In the current work, the anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs as a modern tool for studying DNA/RNA dynamics in gum cancer cells are studied. While improvements in screening have enabled the early diagnoses of many gum cancers, the significant number of diagnoses that eventually lead to death (~20% at 15 years) provide the primary impetus for advances in surgical intervention.
anti–cancer nano drug delivery, filtered transferred dynamic, measurements, DNA/RNA interactions, short non–linear motifs, gum cancer cells
The anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs as a modern tool for studying DNA/RNA dynamics in gum cancer cells has emerged as a promising biochemical technique for real–time, in vivo, non–destructive detection of many types of gum cancer [1-10]. The anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs as a modern tool for studying DNA/RNA dynamics in gum cancer cells generates biochemical fingerprints reflecting a tissue’s current biological composition and activity [1-10]. Multiple groups have demonstrated that healthy and malignant gum cancer tissue produce distinct the anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs as a modern tool for studying DNA/RNA dynamics in gum cancer cells [1-10]. These differences are attributed to biochemical composition alterations in malignant tissue relative to healthy tissue, such as a reduced fatty–acid concentration, variable collagen content, and increases in spectral signatures associated with elevated concentrations of DNA, RNA, and peri–nuclear proteins in tumor sites when compared to healthy tissue [1-10]. Although previous generations of the anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs as a modern tool for studying DNA/RNA dynamics in gum cancer cells systems have successfully detected specific biochemical signatures of gum cancer, our experience is that they have been too expensive, fragile, and/or cumbersome to deploy into widespread clinical use.
In this paper, we applied the anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs as a modern tool for studying DNA/RNA dynamics in gum cancer cells to analyze the most relevant biochemical differences among cartilaginous tumors of bone from 10 patients. The anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs as a modern tool for studying DNA/RNA dynamics in gum cancer cells approach providing biochemical information improves the diagnostic analysis based on morphological features. Currently, histologic grade remains the single best predictor of clinical behavior in CS. CS G1 behaves essentially as a locally aggressive tumor, with metastatic disease developing only in exceptional cases, whereas CS G2 and CS G3 present a high risk of distant metastases. Our data indicating a greater difference in the anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs as a modern tool for studying DNA/RNA dynamics in gum cancer cells between CS G1 and CS G2 are in agreement with this shift in the biologic behavior of CS characterized by the acquisition of a metastatic behavior, thus underscoring their clinical relevance. The ability of the anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs as a modern tool for studying DNA/RNA dynamics in gum cancer cells to discriminate between the chondrogenic tumors grading with 90% of sensitivity, 90% specificity and 90% of accuracy by means of LDA algorithm has been evidenced. This ability of the anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs as a modern tool for studying DNA/RNA dynamics in gum cancer cells can have significant impact in the diagnosis of chondrogenic tumors (Figure 1).
Figure 1. The anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs
Gum cancer diagnosis remains one of the biggest challenges in medicine. The development of new non–invasive strategies or the improvements of existing ones makes the anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs as a modern tool for studying DNA/RNA dynamics in gum cancer cells fundamental for diagnosing the chemical compositions of cells and tissues. The anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs as a modern tool for studying DNA/RNA dynamics in gum cancer cells is able to probe fundamentals vibrational states of biomolecules, and exploits a label–free and non–destructive optical approach. The anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs as a modern tool for studying DNA/RNA dynamics in gum cancer cells is thus being used more and more frequently to analyses biological tissues. In fact, for various types of gum cancers, in vivo biopsy imaging and histopathological analyses are carried out using the anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs as a modern tool for studying DNA/RNA dynamics in gum cancer cells. The anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs as a modern tool for studying DNA/RNA dynamics in gum cancer cells is also exploited to evaluate the biochemical attributes of bones, and has revealed pathological changes in the components of the bone matrices. These changes include alterations in phosphate, carbonate and collagen degradation, as well as spectral changes in terms of bone metastasis primed by prostate and gum cancer. With these abilities, the application of the anti–cancer Nano drug delivery 13C–edited/13C–filtered transferred dynamic 15N{1H} NOE measurements for studying DNA/RNA interactions with short non–linear motifs as a modern tool for studying DNA/RNA dynamics in gum cancer cells to the early diagnosis of bone tumors is more than ever necessary.
This study was supported by the Cancer Research Institute (CRI) Project of Scientific Instrument and Equipment Development, the National Natural Science Foundation of the United Sates, the International Joint BioSpectroscopy Core Research Laboratory Program supported by the California South University (CSU), and the Key project supported by the American International Standards Institute (AISI), Irvine, California, USA.
- Heidari A, Brown C (2015) Study of composition and morphology of cadmium oxide (CdO) nanoparticles for eliminating cancer cells. J Nanomed Res 2(5): 20.
- Heidari A, Brown C (2015) Study of surface morphological, phytochemical and structural characteristics of rhodium (III) oxide (Rh2O3) nanoparticles. International Journal of Pharmacology, Phytochemistry and Ethnomedicine 1(1): 15-19.
- Heidari A (2016) An experimental biospectroscopic study on seminal plasma in determination of semen quality for evaluation of male infertility. Int J Adv Technol 7: e007.
- Heidari A (2016) Extraction and preconcentration of N–Tolyl–Sulfonyl–Phosphoramid–Saeure–Dichlorid as an anti–cancer drug from plants: a pharmacognosy study. J Pharmacogn Nat Prod 2: e103.
- Heidari A (2016) A thermodynamic study on hydration and dehydration of DNA and RNA−Amphiphile Complexes. J Bioeng Biomed Sci S: 006.
- Heidari A (2016) Computational studies on molecular structures and carbonyl and ketene groups’ effects of singlet and triplet energies of Azidoketene O=C=CH–NNN and Isocyanatoketene O=C=CH–N=C=O. J Appl Computat Math 5: e142.
- Heidari A (2016) Study of irradiations to enhance the induces the dissociation of hydrogen bonds between peptide chains and transition from helix structure to random coil structure using ATR–FTIR, Raman and 1HNMR Spectroscopies. J Biomol Res Ther 5: e146.
- Heidari A (2016) Future prospects of point fluorescence spectroscopy, fluorescence imaging and fluorescence endoscopy in photodynamic therapy (PDT) for cancer cells. J Bioanal Biomed 8: e135.
- Heidari A (2016) A bio–spectroscopic study of DNA density and color role as determining factor for absorbed irradiation in cancer cells. Adv Cancer Prev 1: e102.
- Heidari A (2016) Manufacturing process of solar cells using cadmium oxide (CdO) and rhodium (III) Oxide (Rh2O3) nanoparticles. J Biotechnol Biomater 6: e125.
