Tag Archives: design

Transposons from a non-telic perspective

Over at BioLogos, Dennis Venema provides the conventional view of transposons through a non-teleological prism.  Like many others, he thinks of transposons as parasites:

They are the perfect parasites: using their host to provide resources so they can replicate themselves, and with a “lifestyle” so simple that replication is essentially its only feature.


Despite their parasitic nature, sometimes the host species can exploit transposons as a source of genetic novelty.

Yet it is not really accurate to describe transposons as parasites.

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A reason for cytosine deamination

A few people have notified me to let me know that front-loading is being discussed on UD by someone with the moniker ‘genomicus.’ In one place, genomicus states that cytosine deamination is a prediction of front-loading.  Someone else with the moniker “eigenstate” disagrees and writes:

The fail point here in this item is “so why would a front-loader choose cytosine as a base in DNA?”. It’s not sufficient to offer us *a* reason why you think cytosine would be chosen (and this is particularly devastating if you are offering this putative prediction in the context of an “intelligent design” explanation, an explanation with an unknown, inscrutable, mysterious designer). The choice must follow NECESSARILY from the hypothesis.

You are quite conspicuously working backwards from your conclusion. Coming up with a plausible choice — and given an unspecified, unknown, potentially omniscient and omnipotent designer, ALL choices are plausible — does not ground a prediction. First you lay out the hypothesis, the proposed mechanism, and then you deduce from that NECESSARY implications that proceed from that. If you can affirm what is entailed from your model, you got something! Sometimes those predictions are trivial or banal, and so don’t carry much weight. Other times they just don’t distinguish the hypothesis from other, competing hypotheses. But in this case, if you COULD establish that such a choice was ENTAILED from your proposed model, that would be quite substantial, indeed, I think.

I would not agree with genomicus that front-loading predicts the cytosine deamination story.  That whole story is more subtle and complex than that.  Let me explain.

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Evolution Follows the Path of Least Resistance

Over at Jerry Coyne’s blog, biologist Greg Mayer wrote:

One of the most important lessons of comparative anatomy is that evolution usually proceeds by the modification of pre-existing structures (or, stated more precisely, the modification of the pre-existing developmental programs that produce those structures). Certain changes are easier to evolve because the developmental system can be modified to produce them—evolution follows the developmental path of least resistance. In terms of the skeleton of vertebrates, this means that most evolutionary changes are reduction, fusion, loss, lengthening, shortening, thickening,  and narrowing of bones. Evolution uses what’s already there, and rarely do wholly new structures arise.  (from “Tinkering with elephants’ feet”)

All of this is true, yet we can proceed beyond this conventional thinking and ask a couple of questions:

WHY does evolution follow the developmental path of least resistance?

WHAT are the implications of evolution following the developmental path of least resistance?

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Michael Ruse Has It All Figured Out

Philosopher Michael Ruse objects to a recent comment from Pope Benedict:

“If man were merely a random product of evolution in some place on the margins of the universe, then his life would make no sense or might even be a chance of nature. But no, reason is there at the beginning: creative, divine reason.”

According to Ruse, this view is a no-no because it contradicts science.  To show this, he, well, quotes from Stephen Jay Gould:

“Since dinosaurs were not moving toward markedly larger brains, and since such a prospect may lie outside the capabilities of reptilian design, we must assume that consciousness would not have evolved on our planet if a cosmic catastrophe had not claimed the dinosaurs as victims. In an entirely literal sense, we owe our existence, as large and reasoning mammals, to our lucky stars.”

Well, that just settles it once and for all. He then adds:

Gould was not saying that human evolution was uncaused or random in that sense. But he was saying that there is no design. Human evolution had no more forethought than, say, the pattern that a pile of sand makes when emptied from a bucket.

Yeah, I understand the argument and position, but where are the actual data that show “there is no design” and there was no, NO, NO foresight involved in human evolution?

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The Six Points

nullHere are six points that lay at the foundation of my approach. All six points are quite reasonable. In fact, I would maintain that not only are they all reasonable, but they are also more reasonable than the position that would deny them:

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Before and After

Over in the comments section at BioLogos, Bilbo summarizes my position:

He begins with the hypothesis that the first cells were designed to make evolving (by neo-Darwinian processes) in a certain direction more likely.

And someone then asks: What does he think happened before life was cellular, then?

Given the paucity of solid information,  I’m not quite sure what to think. However, there are really only two options: the planet was seeded with life or the planet spawned life.  Both explanations are supported by circumstantial evidence.

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What is Life?

Biologists find themselves in the uncomfortable position of studying something that is difficult to define. Traditionally, they define life by listing several features characteristic to life, including metabolism, growth and development, responsiveness, and reproduction. Because of its central importance in evolution, many emphasize reproduction. Yet Daniel Koshland tells this story:

What is the definition of life? I remember a conference of the scientific elite that sought to answer that question. Is an enzyme alive? Is a virus alive? Is a cell alive? After many hours of launching promising balloons that defined life in a sentence, followed by equally conclusive punctures of these balloons, a solution seemed at hand: “The ability to reproduce–that is the essential characteristic of life,” said one statesman of science. Everyone nodded in agreement that the essential of a life was the ability to reproduce, until one small voice was heard. “Then one rabbit is dead. Two rabbits–a male and female–are alive but either one alone is dead.” At that point, we all became convinced that although everyone knows what life is there is no simple definition of life. [1]

Koshland himself defines life by citing seven features that are both universal and essential to life: “P(rogram), I(mprovisation), C(ompartmentalization), E(nergy), R(egeneration), A(daptability), S(eclusion), PICERAS, for short–are the fundamental principles on which a living system is based.” [1] That life resists attempts to define it in an efficient and simplistic manner may speak to manner in which reductionism fails to account for it.

In 2001, Bernard Korzeniewski used a cybernetic approach to come up with a definition of life that turns out to be quite helpful when thinking of evolution as a process that was designed.

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