nov. 15: Thomas Ferraro, Vipulan Vigneswaran
Nov. 21: Vipulan Vigneswaran (honorary mention to Raul A. Félix de Sousa)
Nov. 28: Philip Rodger
Dec. 5: 凌嘉誠 (Alex Ling)
Dec. 12: Bill Chaney
Dec. 19: Joseph C. Somody
Jan. 9: Dima Klenchin
Jan. 23: David Schuller
Jan. 30: Peter Monaghan
Feb. 7: Thomas Ferraro, Charles Motraghi
Feb. 13: Joseph C. Somody
March 5: Albi Celaj
March 12: Bill Chaney, Raul A. Félix de Sousa
March 19: no winner
March 26: John Runnels, Raul A. Félix de Sousa
April 2: Sean Ridout
April 9: no winner
April 16: Raul A. Félix de Sousa
April 23: Dima Klenchin, Deena Allan
April 30: Sean Ridout
May 7: Matt McFarlane
May 14: no winner
May 21: no winner
May 29: Mike Hamilton, Dmitri Tchigvintsev
June 4: Bill Chaney, Matt McFarlane
June 18: Raul A. Félix de Sousa
June 25: Raul A. Félix de Sousa
July 2: Raul A. Félix de Sousa
July 16: Sean Ridout, William Grecia
Religious Intolerance: United States Is more Tolerant than Europe
I hate it when this happens. I read a book review in yesterday's New York Times Sunday Book Review. If the review is accurate, the book is one of those books that I would probably hurl into the fireplace ... if I had a fireplace.
In order to be fair I have to buy the book (it's not available in Canada) but meanwhile I need to vent about it's probable content.
The book is The New Religious Intolerance by Martha C. Nussbaum and the review is by Damon Linker [Church, Temple, Mosque].
Here's the opening paragraphs of the review...
There are important ways in which the United States protects religious minorities ...
I tend to think of the USA as a place where religious groups want to restrict women's freedom of choice, infringe on the rights of gays and lesbians, oppose non-Christians (and suspected non-Christians) who run for office, rail against euthanasia, and ban the teaching of evolution.
I was under the impression that there are many states where being an non-fundamentalist Christian would be very uncomfortable. Many of these same states insist that the United States is a Christian nation and there are dozens of political leaders who imply that non-Christians are not real Americans. A majority of citizens see nothing wrong with posting the ten commandments in courtrooms, schools, and legislatures. They don't see anything wrong with reciting the Lord's prayer in schools or putting "In God We Trust" on their money (beginning in 1957).
I seem to recall a recent incident where five representatives of the United States House of Representatives expressed points of view that could be interpreted as possibly anti-Muslim [Michele Bachmann finds plenty of friends back home].
These all seem like pretty intolerant viewpoints to me. Am I wrong?
Apparently, Martha C. Nussbaum is a smart woman. Apparently that's why she says,
In order to be fair I have to buy the book (it's not available in Canada) but meanwhile I need to vent about it's probable content.
The book is The New Religious Intolerance by Martha C. Nussbaum and the review is by Damon Linker [Church, Temple, Mosque].
Here's the opening paragraphs of the review...
Mitt Romney’s stump speech during the Republican primaries was filled with appeals to his party’s conservative base, but none consistently inspired more heartfelt cheers than his promise to “stop the days of apologizing for success at home and never again apologize for America abroad.” The statement speaks to the widely held suspicion on the right that liberals in general, and Barack Obama in particular, prefer other forms of democracy (especially those that prevail in Europe) to the American way of life.The essence of her thesis is that: (1) several European countries have laws prohibiting Muslim women from wearing the burqa in public, (2) The Swiss government bans the building of minarets outside mosques, and (3) The Norwegian mass murderer, Anders Behring Breivik, didn't like Muslims. The United States hasn't done any of these things. That's because Americans are much more tolerant of other religious beliefs than Europeans.
Martha C. Nussbaum’s new book could serve as Exhibit A in liberalism’s defense against this charge. The author of 17 previous books on a wide range of topics — from classical Greek philosophy and tragic drama to modern law, literature and ethics — Nussbaum is one of America’s leading liberal thinkers. In “The New Religious Intolerance,” she turns her attention to the rise of antireligious — and specifically anti-Muslim — zealotry since the terrorist attacks of Sept. 11, 2001. Though she writes in her opening chapter that intolerance disfigures “all Western societies,” it quickly becomes clear that there have been far fewer incidents of bigotry in the United States than in Europe — because of America’s vastly superior approach to guaranteeing the rights of religious minorities. When it comes to freedom to worship, at least, Nussbaum is an unabashed proponent of American exceptionalism.
There are important ways in which the United States protects religious minorities ...
The core of the book explores three preconditions of securing religious liberty for minorities — and in all of them the United States does a much better job than Europe. First, a nation must commit itself to protecting the greatest possible freedom of conscience that is compatible with public order and safety — a principle that the United States codifies in the First Amendment’s disestablishment of religion and guarantee of religious free exercise....Wow! It's news to me that the United States is a paragon of religious tolerance but perhaps that's just my anti-American bias. (For the record, Roger Williams was English, not American, and most of the other colonies were somewhat less tolerant.1)
The second precondition of religious liberty is an impartial and consistent civic culture. On this measure, Europe fares especially badly, as Nussbaum demonstrates by methodically exposing the double standards and bias at play in the arguments for banning the burqa.
Finally, there is the need for “sympathetic imagination” on the part of citizens. Here the United States has long taken the lead, cultivating respect for religious differences since the 17th century, when Roger Williams founded Rhode Island, the “first colony (anywhere in the world, it seems) in which genuine religious liberty obtained for all.” Nussbaum is particularly impressed with Williams’s respectful treatment of the Narragansett Indians, whose language and culture he struggled to understand at a time when most of the colonists thought of them as beasts or devils.
I tend to think of the USA as a place where religious groups want to restrict women's freedom of choice, infringe on the rights of gays and lesbians, oppose non-Christians (and suspected non-Christians) who run for office, rail against euthanasia, and ban the teaching of evolution.
I was under the impression that there are many states where being an non-fundamentalist Christian would be very uncomfortable. Many of these same states insist that the United States is a Christian nation and there are dozens of political leaders who imply that non-Christians are not real Americans. A majority of citizens see nothing wrong with posting the ten commandments in courtrooms, schools, and legislatures. They don't see anything wrong with reciting the Lord's prayer in schools or putting "In God We Trust" on their money (beginning in 1957).
I seem to recall a recent incident where five representatives of the United States House of Representatives expressed points of view that could be interpreted as possibly anti-Muslim [Michele Bachmann finds plenty of friends back home].
These all seem like pretty intolerant viewpoints to me. Am I wrong?
Apparently, Martha C. Nussbaum is a smart woman. Apparently that's why she says,
As Nussbaum notes, the American and European developments differ in important ways. Above all, she writes, nothing in the United States “even remotely approaches the nationwide and regional bans on Islamic dress in Europe, or the nationwide Swiss minaret referendum” — let alone an anti-Islamic massacre.I guess I'll have to read the book to see if this is what she really thinks. I hate it when that happens.
1. New Amsterdam, the Dutch colony, was noted for religious tolerance. The French colonies in Canada (somewhat tolerant) were on very good terms with many native tribes. The Narragansett Indians were eventually converted to Christianity but not until many of them had been killed or shipped off to slavery in the Caribbean.
Sunday, July 22, 2012
Why All the Fuss About Chromosomes?
I've been following the latest kerfluffle on the fusion of two chromosome into one during human evolution. I understand the superficial dispute involving Carl Zimmer. He had the audacity to ask for evidence to back up a claim being made by the IDiots on their Facebook page and they responded by going nuclear [The Mystery of the Missing Chromosomes, Continued: An Update From Your Preening Blogger].
Typical.
Let's step back a bit and ask why the IDiots are so upset. Carl Zimmer posted a really nice summary of the evidence that two smallish chimp chromosomes fused to produce human chromosome 2 [The Mystery of the Missing Chromosome]. That evidence is based on an analysis of the chimp, human, and gorilla genomes and it allows scientists to reconstruct the events that led up to the fusion. All of the DNA sequence around the fusion point are consistent with what we might expect, especially the presence of defective telomeres (sequences at the ends of chromosomes).
Why are the IDiots so bothered by this evidence? It's not as if it's new—the essential evidence has been around for decades. There must be something else going on that causes the IDiots to circle the wagons at this time.
It think it's all about their latest book Science & Human Origins by Ann Gauger, Douglas Axe, and Casey Luskin.1 The book is published by the Discovery Institute Press. In that book, two of the authors (Gauger and Luskin), apparently argue that science cannot rule out a recent origin of humans descended from Adam and Eve. The chromosome fusion data threatens that bizarre claim and perhaps that's why they are reacting so strongly.
I think I understand this. The IDiots have made bold claims about some of their recent books (e.g. Signature in the Cell: DNA and the Evidence for Intelligent Design , The Myth of Junk DNA) but those books have been met by yawning indifference from the general public and devastating criticism from real scientists. Two of the authors on this latest book (Gauger and Axe) have substantial scientific credentials so the Discovery Institute must have expected that the book would stand up to criticism by other scientists.
Instead, a "mere" graduate student (Paul McBride) has dimantled the book chapter by chapter [Science & Human Origins: Review] and a "mere" science writer, Carl Zimmer, has challenged the integrity of two "scientists" (and a lawyer). No wonder they're upset. All of their wonderful books are scientific embarrassments.
On what grounds do the IDiots want to deny the chromosomal evidence that humans and chimps share a common ancestor? Carl Zimmer supplies a partial answer when he quotes one of the chief IDiot defenders, David Klinhoffer, who says ...
(Carl asked for the evidence that that the junction sequence isn't what one might expect and that's what caused the latest problem.)
I think that even the most stupid IDiots realize that they are in a very weak position on this one. They have been painted into a corner where the only way out is to admit that chromosome fusions happens&mdashbut only in the past 10,000 years—or that solid scientific evidence is wrong and there was no fusion. Neither option is appealing.
That's why you see people like Cornelius Hunter desperately looking for another way out [Carl Zimmer Doubles Down on Chromosome Two Lies and Misdemeanors] and why the people at Uncommon Descent have picked up on a non-scientific way to defend Intelligent Design Creationism [Why no one can confute Darwinism and, consequently, no one should believe it].
My question for Intelligent Design Creationists is, "why all the fuss?" What is there about the figure at the top of the page that really upsets you? Aren't most of you supporters of common descent in some form or another? Are all of you really going to defend the idea that humans have no evolutionary history with the other apes?
Typical.
Let's step back a bit and ask why the IDiots are so upset. Carl Zimmer posted a really nice summary of the evidence that two smallish chimp chromosomes fused to produce human chromosome 2 [The Mystery of the Missing Chromosome]. That evidence is based on an analysis of the chimp, human, and gorilla genomes and it allows scientists to reconstruct the events that led up to the fusion. All of the DNA sequence around the fusion point are consistent with what we might expect, especially the presence of defective telomeres (sequences at the ends of chromosomes).
Why are the IDiots so bothered by this evidence? It's not as if it's new—the essential evidence has been around for decades. There must be something else going on that causes the IDiots to circle the wagons at this time.
It think it's all about their latest book Science & Human Origins by Ann Gauger, Douglas Axe, and Casey Luskin.1 The book is published by the Discovery Institute Press. In that book, two of the authors (Gauger and Luskin), apparently argue that science cannot rule out a recent origin of humans descended from Adam and Eve. The chromosome fusion data threatens that bizarre claim and perhaps that's why they are reacting so strongly.
I think I understand this. The IDiots have made bold claims about some of their recent books (e.g. Signature in the Cell: DNA and the Evidence for Intelligent Design , The Myth of Junk DNA) but those books have been met by yawning indifference from the general public and devastating criticism from real scientists. Two of the authors on this latest book (Gauger and Axe) have substantial scientific credentials so the Discovery Institute must have expected that the book would stand up to criticism by other scientists.
Instead, a "mere" graduate student (Paul McBride) has dimantled the book chapter by chapter [Science & Human Origins: Review] and a "mere" science writer, Carl Zimmer, has challenged the integrity of two "scientists" (and a lawyer). No wonder they're upset. All of their wonderful books are scientific embarrassments.
On what grounds do the IDiots want to deny the chromosomal evidence that humans and chimps share a common ancestor? Carl Zimmer supplies a partial answer when he quotes one of the chief IDiot defenders, David Klinhoffer, who says ...
The evidence from chromosomal fusion, for one, is strikingly ambiguous. In the Darwinian presentation, the fact that humans possess 23 chromosome pairs and great apes 24 clearly points to an event in which human chromosome 2 formed from a fusion, leaving in its wake the telltale sign of telomeric DNA — normally appearing as a protective cap at the end of the chromosome — in the middle where it doesn’t belong. Ergo, common descent.That's it? The fusion event could have happened relatively recently in human evolution so it's no big deal? And if you don't buy that, then maybe it didn't happen at all because the junction sequence isn't exactly what a typical IDiot might expect if evolution were true?
But Casey [Luskin, of the Discovery Institute and co-author of the book] explains, there’s a lot wrong with this inference. Even if there was such an event and humans once had 24 chromosome pairs, it doesn’t at all follow that this happened in some prehuman past. Nothing stands in the way of picturing a human population bottleneck accomplishing the spread of a fused chromosome 2 from part of an early human community to all of it.
But the idea of such an event having occurred at all is itself far from sure. The telomeric DNA parked in the middle of chromosome 2 is not a unique phenomenon. Other mammals have it too, across their own genomes. Even if it were unique, there’s much less of it than you would expect from the amalgamation of two telomeres. Finally, it appears in a “degenerate,” “highly diverged” form that should not be the case if the joining happened in the recent past, circa 6 million years ago, as the Darwinian interpretation holds.
(Carl asked for the evidence that that the junction sequence isn't what one might expect and that's what caused the latest problem.)
I think that even the most stupid IDiots realize that they are in a very weak position on this one. They have been painted into a corner where the only way out is to admit that chromosome fusions happens&mdashbut only in the past 10,000 years—or that solid scientific evidence is wrong and there was no fusion. Neither option is appealing.
That's why you see people like Cornelius Hunter desperately looking for another way out [Carl Zimmer Doubles Down on Chromosome Two Lies and Misdemeanors] and why the people at Uncommon Descent have picked up on a non-scientific way to defend Intelligent Design Creationism [Why no one can confute Darwinism and, consequently, no one should believe it].
My question for Intelligent Design Creationists is, "why all the fuss?" What is there about the figure at the top of the page that really upsets you? Aren't most of you supporters of common descent in some form or another? Are all of you really going to defend the idea that humans have no evolutionary history with the other apes?
1. I haven't read the book. It's on order but it still hasn't been released in Canada (see Amazon.ca).
Saturday, July 21, 2012
This Is too Weird
Check out the meowbified version of Sandwalk at http://cat.sandwalk.blogspot.com.meowbify.com/.
The evil deed was performed at Meowbify. Try it on Pharyngula.
The evil deed was performed at Meowbify. Try it on Pharyngula.
[Hat Tip: PZ Myers]
Friday, July 20, 2012
We Called Out IDiot Jonathan Wells, and He Folded
Carl Zimmer had the audacity to post something about the fusion of two ancestral chromosomes in primitive apes. The data is unequivocal. It shows why humans have one less chromosome than modern chimps [The Mystery of the Missing Chromosome (With A Special Guest Appearance from Facebook Creationists)].
Observations like this lend strong support to the idea that humans and chimps share a common ancestor. This doesn't sit well with the IDiots because they are in the midst of hyping their latest book, Science & Human Origins where they try to counter the overwhelming evidence that humans evolved.
So, what did they do? David Klinghoffer challenged Carl Zimmer to pop on over to Evolution News & Views (sic) and debate one of the authors. Carl refused, as would any sane person since that creationist blog is edited by IDiots and no comments are allowed. It would be embarrassing to have one's name on an article at Evolution News & Views [The Mystery of the Missing Chromosomes, Continued: An Update From Your Preening Blogger].
Here's what Carl said,
"Reasoning with a Lynch Mob"
This reminded me of an incident that took place last November. You might remember that I spent a great deal of time and effort reviewing Jonathan Wells' book, The Myth of Junk DNA (see The Myth of Junk DNA by Jonathan Wells). I invited Wells to discuss and debate the issue of junk DNA and my extensive criticism of his book.
Wells declined [Jonathan Wells Sends His Regrets]. Here's what he said ...
Observations like this lend strong support to the idea that humans and chimps share a common ancestor. This doesn't sit well with the IDiots because they are in the midst of hyping their latest book, Science & Human Origins where they try to counter the overwhelming evidence that humans evolved.
So, what did they do? David Klinghoffer challenged Carl Zimmer to pop on over to Evolution News & Views (sic) and debate one of the authors. Carl refused, as would any sane person since that creationist blog is edited by IDiots and no comments are allowed. It would be embarrassing to have one's name on an article at Evolution News & Views [The Mystery of the Missing Chromosomes, Continued: An Update From Your Preening Blogger].
Here's what Carl said,
I thought the question I asked was pretty simple. I wasn’t asking to hold a Lincoln-Douglas debate. I just asked what the evidence was for one of the claims made by the creationists.David Klinghoffer, being David Klinghoffer, responded with a blog posting on Evolution News & Views: We Called Out Darwinist Critic Carl Zimmer, and He Folded.
Now it seems that in order to get that answer, I can either buy a book–which apparently is based on no peer-reviewed research of the authors, but just cherry-picked quotes from a ten-year old paper–or I can donate my time to write several thousands words for free for a creationist web site.
Making this offer even richer is Klinghoffer’s ground rules about focusing “strictly on the ideas, not on the personalities.” Klinghoffer himself has used Evolution News & Views to call people pathetic, a worthless bully, cowards, illiterate, and “a tyranny of the unemployed” (referring to Wikipedia editors). In one piece he wrote for Evolution New and Views, Klinhoffer mocked a post by a science blogger as “preening and self-congratulatory.”
That blogger happened to be me.
I will answer Mr. Klinghoffer publicly: no thanks. I never asked for a debate, and your arbitrary decrees, such as a mysterious thousand-word cutoff (my blog post on the chromosomes alone clocked in at over 2,000 words) make it even less appealing. I am particularly opposed to web sites that do not allow readers to comment. That’s how I ended up on Facebook in the first place–because the Discovery Institute’s web sites do not permit commenting. You, on the other hand, are more than welcome to leave a comment on my blog. My comment policy is very lax: I only throw out commenters who curse uncontrollably, hawk their own wares, or can’t stay on topic after repeated warnings. We have a thriving, fascinating discussion here, one from which I regularly learn new things from my readers. You might too.
"Reasoning with a Lynch Mob"
This reminded me of an incident that took place last November. You might remember that I spent a great deal of time and effort reviewing Jonathan Wells' book, The Myth of Junk DNA (see The Myth of Junk DNA by Jonathan Wells). I invited Wells to discuss and debate the issue of junk DNA and my extensive criticism of his book.
Wells declined [Jonathan Wells Sends His Regrets]. Here's what he said ...
Oh, one last thing: “paulmc” referred to an online review of my book by University of Toronto professor Larry Moran—a review that “paulmc” called both extensive and thorough. Well, saturation bombing is extensive and thorough, too. Although “paulmc” admitted to not having read more than the Preface to The Myth of Junk DNA, I have read Mr. Moran’s review, which is so driven by confused thinking and malicious misrepresentations of my work—not to mention personal insults—that addressing it would be like trying to reason with a lynch mob.Sort of makes you wonder, doesn't it? Do you think the IDiots really are interested in debating science or is it only on their own terms, on their own blog, with no comments, and moderated by their own kind?
Better Biochemistry: Good Enough Enzymes
Some enzymes catalyze reactions at extremely fast rates that are only limited by the rate of diffusion of substrate molecules into the active site of the enzyme (diffusion-controlled rate). Some of these enzymes are covered in all the standard biochemistry textbooks; examples are canbonic anhydrase (CAN), triose phosphate ismerase (TIM), and superoxide dismutase (SOD). Superoxide dismutase (right) actually catalyzes reactions at a rate that's faster than the diffusion-controlled limit [Superoxide Dismutase Is a Really Fast Enzyme].
These enzymes are often referred to as "perfect" enzymes but that's a very misleading term because it implies that all other enzyme are less than perfect.
Most enzyme don't need to act any faster than they do. They are quite happy catalyzing reactions at rates that are far below their theoretical optimum [Better Biochemistry: The Perfect Enzyme]. As long as it's good enough there's no selective pressure to get better.
These enzymes are often referred to as "perfect" enzymes but that's a very misleading term because it implies that all other enzyme are less than perfect.
Most enzyme don't need to act any faster than they do. They are quite happy catalyzing reactions at rates that are far below their theoretical optimum [Better Biochemistry: The Perfect Enzyme]. As long as it's good enough there's no selective pressure to get better.
Thursday, July 19, 2012
Do Bacteria Have Sex?
There are three different ways for bacterial to exchange information: conjugation, transduction, and transformation. Do any of these count as sex?
It depends on your definition. Rosie Redfield and I had a discussion about this when we were together in Ottawa. I think some species of bacteria do engage in sex because all three mechanisms can result in gene exchange between different individual bacteria. I think that transformation and conjugation may have arisen, in part, as a way of repairing damaged DNA and escaping the effects of Muller's Rachet.
Rosie thinks that sex, by definition, means mixis—the shuffling of alleles due to sex as in eukaryotes. Here's how she explains it in a recent post on her blog [Claims that Bacteria Do Have Sex].
Read Rosie's post if only to discover why she thinks transformation evolved. She's thinking of applying for a grant to study this problem so I'm sure she would appreciate your feedback.
It depends on your definition. Rosie Redfield and I had a discussion about this when we were together in Ottawa. I think some species of bacteria do engage in sex because all three mechanisms can result in gene exchange between different individual bacteria. I think that transformation and conjugation may have arisen, in part, as a way of repairing damaged DNA and escaping the effects of Muller's Rachet.
Rosie thinks that sex, by definition, means mixis—the shuffling of alleles due to sex as in eukaryotes. Here's how she explains it in a recent post on her blog [Claims that Bacteria Do Have Sex].
This work addresses a very important question with big/deep/fundamental importance to the colossal problem of the origin of meiotic sex in eukaryotes. The question is 'Do bacteria have any processes that evolved because of selection for recombination of chromosomal alleles?' We think this selection is the reason for the success of meiotic sexual reproduction in eukaryotes, but compelling evidence for this has been elusive. Bacteria have four well-studied processes that do generate homologous recombination; three that transfer DNA between cells and one that carries out homologous recombination. But almost every aspect of these processes has been shown to cause recombination as an unselected side effect of processes selected for other functions.I don't think sex evolved in eukaryotes in order to promote mixis so this argument doesn't resonate with me.
Read Rosie's post if only to discover why she thinks transformation evolved. She's thinking of applying for a grant to study this problem so I'm sure she would appreciate your feedback.
[Image Credit: Rosie Redfield]
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