Bharathi Gannamani scite author profile

Bharathi Gannamani

3Publications

16Citation Statements Received

144Citation Statements Given

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116

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Governors State University

Publications

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Investigation of collision-induced dissociation products and structures of gas-phase [M·GlyGlyHis-H]⁺ (M = Fe, Ni, Cu, and Zn) complexes

Gannamani

Shin

2017

Eur J Mass Spectrom (Chichester)

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Collision-induced dissociation is carried out for electrosprayed [Fe·GlyGlyHis-H], [Ni·GlyGlyHis-H], [Cu·GlyGlyHis-H], and [Zn·GlyGlyHis-H] complexes. [Fe·GlyGlyHis-H], [Ni·GlyGlyHis-H], and [Zn·GlyGlyHis-H] yield metal-bound peptide sequence ions and dehydrated ions as primary products, whereas [Cu·GlyGlyHis-H] generates a more extensive series of metal-bound sequence ions and a product arising from the unusual loss of a formaldehyde moiety; dehydration is significantly suppressed for this complex. Density functional theory calculations show that the copper ion-deprotonated peptide binding energy is substantially higher than those in other complexes, suggesting that there is a correlation between ion-ligand binding energy and their fragmentation behavior.

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Kinetic Method Analysis of the Effect of Halogenation on Relative Proton Affinity of Tyrosine

Gannamani

Shin

2016

Helv. Chim. Acta

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Relative proton affinities (PAs) of tyrosine, 3‐chlorotyrosine, and 3‐iodotyrosine were obtained using the kinetic method approach. The measured mean values are 922.5, 912.9, and 917.9 kJ/mol, respectively, with ± 0.1 kJ/mol standard deviation, indicating that halogenation of tyrosine decreases its PA. In general, PA of a molecule increases as its isotropic polarizability increases, but no such correlation has been found for the three molecules investigated in this study. Our findings show that PA decreases with increasing electronegativity of the modifying atom for a halogenated molecule, further supporting computational results of previous work [5].

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H15208. Kinetic Method Analysis of the Effect of Halogenation on Relative Proton Affinity of Tyrosine

Gannamani

Shin

2016

Helv. Chim. Acta

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