How math interprets biology and life, and the cosmos (Introduction)

by David Turell , Tuesday, September 05, 2023, 16:27 (445 days ago) @ David Turell

The math hidden in genetics:

https://www.sciencealert.com/scientists-discover-pure-math-is-written-into-evolutionary...

"Luckily for us, a motley team of researchers has just uncovered another striking connection between math and nature; between one of the purest forms of mathematics, number theory, and the mechanisms governing the evolution of life on molecular scales, genetics.

"Abstract as it may be, number theory might also be one of the more familiar forms of math to many of us. It encompasses the multiplication, subtraction, division, and addition (arithmetic functions) of integers, or whole numbers and their negative counterparts.

"The famed Fibonacci sequence is but one example, where each number in the sequence is the sum of the previous two. Its patterns can be found all through nature, in pinecones, pineapples, and sunflower seeds.

"'The beauty of number theory lies not only in the abstract relationships it uncovers between integers, but also in the deep mathematical structures it illuminates in our natural world," explains Oxford University mathematician Ard Louis, senior author of the new study.

***

"Mutations accumulate at a steady rate over time, charting the genetic relationships between organisms as they slowly diverge from a common ancestor.

"Organisms need to be able to tolerate some mutations though, to preserve their characteristic phenotype whilst the genetic lottery continues to deal out substitutes that may or may not be advantageous.

"This so-called mutational robustness generates genetic diversity, yet it varies between species, and can even be observed in the proteins inside cells.

"Studied proteins can tolerate around two-thirds of random errors in their coding sequences, meaning 66 percent of mutations are neutral and have no effect on their final shape.

***

"Louis and colleagues wondered how close nature could get to the upper bounds of mutational robustness, so ran numerical simulations to compute the possibilities.

"They studied the abstract mathematical features of how many genetic variations map to a specific phenotype without changing it, and showed mutational robustness could indeed be maximized in naturally-occurring proteins and RNA structures.

"What's more, the maximum robustness followed a self-repeating fractal pattern called a Blancmange curve, and was proportional to a basic concept of number theory, called the sum-of-digits fraction.

"'We found clear evidence in the mapping from sequences to RNA secondary structures that nature in some cases achieves the exact maximum robustness bound," says Vaibhav Mohanty, of Harvard Medical School.

"'It's as if biology knows about the fractal sums-of-digits function."

"Once again math appears to be an essential component of nature that gives structure to the physical world, even on microscopic levels."

Comment: God, the master designer, is a master mathematician.