Does God Exist? - Argument From Molecular Biology - Kirk Durston

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The Capabilities of Chaos and Complexity: David L. Abel - Null Hypothesis For Information Generation - 2009...
The Capabilities of Chaos and Complexity: David L. Abel - Null Hypothesis For Information Generation - 2009 To focus the scientific community’s attention on its own tendencies toward overzealous metaphysical imagination bordering on “wish-fulfillment,” we propose the following readily falsifiable null hypothesis, and invite rigorous experimental attempts to falsify it: "Physicodynamics cannot spontaneously traverse The Cybernetic Cut: physicodynamics alone cannot organize itself into formally functional systems requiring algorithmic optimization, computational halting, and circuit integration." A single exception of non trivial, unaided spontaneous optimization of formal function by truly natural process would falsify this null hypothesis. *******www.mdpi****/1422-0067/10/1/247/pdf *******mdpi****/1422-0067/10/1/247/ag Signature in the Cell - Book Review - Ken Peterson Excerpt: the “simplest extant cell, Mycoplasma genitalium — a tiny bacterium that inhabits the human urinary tract — requires ‘only’ 482 proteins to perform its necessary functions…(562,000 bases of DNA…to assemble those proteins).” ,,, amino acids have to congregate in a definite specified sequence in order to make something that “works.” First of all they have to form a “peptide” bond and this seems to only happen about half the time in experiments. Thus, the probability of building a chain of 150 amino acids containing only peptide links is about one chance in 10 to the 45th power. In addition, another requirement for living things is that the amino acids must be the “left-handed” version. But in “abiotic amino-acid production” the right- and left-handed versions are equally created. Thus, to have only left-handed, only peptide bonds between amino acids in a chain of 150 would be about one chance in 10 to the 90th. Moreover, in order to create a functioning protein the “amino acids, like letters in a meaningful sentence, must link up in functionally specified sequential arrangements.” It turns out that the probability for this is about one in 10 to the 74th. Thus, the probability of one functional protein of 150 amino acids forming by random chance is (1 in) 10 to the 164th. If we assume some minimally complex cell requires 250 different proteins then the probability of this arrangement happening purely by chance is one in 10 to the 164th multiplied by itself 250 times or one in 10 to the 41,000th power. *******www.spectrummagazine****/reviews/book_reviews/2009/10/06/signature_cell Intelligent Design: Required by Biological Life? K.D. Kalinsky - Pg. 11 Excerpt: It is estimated that the simplest life form would require at least 382 protein-coding genes. Using our estimate in Case Four of 700 bits of functional information required for the average protein, we obtain an estimate of about 267,000 bits for the simplest life form. Again, this is well above Inat and it is about 10^80,000 times more likely that ID (Intelligent Design) could produce the minimal genome than mindless natural processes. *******www.newscholars****/papers/ID%20Web%20Article.pdf Could Chance Arrange the Code for (Just) One Gene? "our minds cannot grasp such an extremely small probability as that involved in the accidental arranging of even one gene (10^-236)." *******www.creationsafaris****/epoi_c10.htm Estimating the prevalence of protein sequences adopting functional enzyme folds: Doug Axe: Excerpt: Starting with a weakly functional sequence carrying this signature, clusters of ten side-chains within the fold are replaced randomly, within the boundaries of the signature, and tested for function. The prevalence of low-level function in four such experiments indicates that roughly one in 10^64 signature-consistent sequences forms a working domain. Combined with the estimated prevalence of plausible hydropathic patterns (for any fold) and of relevant folds for particular functions, this implies the overall prevalence of sequences performing a specific function by any domain-sized fold may be as low as 1 in 10^77, adding to the body of evidence that functional folds require highly extraordinary sequences. ******* Evolution vs. Functional Proteins - Doug Axe - Video *******www.metacafe****/watch/4018222/evolution_vs_functional_proteins_where_did_the_information_come_from_doug_axe_stephen_meyer/ Axe Diagram for finding a functional protein domain out of all sequence space: The y-axis can be seen as representing enzyme activity, and the x-axis represents all possible amino acid sequences. Enzymes sit at the peak of their fitness landscapes (Point A). There are extremely high levels of complex and specified information in proteins--informational sequences which point to intelligent design. *******www.evolutionnews****/axediagram.jpg Intelligent Design - The Anthropic Hypothesis *******lettherebelight-77.blogspot****/