Debating philosophers: Epigenetics

Qiaoying Lu and Pierrick Bourrat are philosophers in Australia.¹ Their research interests include evolutionary theory and they have taken an interest in the current debate over extending evolutionary theory. That debate has been promoted by a small group of scientists who, by and large, are not experts in evolution. They claim that current evolutionary theory—which they define incorrectly as the 1960s version of the Modern Synthesis—needs to be overthrown or extended by including things like epigenetics, niche construction, developmental biology, and plasticity [New Trends in Evolutionary Biology: The Program].

Lu and Bourrat have focused on epigenetics in their recent paper [Debating philosophers: The Lu and Bourrat paper]. They hope to reach an accommodation by re-defining the evolutionary gene as: "any physical structure that causes a heritable variation." Then they go on to say that, "we define the phenotype of an evolutionary gene as everything that the gene makes a difference to when compared to another gene."

By doing this, they claim that epigenetic changes (e.g. transient methylation) fall with the new definition. Therefore, epigenetics doesn't really represent a challenge to evolutionary theory. They explain it like this ....

Debating philosophers: The molecular gene

This is my fifth post on the Lu and Bourrat paper [Debating philosophers: The Lu and Bourrat paper]. The authors are attempting to justify the inclusion of epigenetics into current evolutionary theory by re-defining the concept of "gene," specifically the evolutionary gene concept. So far, I've discussed their understanding of current evolutionary theory and why I think it is flawed [Debating philosophers: The Modern Synthesis]. I described their view of "genes" and pointed out the confusion between "genes" and "alleles" and why I think "alleles" is the better term [Debating philosophers: The difference between genes and alleles]. In my last post I discussed their definition of the evolutionary gene and why it is too adaptationist to serve a useful function [Debating philosophers: The evolutionary gene].

Debating philosophers: The evolutionary gene

This is the forth post on the Lu and Bourrat paper [Debating philosophers: The Lu and Bourrat paper]. The philosophers are attempting to redefine the word "gene" in order to make epigenetics compatible with current evolutionary theory.

I define a gene in the following way: "A gene is a DNA sequence that is transcribed to produce a functional product" [What Is a Gene?]. This is a biochemical/molecular definition and it's not the same as the definition used in traditional evolution.

Lu and Bourrat discuss the history of the evolutionary gene and conclude,

Debating philosophers: The difference between genes and alleles

This is my third post on the Lu and Bourrat (2017) paper [Debating philosophers: The Lu and Bourrat paper]. Part of their argument is to establish that modern evolutionary theory is a gene-centric theory. They need to make this connection because they are about to re-define the word "gene" in order to accommodate epigenetics.

In my last post I referred to their defense of the Modern Synthesis and quoted them as saying that the major tenets of the Modern Synthesis (MS) are still the basis of modern evolutionary theory. They go on to say,

Debating philosophers: The Modern Synthesis

I'm discussing a paper by Lu and Bourrat (2017) [Debating philosophers: The Lu and Bourrat paper]. They begin by describing current evolutionary theory, known (to them) as the Modern Synthesis. The paper is about challenges to current evolutionary theory from those who advocate an extended evolutionary synthesis or from those who would replace, rather than extend, current evolutionary theory. It is reasonable to begin with a description of the theory that's being challenged.

Here's what Lu & Bourrat say,

Debating philosophers: The Lu and Bourrat paper

John Wilkins posted a link on Facebook to a recent paper by his colleagues in Australia. The authors are Qiaoying Lu of the Department of Philosophy at Macquarie University in Sidney Australia and Pierrick Bourat of the Department of Philosophy at The University of Sydney in Sidney Australia.

Lu, Q., and Bourrat, P. (2017) The evolutionary gene and the extended evolutionary synthesis. The British Journal for the Philosophy of Science, (advanced article) April 20, 2017. [doi: 10.1093/bjps/axw035] [PhilSci Archive]

Abstract: Advocates of an ‘extended evolutionary synthesis’ have claimed that standard evolutionary theory fails to accommodate epigenetic inheritance. The opponents of the extended synthesis argue that the evidence for epigenetic inheritance causing adaptive evolution in nature is insufficient. We suggest that the ambiguity surrounding the conception of the gene represents a background semantic issue in the debate. Starting from Haig’s gene-selectionist framework and Griffiths and Neumann-Held’s notion of the evolutionary gene, we define senses of ‘gene’, ‘environment’, and ‘phenotype’ in a way that makes them consistent with gene-centric evolutionary theory. We argue that the evolutionary gene, when being materialized, need not be restricted to nucleic acids but can encompass other heritable units such as epialleles. If the evolutionary gene is understood more broadly, and the notions of environment and phenotype are defined accordingly, current evolutionary theory does not require a major conceptual change in order to incorporate the mechanisms of epigenetic inheritance.

1 Introduction
2 The Gene-centric Evolutionary Theory and the ‘Evolutionary Gene’
      2.1 The evolutionary gene
      2.2 Genes, phenotypes, and environments
3 Epigenetic Inheritance and the Gene-Centred Framework
      3.1 Treating the gene as the sole heritable material?
      3.2 Epigenetics and phenotypic plasticity
4 Conclusion

The selfish gene vs the lucky allele

The Selfish Gene was published forty-one years ago (1976) and last year there was a bit of a celebration. I think we can all appreciate the impact that the book had at the time but I'm not sure it's as profound and lasting as most people believe ["The Selfish Gene" turns 40] [The "selfish gene" is not a good metaphor to describe evolution] [Die, selfish gene, die!].

The main criticisms fall into two categories: (1) the primary unit of selection is the individual organism, not the gene, and (2) the book placed too much emphasis on adaptation (Darwinism). I think modern evolutionary theory is based on 21st century population genetics and that view puts a great deal of emphasis on the power of random genetic drift. The evolution of a population involves the survival of individuals within the population and that, in turn, depends on the variation that exists in the population. Thus, evolution is characterized by changes in the frequencies of alleles in a population.

Professor, please can I have more marks?

I submitted my grades on Thursday morning and they were approved by the Department of Biochemistry in short order. Once the final grades have been approved and submitted to the Faculty they can't be changed unless the change is approved by the Departmental Chair. Students may appeal their grade by paying a fee to re-read their final exam but, even then, I do not have the authority on my own to change a grade. I have to justify any change in writing. This is a good thing.

A few hours after the grades were posted I received an email message from a student [It's that time of year, again]. Here's part of what the student said,

I just saw my final mark ... which was an 76, and was very surprised. I thought I'd done well on the final exam, and had studied hard. My performance on the Midterm was good, and I had expected this to be just as well. As such, I wanted to humbly inquire whether it'd be possible to move me a 77 (a 1% increase) or even an 80. This small difference could make a very big impact on my GPA as I apply for positions to pursue a master or other professional degrees. With the mark as it is now, I fall below the GPA requirement for a program I wish to enroll in next year and will have to do another few courses or a full year to make up for it.

I'm going to Chicago!

I leave tomorrow for Chicago where I'm attending Experimental Biology 2017. Is anyone else going to be there? Wanna get together? I'm there until Wednesday.

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Bill Martin is coming to town!!!

Contact me by email if you'd like to meet him on Sunday, April 30th.

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The last molecular evolution exam: Question #6

How can alleles be fixed in a population by positive natural selection (i.e. adaptation) if the environment remains constant for thousands of years?

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

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The last molecular evolution exam: Question #5

Many people believe that recombination evolved because it increases genetic variation in a population and this provided a selective advantage over species that didn’t have recombination. Do you agree with this explanation for the evolution of recombination? Why, or why not? What are the other possibilities?

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

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The last molecular evolution exam: Question #4

More than 90% of our genome is transcribed when you add up all the transcripts from various cell types and various times of development (= pervasive transcription). Many biologists take this as evidence that most of the DNA in our genome is functional. What are the counter-arguments? Who do you believe and why?

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

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The last molecular evolution exam: Question #3

The Three Domain Hypothesis has eukaryotes and archaea branching off from eubacteria. It shows eukaryotes more closely related to archaea than to eubacteria. However, many scientific studies indicate that a majority of our genes are more similar to eubacterial genes than to archaeal genes. How do you explain this apparent conflict?

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

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The last molecular evolution exam: Question #2

The paper by Andrews et al. (2011) lists a number of common misconceptions held by their students. One of them is the idea that, “Evolution is a process that will never stop, even in the human species.” Why do they think this is a misconception? Do you agree?

Andrews, T.M., Kalinowski, S.T., and Leonard, M.J. (2011). “Are humans evolving?” A classroom discussion to change student misconceptions regarding natural selection. Evolution: Education and Outreach, 4:456-466. [doi: 10.1007/s12052-011-0343-4]

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

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