More Recent Comments

Thursday, April 20, 2017

The last molecular evolution exam: Question #1

Eugene Koonin described his view of the proper null hypothesis for evolutionary questions. One of the examples he used concerns the evolution of recent gene duplications (Koonin, 2016 p.5). Describe how one possible fate of these genes relates to constructive neutral evolution. What are the other possible fates of these genes? Which one is most likely?

Koonin, E.V. (2016) Splendor and misery of adaptation, or the importance of neutral null for understanding evolution. BMC biology, 14:114 [doi: 10.1186/s12915-016-0338-2]

... in eukaryotes, duplicates of individual genes cannot be effectively eliminated by selection and thus often persist and diverge. The typical result is subfunctionalization, whereby the gene duplicates undergo differential mutational deterioration, losing subsets of ancestral functions. As a result, the evolving organisms become locked into maintaining the pair of paralogs. Subfunctionalization underlies a more general phenomenon, denoted constructive neutral evolution (CNE).

Question #1, Question #2, Question #3, Question #4, Question #5, Question #6


Sunday, April 09, 2017

Vimy Ridge

Today marks the 100th anniversary of the beginning of the Battle of Vimy Ridge. The battle invovled four divisions of the Canadian Corps and it has become a symbol for Canada of the sacrifices made during World War I. The symbol is remarkable for the beautiful Canadian National Vimy Ridge Memorial designed by Walter Seymour Allward. He intended it to be a "sermon against the futility of war."

It is remarkably successful as such a symbol since, among other things, it contains the names of more than 11,000 Canadians who died in World War I and whose bodies were never recovered. We visited the memorial in 2011 with my granddaughter Zoë [Canadian National Vimy Memorial] and found the name of Lance Corporal Robert Alexander Hood, a cousin of Leslie's grandfather and Zoë's great-great-grandfather.



Saturday, April 08, 2017

Somatic cell mutation rate in humans

A few years ago, Tomasetti and Vogelstein (2015) published a paper where they noted a correlation between rates of cancer and the number of cell divisions. They concluded that a lot of cancers could be attributed to bad luck. This conclusion didn't sit well with most people for two reasons. (1) There are many well-known environmental effects that increase cancer rates (e.g. smoking, radiation), and (2) there's a widespread belief that you can significantly reduce your chances of getting cancer by "healthy living" (whatever that is). The first objection is based on solid scientific evidence but the second one is not as scientific.

Some of the objections to the original Tomasetti and Vogelstein paper were based on the mathematical models they used to reach their conclusions. The authors have now followed up on their original study with more data. The paper appears in the March 24, 2017 issue of Science (Tomasetti and Vogelstein, 2017). If you're interested in the debate over "bad luck" you should read the accompanying review by Nowak and Waclaw (2017). They conclude that the math is sound and many cancer-causing mutations are, in fact, due to chance mutations in somatic cells. They point out something that should be obvious but bears repeating.

Monday, March 27, 2017

How to define evolution?

Do you think this video is helpful? [see "What Is Evolution?"] Is it important to know that evolution requires genetic changes and that it's populations that evolve? Is it important to have a definition of evolution that covers antibiotic resistance in bacteria and blood types in humans?




Monday, March 20, 2017

Correcting the correction of a video about evolution

Charlie McDonnell is the author of a book called Fun Science: A Guide To Life, The Universe And Why Science Is So Awesome. He made a video on misconceptions about the theory of evolution (see below). Sally Le Page (below left) is an evolutionary biologist working on her Ph.D. at Oxford (UK). She noticed a few problems with the McDonnell video so she made one of her own to correct the misconception in the first video. Now it's my turn to correct the misconception in the video that corrects the first video!

Sally Le Page highlights six misconceptions in the McDonnell video. She points out that none of them are very important—they are "little niggles"—but she still thinks a comment is necessary. (I agree.)

Wednesday, March 08, 2017

What's in Your Genome? Chapter 4: Pervasive Transcription

I'm working (slowly) on a book called What's in Your Genome?: 90% of your genome is junk! The first chapter is an introduction to genomes and DNA [What's in Your Genome? Chapter 1: Introducing Genomes ]. Chapter 2 is an overview of the human genome. It's a summary of known functional sequences and known junk DNA [What's in Your Genome? Chapter 2: The Big Picture]. Chapter 3 defines "genes" and describes protein-coding genes and alternative splicing [What's in Your Genome? Chapter 3: What Is a Gene?].

Chapter 4 is all about pervasive transcription and genes for functional noncoding RNAs.
Chapter 4: Pervasive Transcription
  • How much of the genome is transcribed?
  • How do we know about pervasive transcription?
  • Different kinds of noncoding RNAs
  •         Box 4-1: Long noncoding RNAs (lncRNAs)
  • Understanding transcription
  •         Box 4-2: Revisiting the Central Dogma
  • What the scientific papers don’t tell you
  •         Box 4-3: John Mattick proves his hypothesis?
  • On the origin of new genes
  • The biggest blow to junk?
  •         Box 4-4: How do you tell if it’s functional?
  • Biochemistry is messy
  • Evolution as a tinkerer
  •         Box 4-5: Dealing with junk RNA
  • Change your worldview


What's in Your Genome? Chapter 3: What Is a Gene?

I'm working (slowly) on a book called What's in Your Genome?: 90% of your genome is junk! The first chapter is an introduction to genomes and DNA [What's in Your Genome? Chapter 1: Introducing Genomes ]. Chapter 2 is an overview of the human genome. It's a summary of known functional sequences and known junk DNA [What's in Your Genome? Chapter 2: The Big Picture]. Here's the TOC entry for Chapter 3: What Is a Gene?. The goal is to define "gene" and determine how many protein-coding genes are in the human genome. (Noncoding genes are described in the next chapter.)

Chapter 3: What Is a Gene?
  • Defining a gene
  •         Box 3-1: Philosophers and genes
  • Counting Genes
  • Misleading statements about the number of genes
  • Introns and the evolution of split genes
  • Introns are mostly junk
  •         Box 3-2: Yeast loses its introns
  • Alternative splicing
  •         Box 3-2: Competing databases
  • Alternative splicing and disease
  •         Box 3-3: The false logic of the argument from         complexity
  • Gene families
  • The birth & death of genes
  •         Box 3-4: Real orphans in the human genome
  • Different kinds of pseudogenes
  •         Box 3-5: Conserved pseudogenes and Ken Miller’s         argument against intelligent design
  • Are they really pseudogenes?
  • How accurate is the genome sequence?
  • The Central Dogma of Molecular Biology
  • ENCODE proposes a “new” definition of “gene”
  • What is noncoding DNA?
  • Dark matter

Monday, March 06, 2017

What's in Your Genome? Chapter 2: The Big Picture

I'm working (slowly) on a book called What's in Your Genome?: 90% of your genome is junk! I thought I'd post the TOC for each chapter as I finish the first drafts. Here's chapter 2.

Chapter 2: The Big Picture
  • How much of the genome has been sequenced?
  • Whose genome was sequenced?
  • How many genes?
  • Pseudogenes
  • Regulatory sequences
  • Origins of replication
  • Centromeres
  • Telomeres
  • Scaffold Attachment regions (SARs)
  • Transposons
  • Viruses
  • Mitochondrial DNA (NumtS)
  • How much of our genome is functional?


What's in Your Genome? Chapter 1: Introducing Genomes

I'm working (slowly) on a book called What's in Your Genome?: 90% of your genome is junk! I thought I'd post the TOC for each chapter as I finish the first drafts. Here's chapter 1.

Chapter 1: Introducing Genomes
  • The genome war
  • What is DNA?
  • Chromatin
  • How big is your genome?
  • Active genes?
  • What do you need to know?


Saturday, February 25, 2017

Another physicist teaches us about evolution

Michio Kaku is a theoretical physicist at the City College of New York. Like many physicists, he thinks he's smart enough to know everything about everything so he doesn't hesitate to lecture people about evolution.

In this case. He's telling us that humans have reached perfection in all adaptive traits so there can't be any more selection for things like bigger brains. He tells us that human evolution has stopped because no animals are chasing us in the forest any more. He also let's us know that there are no more isolated populations because of jet planes. Watch the video to see how little he understands.



Is there something peculiar about physicists? Does anyone know of any biologists who make YouTube videos about quantum mechanics or black holes? If not, is that because biologists are too stupid ... or too smart?


Wednesday, February 22, 2017

Sloppiness in translation initiation

There are two competing worldviews in the fields of biochemistry and molecular biology. The distinction was captured a few years ago by Laurence Hurst commenting on pervasive transcription when he said, "So there are two models; one, the world is messy and we're forever making transcripts we don't want. Or two, the genome is like the most exquisitely designed Swiss watch and we don't understand its working. We don't know the answer—which is what makes genomics so interesting." (Hopkins, 2009).

I refer to these two world views as the Swiss watch analogy and the Rube Goldberg analogy.

The distinction is important because, depending on your worldview, you will interpret things very differently. We see it in the debate over junk DNA where those in the Swiss watch category have trouble accepting that we could have a genome full of junk. Those in the Rube Goldberg category (I am one) tend to dismiss a lot of data as just noise or sloppiness.

Friday, February 17, 2017

Did Rosalind Franklin produce the first X-ray diffraction images of DNA?

There's an interesting video of ten famous women scientists at Interesting S_Word: [Top 10 Female Scientists of History]. The image of Rosalind Franklin caught my eye (see right).


Perhaps I'm nitpicking but fake news is all the rage these days so I think we'd better be extra careful to present real facts rather than alternative facts. In that spirit, I'll mention two things.

Monday, February 13, 2017

Dan Graur explains junk DNA

If you want to be a serious participant in the debate over junk DNA then you should watch this video. Dan Graur presents the standard arguments for junk DNA—most of which have been around for decades. He also destroys the main arguments against junk DNA. You are entitled to choose sides in this debate but you are not entitled to pose as an authority unless you know the best arguments from BOTH sides. It is not sufficient to just quote evidence for function as support for your bias. You must also refute the evidence for junk. You have to show why it is wrong or misleading.





Hat Tip: PZ Myers

Sunday, February 12, 2017

ENCODE workshop discusses function in 2015

A reader directed me to a 2015 ENCODE workshop with online videos of all the presentations [From Genome Function to Biomedical Insight: ENCODE and Beyond]. The workshop was sponsored by the National Human Genome Research Institute in Bethesda, Md (USA). The purpose of the workshop was ...

  1. Discuss the scientific questions and opportunities for better understanding genome function and applying that knowledge to basic biological questions and disease studies through large-scale genomics studies.
  2. Consider options for future NHGRI projects that would address these questions and opportunities.
The main controversy concerning the human genome is how much of it is junk DNA with no function. Since the purpose of ENCODE is to understand genome function, I expected a lively discussion about how to distinguish between functional elements and spurious nonfunctional elements.

Darwin Day 2017

Today is Darwin Day but I'm too busy with other things to write a new post in his honor. So here's a post from 2007 (slightly updated) to help you enjoy the day.




Today is the birthday of the greatest scientist who ever lived. When you visit Darwin's home (Down House) you get a sense of what he must have been like. One of the things that's obvious is the number of bedrooms for the children. The house must have been alive with the activities of young children. It's no wonder that Darwin needed some peace and quiet from time to time.

Gwen Raverat was Darwin's granddaughter (daughter of George Darwin). She described Down House as she knew it in the years shortly after Darwin died.
Of all places at Down, the Sandwalk seemed most to belong to my grandfather. It was a path running round a little wood which he had planted himself; and it always seemed to be a very long way from the house. You went right to the furthest end of the kitchen garden, and then through a wooden door in the high hedge, which quite cut you off from human society. Here a fenced path ran along between two great lonely meadows, till you came to the wood. The path ran straight down the outside of the wood--the Light Side--till it came to a summer-house at the far end; it was very lonely there; to this day you cannot see a single building anywhere, only woods and valleys.
I became interested in Darwin's children about fifteen years ago when I first began to appreciate the influence they had on his life. We all know the story of Annie's death when she was ten years old and how this led to Darwin's rejection of religion. There were other tragedies but Charles and Emma turned out to be very good parents.

Here's a short biography of each of Darwin's children from AboutDarwin.com
William Erasmus Darwin
The first of Darwin's children was born on December 27, 1839. He was a graduate of Christ’s College at Cambridge University, and was a banker in Southampton. He married Sara Ashburner from New York, but they had no children. William died in 1914.

Anne Elizabeth Darwin
Born on March 2 1841, and died at the age of ten of tuberculosis on April 22, 1851. It was the death of Annie that radically altered Darwin’s belief in Christianity.

Mary Eleanor Darwin
Born on September 23, 1842 but died a few weeks later on October 16th.

Henrietta Emma Darwin ("Etty")
Born on September 25, 1843 and married Richard Buckley Litchfield in August of 1871. She lived 86 years and edited Emma's (her mother) personal letters and had them published in 1904. She had no children.

George Howard Darwin
Born on July 9, 1845. He was an astronomer and mathematician, and became a Fellow of the Royal Society ... in 1879. In 1883 he became the Plumian Professor of Astronomy and Experimental Philosophy at Cambridge University, and was a Barrister-at-Law. He studied the evolution and origins of the solar system. George married Martha (Maud) du Puy from Philadelphia. They had two sons, and two daughters. He died in 1912.

Elizabeth Darwin
Born on July 8, 1847 and died in 1926. She never married and had no children.

Francis Darwin
Born on August 16, 1848. He became a botanist specializing in plant physiology. He helped his father with his experiments on plants and was of great influence in Darwin's writing of "The Power of Movement in Plants" (1880). He was made a Fellow of the Royal Society in 1879, and taught at Cambridge University from 1884, as a Professor of Botany, until 1904. He edited many of Darwin's correspondence and published "Life and Letters of Charles Darwin" in 1887, and "More Letters of Charles Darwin" in 1903. He also edited and published Darwin’s Autobiography. He married Amy Ruck but she died when their first child, Bernard, was born in September of 1876. He then married Ellen Crofts in September of 1883, and they had one daughter, Frances in 1886. Francis was knighted in 1913, and died in 1925.

Leonard Darwin
Born on January 15, 1850. He became a soldier in the Royal Engineers in 1871, and was a Major from 1890 onwards. He taught at the School of Military Engineering at Chatham from 1877 to 1882, and served in the Ministry of War, Intelligence Division, from 1885-90. He later became a liberal-unionist MP for the town of Lichfield in Staffordshire 1892-95, and was president of the Royal Geological Society 1908-11. Leonard married Elizabeth Fraser in July of 1882. He married a second time, but had no children and died in 1943.

Horace Darwin
Born on May 13, 1851. He was a graduate of Trinity College, Cambridge, and became an engineer and a builder of scientific instruments. In 1885 he founded the Cambridge Scientific Instrument Company. He was the Mayor of Cambridge from 1896-97, and was made a Fellow of the Royal Society in 1903. Horace married Emma Farrer in January of 1880 and they had three children. He died in 1928.

Charles Waring Darwin
Born on December 6, 1856 but died on June 28 1858.



This is something I wrote about my visit to Westminster Abby 17 years ago.

Eventually we wind around the Monastery and finally enter the Nave. Ignoring the monument to Winston Churchill (1874-1965) and hardly bothering to look up and admire the high ceiling, I head for the front of the church where I can see the statue of Isaac Newton (1643-1727). This is the same statue that plays such an important role in the Da Vinci Code but today I’m not interested in Newton or his orb. I takes me only a few seconds to find the marked stone on the floor. I’m standing on the grave of Charles Robert Darwin.

I can picture the scene on Wednesday, April 26, 1882—a grand funeral attended by all of London’s high society and the leading intellectuals of the most powerful nation in the world. Darwin would not have been pleased. He wanted to be buried quietly in the Downe cemetery with his brother Erasmus and two of his children. Darwin's family was persuaded by his friends Galton, Hooker, Huxley and the President of the Royal Society, William Spottiswoode, that, for the sake of England, Darwin should be laid to rest in Westminster Abbey. As Janet Browne writes in her biography of Charles Darwin, "Dying was the most political thing Darwin could have done."

Looking around I can see the tomb of Joseph Hooker and a memorial to Alfred Wallace, two of the scientists who were Darwin’s pallbearers. (Another pallbearer, Thomas Henry Huxley, is buried elsewhere.) Nearby are the final resting places of a host of famous scientists; Kelvin, Joule, Clerk-Maxwell, Faraday, Herschell, and Sir Charles Lyell. Lyell was Darwin’s hero and mentor. We are told that Darwin’s wife Emma wished he were buried closer to Lyell.

I am not overly sentimental but this visit has a powerful effect. I think Charles Darwin is the greatest scientist who ever lived—yes, even greater than Sir Isaac Newton whose huge statue overshadows Darwin’s humble marker in the floor. Natural selection is one of the greatest scientific ideas of all time. Darwin discovered it and he deserves most of the credit. But Charles Darwin died on April 19 in 1882 and that was a long time ago.