Okadaic Acid Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy © 2019 Heidari A, Et Al

Okadaic Acid Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy © 2019 Heidari A, Et Al

InternationalJournal of VIBGYOR Analytical and Bioanalytical Methods Okadaic Acid Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Original Article: Open Access Coupling Structure in Vibrational Spectra Analysis Alireza Heidari1,2*, Jennifer Esposito1 and Angela Caissutti1 1Faculty of Chemistry, California South University, USA 2American International Standards Institute, USA Abstract Okadaic acid, C44H68O13, is a toxin produced by several species of dinoflagellates, and is known to accumulate in both marine sponges and shellfish. One of the primary causes of diarrhetic shellfish poisoning, Okadaic acid is a potent inhibitor of specific protein phosphatases and is known to have a variety of negative effects on cells. A polyketide, polyether derivative of a C38 fatty acid, Okadaic acid and other members of its family have shined light upon many biological processes both with respect to dinoflagellate polyketide synthesis as well as the role of protein phosphatases in cell growth. Parameters such as FT -IR and Raman vibrational wavelengths and intensities for single crystal Okadaic Acid are calculated using density functional theory and were compared with empirical results. The investigation about vibrational spectrum of cycle dimers in crystal with carboxyl groups from each molecule of acid was shown that it leads to create Hydrogen bonds for adjacent molecules. The current study aimed to investigate the possibility of simulating the empirical values. Analysis of vibrational spectrum of Okadaic Acid is performed based on theoretical simulation and FT-IR empirical spectrum and Raman empirical spectrum using density functional theory in levels of HF/6-31G*, HF/6-31++G**, MP2/6-31G, MP2/6-31++G**, BLYP/6-31G, BLYP/6-31++G**, B3LYP/6-31G and B3LYP6-31-HEG**. Vibration modes of methylene, carboxyl acid and phenyl cycle are separately investigated. The obtained values confirm high accuracy and validity of results obtained from calculations [1-42]. Keywords Vibronic structure, Vibrational spectra analysis, Density Functional Theory (DFT), Okadaic acid, Non-Focal functions of becke, Correlation functions of Lee-Yang-Parr, Time-Resolved absorption and resonance, FT-IR and Raman biospectroscopy Introduction soning, Okadaic acid is a potent inhibitor of specific protein phosphatases and is known to have a vari- Okadaic acid, C H O , is a toxin produced by 44 68 13 ety of negative effects on cells. A polyketide, poly- several species of dinoflagellates, and is known to ether derivative of a C38 fatty acid, Okadaic acid accumulate in both marine sponges and shellfish. and other members of its family have shined light One of the primary causes of diarrhetic shellfish poi- *Corresponding author: Alireza Heidari, Faculty of Chemistry, California South University, 14731 Comet St. Irvine, CA 92604; American International Standards Institute, Irvine, CA 3800, USA Accepted: May 16, 2019; Published: May 18, 2019 Copyright: © 2019 Heidari A, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Heidari et al. Int J Analyt Bioanalyt Methods 2019, 1:004 Citation: Heidari A, Esposito J, Caissutti A (2019) Okadaic Acid Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Int J Analyt Bioanalyt Methods 1:004 ISSN: 2631-5009 Heidari et al. Int J Analyt Bioanalyt Methods 2019, 1:004 | • Page 2 of 19 • upon many biological processes both with respect applications. In this view, Okadaic acid was taken to dinoflagellate polyketide synthesis as well as the and examined for its phytochemical and active role of protein phosphatases in cell growth. Densi- principles in vitro anti-oxidant models and in silico ty Functional Theory (DFT) is one of the most pow- approach for anti-histamine activity. Free radicals erful calculation methods for electronic structures are atoms with unpaired electrons which can cause [5-7]. Numerous results have been previously stud- various diseases. Intake of vitamin E can reduce the ied and indicate successful use of these methods problems associated with free radicals in the body [8-10]. The theory is one of the most appropriate [201-209]. The unpaired electrons of free-radical methods for simulating the vibrational wavenum- accumulation cause oxidative stress in the body. bers, molecular structure as well as total energy. Oxidative stress causes cell damage leading to var- It may be useful to initially consider the calculated ious health issues such as chronic disease, cancer, results by density functional theory using HF/6- autoimmune disorders, aging, cataract, rheumatoid 31G*, HF/6-31++G**, MP2/6-31G, MP2/6-31++G**, arthritis, cardiovascular diseases, neurodegenera- BLYP/6-31G, BLYP/6-31++G**, B3LYP/6-31G and tive diseases, respiratory disorders [210-218] and B3LYP6-31-HEG** approach [11-16]. It should be also the induced oxidative stress causes bronchial noted that calculations are performed by consid- contraction by the release of cyclooxygenase and ering one degree of quantum interference as well lipoxygenase in the airway that leads to bronchial as polarization effects of 2d orbitals in interaction asthma in human [219-225]. Asthma is a chronic in- [17-47]. flammatory lung disease that happens due to the Okadaic acid is a tropical weed belonging to Tox- respiratory infection triggered by the inhalation of ins family. Amongst Toxins, Okadaic acid contains allergens like tobacco smoke, air pollutants, genet- anti-fungal activity, acetylcholinesterase inhibitory ic and environment factors [226-232] which leads activity, anti-oxidant activity [48-64], mast cell sta- to the release of histamine and leukotrienes from bilization and membrane protection activity [65- the mast cell in the lung. The high release of hista- 92], anti-bacterial activity [93-127] and anti-cancer mine due to allergic reactions is regulated by hista- activity [128-145], anti-hyperglycemic an anti-hy- mine H1 receptor [233-235]. Histamine affects the perlipidemic effects [146-156] and anti-arthritic immune response and related functions in human activity, immunomodulatory activity [157-173] through H1, H2, H3 and H4 receptors activation and anti-diabetic activity [174-187]. Our earlier re- with their intracellular signals [236-238]. The pres- port stated that the Okadaic acid has high anti-ox- ent research work demonstrates the chemotaxon- idant activity [188-200]. The observations show omy of such valuable plant, from the genus of Oka- that Okadaic acid can be used for pharmaceutical daic acid. In addition, pharmaceutical applications Okadaic acid Figure 1: Section of the okadaic acid [43-93]. Citation: Heidari A, Esposito J, Caissutti A (2019) Okadaic Acid Time-Resolved Absorption and Resonance FT-IR and Raman Biospectroscopy and Density Functional Theory (DFT) Investigation of Vibronic-Mode Coupling Structure in Vibrational Spectra Analysis. Int J Analyt Bioanalyt Methods 1:004 ISSN: 2631-5009 Heidari et al. Int J Analyt Bioanalyt Methods 2019, 1:004 | • Page 3 of 19 • such as in vitro anti-oxidant and in silico anti-his- methylene, carboxyl acid and phenyl cycle are tamine activity of their active principles as natural separately investigated. remedy was examined. C-H stretching vibrations in single replacement Details of Calculations of benzene cycles are usually seen in band range of 3225-3475 cm-1. Weak Raman bands are at 3214 cm-1 All calculations of molecular orbital in the base and 3227 cm-1. C-C stretching mode is a strong Raman of ab are performed by Gaussian 09. In calculation mode at 1199 cm-1. Raman weak band is seen at 1673 process, the structure of Okadaic Acid molecule cm-1, too. Bending mode of C-H is emerged as a weak (Figure 1) is optimized and FT-IR and Raman wav- mode at 1423 cm-1 and 1222 cm-1 and a strong band at enumbers are calculated using HF/6-31G*, HF/6- 1306 cm-1 in Raman spectrum. Raman is considerably 31++G**, MP2/6-31G, MP2/6-31++G**, BLYP/6-31G, active in the range of 1225-1475 cm-1 which 1218 cm-1 BLYP/6-31++G**, B3LYP/6-31G and B3LYP6-31- indicates this issue. HEG** base. All optimized structures are adjusted with minimum energy. Harmonic vibrational wav- C-H skew-symmetric stretching mode of methy- enumbers are calculated using second degree of lene group is expected at 3210 cm-1 and its symmet- derivation to adjust convergence on potential sur- ric mode is expected at 3024 cm-1. Skew-symmetric face as good as possible and to evaluate vibration- stretching mode of CH2 in Okadaic Acid has a mode al energies at zero point. In optimized structures in mid-range of Raman spectrum at 3125-3245 considered in the current study, virtual frequency cm-1. When this mode is symmetric, it is at 3120 modes are not observed which indicates that the cm-1 and is sharp. The calculated wavenumbers of minimum potential energy surface is correctly cho- higher modes are at 3088 cm-1 and 3118 cm-1 for sen. The optimized geometry is calculated by mini- symmetric and skew-symmetric stretching mode of mizing the energy relative to all geometrical quan- methylene, respectively. tities without forcing any constraint on molecular Scissoring vibrations of CH2 are usually seen at symmetry. Calculations were performed by Gauss- the range of 1555-1606 cm-1 which often includes ian 09. The current calculation is aimed to maxi- mid-range bands. Weak bands at 1565 cm-1 are mize structural optimization using density func- scissoring modes of CH2 in Raman spectrum. Moving tional theory. The calculations of density functional vibrations of methylene are usually seen at 1494 * ** theory is performed by HF/6-31G , HF/6-31++G , cm-1.

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