Our Cryptochrome Our Melatonin Our Brain's Electrical Capacity

Our Streptomyces Strains Have Plasmids, That Are The Genetic Structure In The Cell That Can Replicate Independently of The Chromosomes in Small Circular Strands in The Cytoplasm of Our Bacterium and Protozoan. Plasmid Can Be Used in The Manipulation of Genes. This is a Small Molecule Within The Cell Which is Physically Separate From The Chromosomal DNA and Can Replicate Itself Independently. Plasmids Are a Linear or Double Stranded DNA That Replicates Itself From The Chromosomal DNA. Our Streptomyces Structure is Cryptochrome and is Encoded Within a Three-Gene Operon in Our Prototypic Soil Bacterium Streptomyces coelier. This Operon is Popular Amongst Streptomyces. The Cryptochrome Produces Polymers of Flaviolin, Which is a Pigment to Protect Microbes From UV Radiation. Cryptochrome Flavoproteins Are Components of Our Mammilian Molecular Circadian Clock That Operates Through An Auto-Regulatory Transcription Translation Feedback Loop. Our Circadian Clock Cryptochrome Proteins Regulate Our Autoimmunity. Cryptochromes Regulate The Expression of Our Proinflammatory Cytokines. Blue Light Governs Our Cellular Responses in Our Bacteria, Plants and Animals Including Photoactivation Plant Development and Circadian Photoentrainment That is Mediated By Flavoproteins, Photolyase Cryptochrome Family. In Our Melatonin, which is Our Hormone Secreted By Our Pineal Gland. Our Pineal Gland is Our Pea Sized Gland Found In The Center of Our Brain That Regulates Our Sleep, Wake Times, Regulation Of Our Circadian Rhythms and is Responsible For Our Skin Color. Melatonin, the Precursor to Our Melatonin is Our Neurotransmitter That is Drived From Our Amino Acid Tryptophan. In Our Pineal Gland Serotonin is Acetylated Then Methylated To Make Our Melatonin. In Our Brain, Trytophan, Is Our Crystalline Amino Acid and a Precursor to Our Serotonin and Our Melatonin. Our Mix Of L-Tryptophan, Melatonin and Our Gamma Aminobutyric Acid GABA. In Our Serotonergic System, In Our Central Nervous System Our Tryptophan Levels, Which Concludes That Fact of The Role of Serotonin in Our Higher Order Brain Function. Our Gut-Brain and Gastrointestinal Tract Bidirectional Function, Our Gut Microbiota, Our Tryptophan and Serotonin Are Producing Our Determinations in Our Pathophysiology In Reference to Our Central Nervous System. Our Circadian Clock Affects Our Gut Microbiome on a Daily Time Frame. Our Species Of Our Human Gut Bacteria, Enterbacter aeogenes, Has It's Own Circadian Rhythm and Responds to The Fluctuations in Our Hormone Melatonin. Our Release and Production of Our Melatonin Occurs Daily as Our Circadian Rhythm That Peaks At Night and Is Secreted Into Our Blood Stream and Cerebral Spinal Fluid. Reduced Levels of Tryptophan in Our Blood Can Lead To Depression. Our Body Does Not Produce Tryptophan, Which Is Our Essential Amino Acid, This Has to Be Ingested by The Food That We Eat. In Our Aging Process Our Tryptophan Metabolism Can Lead to Our Age Related Pathologies. The Enzymes that Breaks Down Our Tryptophan Are Found In Our Cell Types Including Our Immune Cells Through Our Pathways, Postulating That Our Tryptophan Breakdown Suppresses Our T Cell Proliferation Which Enables Supply of Our Important Amino Acid. In Reference to Our Multi Layered Neural Network, This is Our Brain Capacity of Strong Visual Pattern Recognition. These are Top-Down Connections in Our Brain That Recognize Patterns, High Levels of Functioning. Learning is The Process of Our Hierarchial Function In Our Brain. This Functions Has Forward Passes of Information In Our Brain. Then, Back Probagation,Which Enables Us To Compute a Thought and All It's Details Which Constitutes Our Deep Learning Ability. This is Our Electrical Capacity of Our Action Potential That is Generated Along Our Axons As A Wave Along Our Axon. Our Electrical Currents flowing to Our Axons and Back Through Our Dendrites In Which Our Initial Electrical Current Was Established. Thank-you.