Theoretical thermochemistry and spectroscopy of weakly bound molecules

Varner, Mychel Elizabeth

02 February 2011

The weakly bound association products of atmospherically relevant radical species (O₂, OH, NO₂, HO₂ and NO) have been studied theoretically using quantum-chemical methods. The thermodynamic stabilities, which are crucial to determining the probability of formation in Earth's atmosphere, were calculated for the hydrotrioxy radical (HOOO) and peroxynitrous acid (HOONO, an isomer of nitric acid) relative to the radical dissociation products. In the case of HOONO, the experimentally determined values were confirmed. For HOOO, the predicted stability was significantly lower than the experimentally determined value; a conclusion that was supported by later experimental work and indicates that HOOO will not form in significant quantities in Earth's atmosphere. The fundamental and multi-quantum vibrational transitions were also predicted for both the HOONO and HOOO systems. The theoretical work on the HOONO system aided the assignment of experimental spectra and was used to correct equilibrium rotational constants. The HOOO system presented a challenge for the methods used here and work to apply other approaches in describing the vibrational modes is ongoing. Second-order vibrational perturbation theory, combined with a correlated quantum-chemical method and a moderately sized basis set, provides a method for accurately predicting fundamental and low-order multi-quantum transition energies and intensities for many systems (HOOO being an exception). Here coupled cluster theory, at a level which treats one- and two-electron correlation with a correction for three-electron correlation, and atomic natural orbitals basis sets were used in the vibrational calculations. To predict the dissociation energies of weakly bound species with the precision required (due to the small energy differences involved), high-order correlation contributions (a full treatment of three-electron correlation and a correction for four-electron correlation) are included, as is extrapolation to the basis set limit. Other contributions, such as that for the zero-point energy, were also considered. For the HOOO system, one-dimensional potential curves along the dissociation and torsional coordinates were constructed with standard single-reference and equation-of-motion coupled-cluster methods. The latter is better able to describe the nature of a system in the bond-breaking region and the complex electronic structure of a species formed from two radical fragments, one doubly degenerate in the ground state: X²[Pi] OH and X³[Sigma] O₂. A possible barrier to dissociation and the torsional potential for HOOO were investigated. / text

Dissociation energy

Vibrational frequencies

HNO3

HOONO

Peroxynitrous acid

HO3

HOOO

Hydrotrioxy radical

Flexing the innate immune arm within the human central nervous system : implications for multiple sclerosis

Jack, Carolyn Sarah.

January 2007

No description available.

Myelin Sheath -- metabolism.

Oligodendroglia -- metabolism.

Multiple Sclerosis -- physiopathology.

Nitric Oxide -- metabolism.

Microglia -- metabolism.

Peroxynitrous Acid -- metabolism.

Nitric oxide in tuberculosis and leprosy /

Schön, Thomas

January 2002

Diss. (sammanfattning) Linköping : Univ., 2002. / Härtill 8 uppsatser.

Peroxynitrite, pumps and perivascular adipose tissue studies across the physiological spectrum /

Reifenberger, Matthew Stanton, Milanick, Mark.

January 2008

The entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Title from PDF of title page (University of Missouri--Columbia, viewed on April 6, 2010). Vita. Thesis advisor: Mark Milanick "June 2008" Includes bibliographical references

Enhanced DNA binding capacity on up-regulated epidermal wild-type p53 in vitiligo by H2O2-mediated oxidation: a possible repair mechanism for DNA damage

Salem, Mohamed M.A., Shalbaf, Mohammad, Gibbons, Nick C., Chavan, Bhavan, Thornton, M. Julie, Schallreuter, Karin U.

January 2009

Vitiligo is characterized by a patchy loss of inherited skin color affecting approximately 0.5% of individuals of all races. Despite the absence of the protecting pigment and the overwhelming evidence for hydrogen peroxide (H(2)O(2))-induced oxidative stress in the entire epidermis of these patients, there is neither increased photodamage/skin aging nor a higher incidence for sun-induced nonmelanoma skin cancer. Here we demonstrate for the first time increased DNA damage via 8-oxoguanine in the skin and plasma in association with epidermal up-regulated phosphorylated/acetylated p53 and high levels of the p53 antagonist p76(MDM2). Short-patch base-excision repair via hOgg1, APE1, and polymerasebeta DNA repair is up-regulated. Overexpression of Bcl-2 and low caspase 3 and cytochrome c levels argue against increased apoptosis in this disease. Moreover, we show the presence of high epidermal peroxynitrite (ONOO(-)) levels via nitrotyrosine together with high nitrated p53 levels. We demonstrate by EMSA that nitration of p53 by ONOO(-) (300 x 10(-6) M) abrogates DNA binding, while H(2)O(2)-oxidized p53 (10(-3) M) enhances DNA binding capacity and prevents ONOO(-)-induced abrogation of DNA binding. Taken together, we add a novel reactive oxygen species to the list of oxidative stress inducers in vitiligo. Moreover, we propose up-regulated wild-type p53 together with p76(MDM2) as major players in the control of DNA damage/repair and prevention of photodamage and nonmelanoma skin cancer in vitiligo.

Adult

Apoptosis; Physiology

Ataxia Telangiectasia Mutated Proteins

Caspase 3; Biosynthesis

Cell cycle proteins; Metabolism

Cytochromes c

DNA

DNA damage; Drug effects

DNA repair

DNA-binding proteins

Electrophoretic mobility shift assay

Epidermis

Guanosine; Analogs & derivatives

Humans

Hydrogen peroxide; Pharmacology

Middle aged

Oxidation-reduction

Oxidative stress

Peroxynitrous acid

Protein-Serine-Threonine Kinases

Proto-Oncogene Proteins c-bcl-2

Proto-Oncogene Proteins c-mdm2

Tumor Suppressor Protein p53

Tumor Suppressor Proteins

Up-Regulation

Vitiligo

p300-CBP Transcription Factors

REF 2014