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Sunday, 11 June 2023

More Rudyard Kipling style Just so stories from Darwinist.

 How Did Birds Get Their Wings? Bacteria May Provide a Clue to the Genomic Basis of Evolutionary Innovation, Say Evolutionists


That evolution occurred is known to be a fact but how evolution occurred is not known. In particular we are ignorant of how evolutionary innovations arose. Of course biological novelties and innovations arose from a series of random chance events, but it is less than reassuring that we cannot provide more detail. How exactly did the most complex designs spontaneously arise? What mechanisms overcame, over and over, the astronomical entropy barriers, by sheer luck of the draw? As Craig MacLean’s and Andreas Wagner’s, and coworker’s, new PLOS Genetics paper begins, “Novel traits play a key role in evolution, but their origins remain poorly understood.” Could it be that evolution is not actually a fact? No, not according to evolutionists. And this new paper claims to provide the basis for how the seemingly impossible became the mundane.


The paper begins by summarizing the many proposed genetic mechanisms for the evolution of biological innovations:

An evolutionary innovation is a new trait that allows organisms to exploit new ecological opportunities. Some popular examples of innovations include flight, flowers or tetrapod limbs [1,2]. Innovation has been proposed to arise through a wide variety of genetic mechanisms, including: domain shuffling [3], changes in regulation of gene expression [4], gene duplication and subsequent neofunctionalization [5,6], horizontal gene transfer [7,8] or gene fusion [9]. Although innovation is usually phenotypically conspicuous, the underlying genetic basis of innovation is often difficult to discern, because the genetic signature of evolutionary innovation erodes as populations and species diverge through time.


1. Mayr E. Animal Species and Evolution. Cambridge: MA: Harvard University Press; 1963.


2. Pigliucci M. What, if anything, is an evolutionary novelty? Philos Sci. 2008;75: 887–898. Available:http://philpapers.org/rec/PIGWIA


3. Patthy L. Genome evolution and the evolution of exon-shuffling—a review. Gene. 1999;238: 103–14. Available: http://www.ncbi.nlm.nih.gov/pubmed/10570989 pmid:10570989


4. True JR, Carroll SB. Gene co-option in physiological and morphological evolution. Annu Rev Cell Dev Biol. 2002;18: 53–80. doi: 10.1146/annurev.cellbio.18.020402.140619. pmid:12142278


5. Zhang J. Evolution by gene duplication: An update. Trends Ecol Evol. 2003;18: 292–298. doi: 10.1016/S0169-5347(03)00033-8.


6. Bergthorsson U, Andersson DI, Roth JR. Ohno’s dilemma: evolution of new genes under continuous selection. Proc Natl Acad Sci U S A. 2007;104: 17004–9. doi: 10.1073/pnas.0707158104. pmid:17942681


7. Boucher Y, Douady CJ, Papke RT, Walsh DA, Boudreau MER, Nesbø CL, et al. Lateral gene transfer and the origins of prokaryotic groups. Annu Rev Genet. 2003;37: 283–328. doi: 10.1146/annurev.genet.37.050503.084247. pmid:14616063


8. Wiedenbeck J, Cohan FM. Origins of bacterial diversity through horizontal genetic transfer and adaptation to new ecological niches. FEMS Microbiol Rev. 2011;35: 957–976. doi: 10.1111/j.1574-6976.2011.00292.x. pmid:21711367


9. Thomson TM, Lozano JJ, Loukili N, Carrió R, Serras F, Cormand B, et al. Fusion of the human gene for the polyubiquitination coeffector UEV1 with Kua, a newly identified gene. Genome Res. 2000;10: 1743–56. pmid:11076860 doi: 10.1101/gr.gr-1405r 

The unspoken problem here is, as usual, serendipity. The various proposed genetic mechanisms for the evolution of biological innovations all suggest an amazing bit of fortuitous luck. For random chance events just happened to create these various complicated structures and mechanisms (such as horizontal gene transfer and protein domains their shuffling) which then produced new evolutionary breakthroughs.


Evolution didn’t know what was coming. Evolution did not plan this out, it did not realize that horizontal gene transfer would lead the way to new biological worlds. The evolution of horizontal gene transfer would require a long sequence of random mutations, many of which would not provide any fitness advantage. And when the construction project was completed, and the first horizontal gene transfer capability was possible, there would be no immediate advantage.


This is because there would have been no genes to transfer. The mechanism works only when it is present in more than one, neighboring, cells. One cell gives, and another cells receives. By definition the mechanism involves multiple cells.


But it doesn’t stop there. Even if the first horizontal gene transfer capability was able to spread across a population, and even if it did provide a fitness advantage to the fortunate citizens, there would not be even a hint of the enormous world of biological innovations that had just been opened.


In other words, what this evolutionary narrative entails is monumental serendipity. Biological structures and mechanisms (horizontal gene transfer in this case, but it is the same story with the other hypotheses listed above) are supposed to have evolved as a consequence of a local, proximate, fitness advantage: a bacteria could now have a gene it didn’t have before.


But it just so happened that the new structures and mechanisms would also, as a free bonus, be just what was needed to produce all manner of biological innovations, far beyond assisting a lowly bacteria increase its fecundity.


This is monumental serendipity.

Undaunted, the new paper finds that one of the other mechanisms, gene duplication and subsequent neofunctionalization, is a key enabler and pathway to biological innovations.


That conclusion resulted from what otherwise was a fine piece of research work. The experimenters exposed different populations of Pseudomonas aeruginosa, a dangerous infectious bacteria, to 95 new sources of its favorite food: carbon.


The bacteria had to adjust to the new flavors of carbon and they did so with various genetic modifications, including various genetic mutations. In the most challenging cases (where the new carbon sources were most difficult for the bacteria to adjust to), the bacteria often produced mutations in genes involved in transcription and metabolism. And these mutations often occurred in genes where there were multiple copies, so the mutations occurred in one copy while the other copy could continue in its normal duties.


The problem is, these genetic duplicates were preexisting in the P. aeruginosa genome. This is yet another instance of serendipity.


Why? Because preexisting duplicates are not common. Only about 10% of the genes have duplicates lying around, and fortunately, the genes needed for adaptation (involving transcription and metabolism) just happened to have such duplicates.


Now there were a few instances of de novo gene duplication. That is, once the experiment began, and after the P. aeruginosa populations were exposed to the challenging diets, a total of six genes underwent duplication events. But in each and every case, the duplication events occurred repeatedly and independently, in different populations (for each of the 95 different carbon sources, the experimenters ran four parallel trials with independent populations).


This result indicates directed gene duplication. This is because it is highly unlikely that random, chance, gene duplication events just happened hit on the same gene in different populations. Here is an example calculation.


Let’s assume that in the course of the experiment, which ran for 30 days and about 140 generations of P. aeruginosa, some genes may undergo duplication events by chance. Next assume there is a particular gene that needs to be duplicated and modified in order to for P. aeruginosa to adapt to the new food source. (Note that there may be several such genes, but as we shall see that will not affect the conclusion). Given that there are four separate, independent trials, what is the probability that the gene will be duplicated in two or more of those trials?


Let P_dup be the probability that any gene is duplicated in the course of the experiment. For our gene of interest, it may be duplicated in 0, 1, 2, 3, or all 4 of the trials. The binomial distribution describes the probability, P, of each of these outcomes. To answer our question (i.e., What is the probability that the gene will be duplicated in two or more of those trials?) we sum the binomial distribution’s value for N = 2, 3 and 4. In other words, we calculate P(2) + P(3) + P(4).


This will give us the probability of observing what was observed in the experiment (i.e., the duplication events occurred repeatedly and independently, in different populations, in all 6 cases where duplication events were observed).


Well for a reasonable value of P_dup, the probability that any gene is duplicated in the course of the experiment, such as 0.0001, the probability of observing multiple duplications events for any given food source (i.e., P(2) + P(3) + P(4)) is about 60 in one billion, or 6 times 10^-8. Even worse, the probability of observing this in all 6 cases where duplication events were observed is about 5 times 10^-44.


It isn’t going to happen.


Exceptionally high rates of gene duplication, in particular genomic regions of Salmonella typhimurium, in a high growth rate medium, were observed to be about 0.001 and even slightly above 0.01 in rare cases.


If we go all out and set P_dup to an unrealistically high 0.1, our results are still unlikely. The P(2) + P(3) + P(4)) is .05, and the probability of observing this in all 6 cases where duplication events were observed is about 2 times 10^-8.


In order to raise these probabilities to reasonable levels, such that what was observed in the experiment is actually likely to have occurred, we need to raise P_dup to much higher values. For example, for a P_dup of .67 (two-thirds probability), P(2) + P(3) + P(4)) is .89, and the probability of observing this in all 6 cases where duplication events were observed is about .5.


But even this doesn’t work. For if we were to imagine unrealistically high P_dup values of 0.1 or higher, then massive numbers of duplication events would have been observed in the experiments.


But they weren’t.


Once again, the science contradicts the theory. Our a priori assumption that evolution is a fact, and that the P. aeruginosa adaptations to the new food sources were driven by random mutations, did not work. The theory led to astronomically low probabilities of the observed results.


What the observed gene duplications are consistent with is directed gene duplications. Just as mutations have been found to be directed in cases of environmental challenges, it appears that gene duplications may also be directed.


The paper’s premise, that biological innovations such as flowers and wings are analogous to bacteria adapting to new nutrient sources, is fallacious. But setting that aside, the experimental results do not make sense on evolution’s mechanism of random mutations and natural selection. Instead, the results indicate directed adaptation.

Isaiah chapter 44 Legacy Standard Bible

 



Isaiah 44

“But now hear, O Jacob, My servant,

And Israel, whom I have chosen:

Thus says Yahweh who made you

And formed you from the womb, who will help you,

‘Do not fear, O Jacob My servant,

And you Jeshurun whom I have chosen.

For I will pour out water on the thirsty ground

And streams on the dry land;

I will pour out My Spirit on your seed

And My blessing on your offspring;

And they will spring up among the grass

Like poplars by streams of water.’

This one will say, ‘I am Yahweh’s’;

And this one will call on the name of Jacob;

And this one will write on his hand, ‘Belonging to Yahweh,’

And will name Israel’s name with honor.

“Thus says Yahweh, the King of Israel and his Redeemer, Yahweh of hosts:

‘I am the first, and I am the last,

And there is no God besides Me.

Who is like Me? Let him call out and declare it;

And let him tell it to Me in order,

From the time that I established the ancient people.

And let them declare to them the things that are to come

And the events that are going to take place.

Do not be in dread and do not be afraid;

Have I not long since caused it to be heard to you and declared it?

And you are My witnesses.

Is there any God besides Me,

Or is there any other Rock?

I know of none.’”

Those who form a graven image are all of them futile, and their desirable things are of no profit; even their own witnesses fail to see or know, so that they will be put to shame.

10 

Who has formed a god or cast a graven image to no profit?

11 

Behold, all his companions will be put to shame. The craftsmen themselves are mere men. Let them all assemble themselves, let them stand up, let them be in dread, let them together be put to shame.

12 

The man crafts iron into a cutting tool and does his work over the coals, forming it with hammers and working it with his powerful arm. He also gets hungry and has no power; he drinks no water and becomes weary.

13 

Another crafts wood, he extends a measuring line; he outlines it with a stylus. He makes it with planes and outlines it with a compass and makes it like the form of a man, like the glory of man, so that it may sit in a house.

14 

In order to cut cedars for himself, he takes a cypress or an oak and raises it for himself among the trees of the forest. He plants a fir, and the rain makes it grow.

15 

Then it becomes something for a man to burn, so he takes one of them and warms himself; he also kindles a fire to bake bread. He also works to produce a god and worships it; he makes it a graven image and falls down before it.

16 

Half of it he burns in the fire; over this half he eats meat as he roasts a roast and is satisfied. He also warms himself and says, “Aha! I am warm; I have seen the fire.”

17 

But the rest of it he makes into a god, his graven image. He falls down before it and worships; he also prays to it and says, “Deliver me, for you are my god.”

18 

They do not know, nor do they understand, for He has smeared over their eyes so that they cannot see and their hearts so that they will have no insight.

19 

No one causes this to return to his heart, nor is there knowledge or understanding to say, “I have burned half of it in the fire and also have baked bread over its coals. I roast meat and eat it. Then I make the rest of it into an abomination; I fall down before a block of wood!”

20 

He feeds on ashes; a deceived heart has turned him aside. And he cannot deliver his soul, and he cannot say, “Is there not a lie in my right hand?”

YAHWEH FORGIVES AND REDEEMS

21 

“Remember these things, O Jacob,

And Israel, for you are My servant;

I have formed you, you are My servant;

O Israel, you will not be forgotten by Me.

22 

I have wiped out your transgressions like a thick cloud

And your sins like a cloud.

Return to Me, for I have redeemed you.”

23 

Shout for joy, O heavens, for Yahweh has done it!

Make a loud shout, you lower parts of the earth;

Break forth into a shout of joy, you mountains,

O forest, and every tree in it;

For Yahweh has redeemed Jacob

And in Israel He shows forth His beautiful glory.

24 

Thus says Yahweh, your Redeemer, and the one who formed you from the womb,

“I, Yahweh, am the maker of all things,

Stretching out the heavens by Myself

And spreading out the earth all alone,

25 

Causing the omens of boasters to be annulled,

And making fools out of diviners,

Causing wise men to turn back,

And making foolishness out of their knowledge,

26 

Confirming the word of His servant⁠—

And the counsel of His messengers He will complete⁠—

And being the One who says of Jerusalem, ‘She shall be inhabited!’

And of the cities of Judah, ‘They shall be built.’

And I will raise up her waste places again.

27 

It is I who says to the depth of the sea, ‘Be dried up!’

And I will make your rivers dry.

28 

It is I who says of Cyrus, ‘He is My shepherd!

And all My good pleasure he will complete.’

And saying of Jerusalem, ‘She will be built,’

And of the temple, ‘Your foundation will be laid.’”


The highest tech of all

 Listen: Carbon Valley Trumps Silicon Valley


Got a smartphone? As complicated a machine as it is, it doesn’t compare to the incredible sophistication found in biology. On a classic episode of ID the Future, we hear from two contributors to the Crossway Anthology, Theistic Evolution: A Scientific, Philosophical, and Theological Critique, molecular biologist Douglas Axe and philosopher of science Stephen Meyer. They explain how Carbon Valley trumps Silicon Valley, and shouts intelligent design. They compare some of today’s technological marvels to living technology, and show how even “simple cells” far exceed the best that Silicon Valley has to offer. As Meyer says: “Nobody doubts that natural selection and random mutation is a genuine biological process. What we do doubt is that those mechanisms have the power to generate fundamentally new forms of life.” Download the podcast or listen to it Here