Spherical tensor analysis of nuclear magnetic resonance signals for understanding chemical shielding tensors of DNA/RNA in gum cancer cells using group theory, MO analysis, and modern density–functional theory
Alireza Heidari, Ricardo Gobato, Lauro Figueroa Valverde
Abstract
Spherical tensor analysis of nuclear magnetic resonance signals for understanding chemical shielding tensors of DNA/RNA in gum cancer cells using group theory, MO analysis, and modern density-functional theory is commonly used for characterization in biology and medicine because vibrational information is very specific for the chemical bonds in molecules and this makes it an attractive approach for the identification of spherical tensor analysis of nuclear magnetic resonance signals for understanding chemical shielding tensors of DNA/RNA in gum cancer cells using group theory, MO analysis, and modern density-functional theory and biological materials such as toxins, cancers, or intact bacterial cells/spores. Spherical tensor analysis of nuclear magnetic resonance signals for understanding chemical shielding tensors of DNA/RNA in gum cancer cells using group theory, MO analysis, and modern density-functional theory has been used to study chemical bonds of the human immunodeficiency gum cancer in human and DNA/RNA sequences related to gum cancer. The spherical tensor analysis of nuclear magnetic resonance signals for understanding chemical shielding tensors of DNA/RNA in gum cancer cells using group theory, MO analysis, and modern density-functional theory has been used for gum cancer detection and also has been used to detect sub-attomolar gum cancer cells DNA/RNA. Spherical tensor analysis of nuclear magnetic resonance signals for understanding chemical shielding tensors of DNA/RNA in gum cancer cells using group theory, MO analysis, and modern density-functional theory has not been investigated. In this study, we present the results of the spherical tensor analysis of nuclear magnetic resonance signals for understanding chemical shielding tensors of DNA/RNA in gum cancer cells using group theory, MO analysis, and modern density-functional theory of gum cancer. The DNA/RNA of gum cancer cells capsid protein also known as CA, is a major structural protein of the gum cancer. The aim of this work is to describe the spherical tensor analysis of nuclear magnetic resonance signals for understanding chemical shielding tensors of DNA/RNA in gum cancer cells using group theory, MO analysis, and modern densityfunctional theory of gum cancer. We believe that the results of this research may be useful in eventually developing a remote technique for detecting gum cancer.