Self-similarity and T-patterns from cell city to the only big-brain mass-societies formed in a recent eyeblink: Proteomics as bio-sociology

Abstract

Magnus S Magnusson

This talk concerns spatial and temporal self-similarity across more than nine orders of magnitude, implicating a self-similar fractal-like pattern, called T-pattern, a natural or pseudo-fractal pattern, recurring with statistically significant translation symmetry (Magnusson et al. eds. 2016). It is here presented in the order realized within a longstanding primarily ethological (i.e. biology of behavior) project beginning in the early 1970�??s concerning social interaction and organization in social insects and primates including humans and inspired mainly by the work of Lorenz, von Frisch and Tinbergen for which they shared a Nobel Prize in Medicine or Physiology in 1973. The smallest animals concerned in their ethological work were social insects and there was no implication of self-similarity. The present project has focused on developing time pattern definitions and corresponding detection tools resulting in the T-pattern type and corresponding detection algorithms implemented as the THEME software, which has allowed their abundant detection (Casarrubea et al., 2015), in many kinds of animal and human behavior and interactions and later in neuronal interactions within living brains (Nicol et al.), in this way indicating T-designed self-similarity of worldly association between and inside cerebrums. Apparently, the RNA world invented its evolving external memory as the purely informational T-patterned DNA strings and now there is only a DNA world. Similarly, humans invented their evolving external memory as the purely informational T-patterned strings of written language making possible very recently and in a biological eye-blink the development of modern science and innovation and the formation of incredibly crowded and complex human mass-social orders, the main mass-social orders among enormous brained creatures and now completely dependent on T-designed content strings.