1. Secondary metabolite type: catabolic, cachexia, anorexia, etc.; scale, size, quantity, quality, properties, stability, etc.; measure accuracy reliability precision, etc.; structure, function, static, dynamic, flux, etc.; system, surroundings; environment; experiment - efficacy (lab), effectiveness (not lab/etc.), empirical evidence, etc.; energy, molecule, processing, distribution, time, etc.; etc.
2. Gas, Smoke, Salt, Temperature,
3. Reflection, Mirror
4. Observations in laboratory relationship between bacteria inherent to environment at a given point in time. microbiome, intra-organismal interactions (within; intracellular), inter-organismal interactions (between; intercellular), etc.. Baseline establishment (quantity of bacteria at time, etc.); Delay period; Reference Point A (quantity of bacteria at time, etc.); etc..
5. Environment: Industrial chemicals and pesticides 100-200 yr organics, leads 500 years+, arsenic 100+ years, nerve agent/organophosphates/cyanide/trip bound nirogen/ringulants/aeromatics/vocs/explosives/etc. 100-800 yr, radiation 800-1000+ years, radioactive substance manufacturable at home (electricity, copper cables) ~300-500+ yr., phosphate 500+ years, industry 100+ years, industrialization and mass migration 300+ years, mixed race 1000+ years, neanders-disease-genetic disease-etc. present 2000-10000 yr., etc.. Refridgerants, Electricity, Indoor Plumbing with china porcelain roman lead, hygroscopants/dessicants/propellants/hydrags/etc. classified; Classification of trihydrogen cation deuterium oxygen triangle cascade cloak (a tech to make phys body not ost to unaided human eye; coord radioactive state change; poss modified human system etc.) distance incapacitaiton weapon amnestic-drug DCAT amnestic drug-antagonist clone genetic signature brain transplant to cover for trafficking ring (e.g. no other relevancy due neander should be extinct regardless), etc.. Large presence of nucleoradioactive, hydrogen, chemical change, earth change, etc.; large scale farming (fertilizers, insecticides, etc.) with MEAT; heavy trafficking ring sterilized people unknowing with families and disease contagion; unsanitary conditions - water, mold, alkalis nitrogen explosives/farming, potassium (alkali metal), potassium radioactive, chlorine wetting potas/hydrogen evap, etc.. Radioactive phosphate. phosphate industry and derivatives. etc..
6. Old microorganisms, Old genetic lines. Unknown environment hydrogen oxygen salt sulfur vents land lime calcium potas sodium hydros wood soil hay mildew. nitrogen digestion. urea.
7. Microbiome calibrations by x to reduce concentration of one or more groups of bacteria per occasion.
8. Nicotine secondary metabolite of plant antibiotic.
9.
Secondary MetabolitesAntibiotics
In the beginning of 20th century, the idea of growth inhibition of one microorganism present in the vicinity of other one came into existence. Later, it was demonstrated that growth inhibition of the former micro-organism was mediated by secretion of toxic metabolites by the later. This toxic metabolite was termed as 'antibiotic' and the phenomenon of act of growth inhibition by antibiotics as 'antibiosis'. The antibiotics are defined as "the complex chemical substances, the secondary metabolites which are produced by microorganisms and act against other microorganisms"....
Penicillins
It was Alexander Fleming (1929) who first discovered the bacteriostatic principle from a fungus and named it penicillin. He observed that a fungal contaminant prevented the growth of staphylococci, which was later on identified as Penicillium notatum. Clutterbuck et al, (1932) studied the chemical nature of penicillin. They found that penicillin was an organic acid which was dissolved into organic solvents from aqueous solutions at low pH. It was vulnerable to hydrogen ion (H+) and heat. After evaporation of solution to dryness, the biological activity was lost. Further studies done on P. notatum confirmed that this mould could produce about 2 ppm active substance....
https://biocyclopedia.com/index/biotechnology/microbial_biotechnology/secondary_metabolites/biotech_antibiotics.php
In the beginning of 20th century, the idea of growth inhibition of one microorganism present in the vicinity of other one came into existence. Later, it was demonstrated that growth inhibition of the former micro-organism was mediated by secretion of toxic metabolites by the later. This toxic metabolite was termed as 'antibiotic' and the phenomenon of act of growth inhibition by antibiotics as 'antibiosis'. The antibiotics are defined as "the complex chemical substances, the secondary metabolites which are produced by microorganisms and act against other microorganisms"....
Penicillins
It was Alexander Fleming (1929) who first discovered the bacteriostatic principle from a fungus and named it penicillin. He observed that a fungal contaminant prevented the growth of staphylococci, which was later on identified as Penicillium notatum. Clutterbuck et al, (1932) studied the chemical nature of penicillin. They found that penicillin was an organic acid which was dissolved into organic solvents from aqueous solutions at low pH. It was vulnerable to hydrogen ion (H+) and heat. After evaporation of solution to dryness, the biological activity was lost. Further studies done on P. notatum confirmed that this mould could produce about 2 ppm active substance....
https://biocyclopedia.com/index/biotechnology/microbial_biotechnology/secondary_metabolites/biotech_antibiotics.php
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