My claim is that natural chemistry partitions a primitive set of chemicals to manage a seasonal exchange of two distinct phase stages, to match the seasons. And that is life.
Evolution doing random chemistry to tackle the chaos of mixing chemicals and energy. Earth and seasonality is much more important to evolution then we thought before. Any odd change in rotation, irradiation, and we may not have found the proper latitude for a seasonality that maximally utilize nitrogen, phosphorous to manages carbon and water.
without chiral for managing the alternate state, it would be impossible. But chiral is very slow to unravel, that is the secret and the limits. A potential disruption in the spore mean searching chiral. So chiral is a season filter. I takes a long time for water to seep out, essentially. But the bubble reactants do not want more spiral then needed, as it has to unravel during wet season. Thus, a season rate must be adapted to get the optimum partition, overall, in chiral. The pond needs to maintain a partition of the wrong chiral for food storage.
If you match latitude in this model to the optimum expressability of chirility, if possible, then only one latitude would stand out. The possibilities of nitrogen and phosphorous maximized across the two alternate phases of pseudo proteins. The division in chirility makes for the maximum combinations of contortions in these ladder networks, and the subset of those that take a season to unravel makes for reproducing life.
These spores are like primitive viruses. They are slightly exothermic when wet hence act as active filters for the amino separating layer. They will become endothermic in maintaining a wet layer under warm conditions. The combination is specific, only the nearly exact partition of aminos will work and dominate simply because they are catalyzing the most carbon water reactions by having the optimum ratio of pseudo protein chiral. They carry earths watermark, so to speak, and dominated way before anything we really call a cell happened.
No comments:
Post a Comment