LOCAL AND NON-LOCAL
On Synthetic Biology
Brief and simplified discernment to strengthen, complement, and support the following exploration https://www.youtube.com/watch?v=nhGv20KiU3s. And all related scientific explorations and quests:
Much is still unknown about molecular and living cells. And the minimal cell metabolism mentioned is still synthetic since it is still dependent of stimulus inputs and conditions to the cells as mentioned in the presentation. And therefore, do not function through self driven processes and mechanism (as parts of sum of parts of the whole) such as in natural living cells (such as repair, sustain, replicate, autophagy, and functions that are cellular specific such as metabolism and immune functions).
Furthermore, developing synthetic biology is not only about the functionality of cells; rather also about their intertwinement and entanglement with each others. And related parts or aspects of the whole (i.e. topology, structure, function, information and memory, process, mechanism, and order). Another simple way of saying is natural cells creation and sustainment have been the intertwinement and entanglement of spectra-field, quanta, atoms, molecules, other cells, and the whole in the local and non-local cosmos from the creation of a species. And as such, not only there are interdependent and interconnected functions to each others; rather also to other cells and organisms that have been co-evolved with the species. And as well as diverse fields that are interdependent and interconnected. And resonate (i.e. such as energy, frequency, vibration) with each others. And from the macro to micro to quantum and beyond.
For example, bio and morphic fields at the macro-micro or electromagnetic, quantum, and beyond spectra-fields across realms of parts, sum of parts, and the whole in the local and non-local cosmos. While this is currently not the case with synthetic biology.
A brief and simple illustration would be the many effects and causalities of organs transplanted. And which vary with types of organs. And therefore, the relationship between parts, sum of parts, and the whole or their intertwinement and entanglement as well as related processes and mechanisms need to be analyzed and benchmarked in development of synthetic biology and applications. And as illustration of potential applications beside to better species conditions and potentials https://www.epistemologyontologyfoundationinstitute.org/global-science-technology-and-innovation-movement/toward-natural-synthetic-and-ai-and-many-body-composite-system.
Another simple example is cells in each individual has the identity specifically to that individual. And as such, swapping individuals cells are not simple tasks which is known in stem cells and cells therapies research and development or a main reason for such researches, developments, and applications since stem cells could be programmed or tailored to the individuals.
And even more simple and relatable example is even natural protein such as in food and nutrition or plants pollen can easily cause inflammation and complication in an individual but not in others since there are many variants to body-mind complexity.
Uncovering a promising use case for exosomes (phys.org)
Stem cell memories may drive wound repair, and also chronic disease (phys.org)
Initiative of Epistemology of Life and Ontology of Existence Foundation and Institute
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