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Proteins: Difference between revisions
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[[Proteins]] are very important because they build the DNA ladder and they do all the enzymatic work in the cells that are required for the structure, function, and regulation of the body’s tissues and organs. [[Proteins]] regulate all of the metabolic reactions in the cell and serve as the enzymes needed to catalyze the body’s cellular reactions. Everything that can be seen in a physical biology is either made up of proteins or is the result of the functions of those proteins. | [[Proteins]] are very important because they build the DNA ladder and they do all the enzymatic work in the cells that are required for the structure, function, and regulation of the body’s tissues and organs. [[Proteins]] regulate all of the metabolic reactions in the cell and serve as the enzymes needed to catalyze the body’s cellular reactions. Everything that can be seen in a physical biology is either made up of proteins or is the result of the functions of those proteins. | ||
==Chemicals of Life== | |||
[[Chemicals]] are substances made of one or more elements bonded together, which generally indicates the chemical interaction that happens between the substances. A chemical substance is a form of matter having constant chemical composition and characteristic properties. However, when discussing the fundamental process of [[DNA]], we are primarily concerned with the [[Proteins]] which are the [[Chemicals of Life]].<ref>[https://energeticsynthesis.com/resource-tools/3865-enki-dna-overlays Enki DNA]]</ref> | |||
==Genes make Proteins== | ==Genes make Proteins== | ||
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The process of turning genes on and off is known as [[Gene Regulation]]. Gene regulation can be controlled by [[Electromagnetic Signals]] coming from the environment or from other cells that activate proteins called transcription factors. A transcription factor is also called a sequence specific DNA binding factor and is a protein that binds to specific DNA sequences, thereby controlling the rate of transcription of genetic information from DNA to the messenger RNA. These [[Proteins]] bind to the regulatory regions of a gene and increase or decrease the level of transcription factors. By controlling the level of transcription factors, this process can determine the amount of protein produced and the level of function that protein was designed for, that is made by a gene at any given time. [[Gene Regulation]] can occur at any point during gene expression, but most commonly occurs when the information in a gene’s DNA is transferred to the messenger RNA. One of the ways the protein transcription factors can be interfered with in the human body is through the production of [[GMO|genetically modified foods]] and by adding toxic chemicals, in small doses, that are used as preservatives in commercially produced products that are marketed as foods.<ref>[http://www.energeticsynthesis.com/resource-tools/news-shift-timelines/3129-genetic-engineering Genetic Engineering]</ref> | The process of turning genes on and off is known as [[Gene Regulation]]. Gene regulation can be controlled by [[Electromagnetic Signals]] coming from the environment or from other cells that activate proteins called transcription factors. A transcription factor is also called a sequence specific DNA binding factor and is a protein that binds to specific DNA sequences, thereby controlling the rate of transcription of genetic information from DNA to the messenger RNA. These [[Proteins]] bind to the regulatory regions of a gene and increase or decrease the level of transcription factors. By controlling the level of transcription factors, this process can determine the amount of protein produced and the level of function that protein was designed for, that is made by a gene at any given time. [[Gene Regulation]] can occur at any point during gene expression, but most commonly occurs when the information in a gene’s DNA is transferred to the messenger RNA. One of the ways the protein transcription factors can be interfered with in the human body is through the production of [[GMO|genetically modified foods]] and by adding toxic chemicals, in small doses, that are used as preservatives in commercially produced products that are marketed as foods.<ref>[http://www.energeticsynthesis.com/resource-tools/news-shift-timelines/3129-genetic-engineering Genetic Engineering]</ref> | ||
==Faulty Proteins== | |||
Some changes made to the [[DNA]] can mean the instructions are incorrect or harmful to the cells, so that a control switch is flipped and [[Faulty Proteins]] are being generated. A variation in a DNA site that creates faulty protein is also referred to as a [[Genetic Mutation]]. When a [[DNA]] change results in [[Faulty Proteins]] in the cells that need that protein to function correctly, this usually results in disease states, low immunity or symptoms that are recognized as a genetic condition.<ref>[http://www.energeticsynthesis.com/index.php/resource-tools/news-shift-timelines/2723-genetic-mutations Genetic Mutations January 2016]</ref> | |||
==References== | ==References== | ||
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[[Faulty Proteins]] | [[Faulty Proteins]] | ||
[[Chemicals of Life Run Human DNA]] | |||
[[Transhumanism]] | |||
[[CRISPR]] | |||
[[Mind Controlled Gene Expression]] | |||
[[Genetic Modification of Human DNA]] | |||
[[Category: Newsletter]] | [[Category: Newsletter]] | ||
[[Category:Ascension]] | [[Category:Ascension]] | ||