We hypothesize that predictable variations in environmental conditions caused
by night/day cycles created opportunities and hazards that initiated information dynamics
central to life’s origin. Increa Show more
We hypothesize that predictable variations in environmental conditions caused
by night/day cycles created opportunities and hazards that initiated information dynamics
central to life’s origin. Increased daytime temperatures accelerated key chemical reactions
but also caused the separation of double-stranded polynucleotides, leading to hydrolysis,
particularly of single-stranded RNA. Daytime solar UV radiation promoted the synthesis of
organic molecules but caused broad damage to protocell macromolecules. We hypothesize
that inter-related simultaneous adaptations to these hazards produced molecular dynamics necessary to store and use information. Self-replicating RNA heritably reduced the
hydrolysis of single strands after separation during warmer daytime periods by promoting sequences that formed hairpin loops, generating precursors to transfer RNA (tRNA),
and initiating tRNA-directed evolutionary dynamics. Protocell survival during daytime
promoted sequences in self-replicating RNA within protocells that formed RNA–peptide
hybrids capable of scavenging UV-induced free radicals or catalyzing melanin synthesis
from tyrosine. The RNA–peptide hybrids are precursors to ribosomes and the triplet codes
for RNA-directed protein synthesis. The protective effects of melanin production persist
as melanosomes are found throughout the tree of life. Similarly, adaptations mitigating
UV damage led to the replacement of Na+ by K+ as the dominant mobile cytoplasmic
cation to promote diel vertical migration and selected for homochirality. We conclude that
information dynamics emerged in early life through adaptations to predictably fluctuating
opportunities and hazards during night/day cycles, and its legacy remains observable in
extant life. Show less
There are no theorems (proven theories) in the biological sciences. We propose that the 3 31 nt minihelix tRNA evolution theorem be universally accepted as one. The 3 31 nt minihelix theorem completel Show more
There are no theorems (proven theories) in the biological sciences. We propose that the 3 31 nt minihelix tRNA evolution theorem be universally accepted as one. The 3 31 nt minihelix theorem completely describes the evolution of type I and type II tRNAs from ordered precursors (RNA repeats and inverted repeats). Despite the diversification of tRNAome sequences, statistical tests overwhelmingly support the theorem. Furthermore, the theorem relates the dominant pathway for the origin of life on Earth, specifically, how tRNAomes and the genetic code may have coevolved. Alternate models for tRNA evolution (i.e., 2 minihelix, convergent and accretion models) are falsified. In the context of the pre-life world, tRNA was a molecule that, via mutation, could modify anticodon sequences and teach itself to code. Based on the tRNA sequence, we relate the clearest history to date of the chemical evolution of life. From analysis of tRNA evolution, ribozyme-mediated RNA ligation was a primary driving force in the evolution of complexity during the pre-life-to-life transition. TRNA formed the core for the evolution of living systems on Earth. Show less