Note: These terminologies describe a groundbreaking field of science and concepts. If any individuals or groups adopt different terms to describe the same ideas, they will not be exempt from accusations of plagiarism. Studies on non-genetic code-based RNA that utilize NADH-GDH technologies fall entirely under these scientific concepts.
1. These new terminologies in the life sciences describe the discovery of template-independent RNA processes that control the survival of cells and organisms other than genes.
The building blocks of this life regulatory system are made up of a unique type of RNA that are not coded nor synthesized through the genetic code. These template-independent RNAs are called chimerenomic RNAs.
2. Chimerenomics: Is the study of everything (NTintis, chigramming, GDH- chimmerization, chimere etc) about chimerenomic RNAs. Chimerenomics confers molecular chemistry pluripotency and totipotency to all cells and tissues. Chimerenomics are the processes by which whole organisms, cells and tissues differentiate, develop and grow by chigramming chimerenomic RNAs that interact with the changing physicochemical internal and external environmental conditions thereby reprogramming and optimizing those metabolic reactions that assure the continued survival of the organism.
3. Chimere: Is the minimum length of nucleotide sequence that can degrade homologous mRNA and other genetic code-based RNAs. Chimere is the active segment of NTinti.
4. NTinti: This is the chimerenomic RNA molecule chigrammed (synthesized) by NADH- glutamate dehydrogenase hexameric redox cycle isoenzymes (GDH) in response to a specific environmental change. NTinti is also synthesized naturally in vivo during normal tissue differentiation, growth and development. Therefore, NTinti can be cell or tissue specific. One NTinti has more than one chimere.
5. Chigramming: This is the process of synthesis of chimeres and NTintis by GDH. It is a spontaneous process. It is the conversion of the electromagnetic changes in the environmental conditions of cells, tissues, whole organisms to the nucleotide sequences of chimerenomic RNAs.
6. GDH-Chimerization: This is the formation of chemical Schiff base of GDH isoenzymes in response to a new environment leading to new hexameric isoenzyme complexes. This is the initiation process for chigramming.
7. Functional chimerenomics: This is the study of the biological functions of chimere and NTinti.
8. Differential chimerenomics: This is the comparison study of the chimeres and NTintis from same or different tissues under various environmental conditions.
9. Other terminologies
