Sunday, March 24, 2024

Creation Moment 3/25/2024 - RG-II

And the earth brought forth grass, and herb yielding seed after his kind,.... Genesis 1:12

"Plants are able to stand erect because of their rigid cell walls.
Scientists have known that cell walls contained a complex carbohydrate called
RG-II, but didn’t know its function. Now, scientists at the University of Georgia have figured out that RG-II forms a fishnet-like arrangement held together by boron atoms that, along with cellulose, gives the cell wall rigidity something like reinforced concrete. This carbohydrate, one of the most complex in nature and used by all plants, requires a host of enzymes to manufacture:


RG-II has been known as an obscure, structurally weird polysaccharide that plants make,” said Malcolm O’Neill, senior research associate at UGA’s CCRC. “But we had no idea why plants went to all the effort to make it. There are 50 to 60 enzymes involved, 12 different sugars and 22 different linkages. There’s even one sugar that’s actually not been found anywhere else.”

They observed that mutants lacking a crucial side chain on the carbohydrate, or lacking boron, end up as dwarfs. The plants returned to normal by the addition of the missing ingredients.


Q: Did you catch the personification fallacy there? 
Plants don’t go to the effort to make something; they just respond to the engineering designed into their coded instructions. 
---Think about a process that requires 60 enzymes to complete, 
---when each enzyme is a complex, folded strand of dozens or hundreds of precisely-placed amino acids, 
---coded for by genes in the DNA library. 
The functions of enzymes and carbohydrates are highly dependent on having a precise shape, which in turn is highly dependent on the precise sequence of amino acids. 
The article agrees, “The sugar substitution [in the mutant form] changes the shape of the molecule . . . . As in all molecules – and in all biology – it’s the shapes of molecules that control their function.” *The chance of getting one enzyme right, let alone 50 or 60, is infinitesimally small; yet if any one of them is wrong, the entire manufacturing process comes to a halt. 
Q: How could this and thousands of other complex functional systems arise without design? 
Think about the degree of complexity at work the next time you look at a blade of grass standing upright against the force of gravity." 
CEH