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Literature DB >> 18197695

Xerogel optical sensor films for quantitative detection of nitroxyl.

Kevin P Dobmeier¹, Daniel A Riccio, Mark H Schoenfisch.

Abstract

Xerogel sensing films were synthesized via sol-gel chemistry were used to fabricate optical nitroxyl (HNO) sensors [corrected] Selective detection of HNO in solution was achieved by monitoring the rates of manganese(III) meso-tetrakis(4-sulfonatophenyl) porphyrinate (MnIIITPPS) reductive nitrosylation in the anaerobic interior of aminoalkoxysilane-derived xerogel films. Nitroxyl permeability in sensor films deposited in round-bottom 96-well plates was enhanced via incorporation of trimethoxysilyl-terminated poly(amidoamine-organosilicon) dendrimers in the xerogel network. The selectivity of MnIIITPPS for HNO, the overall sensitivity, and the working dynamic range of the resulting sensors were characterized. The HNO-sensing microtiter plates were used to quantify pH-dependent HNO generation by the recently described HNO-donor sodium 1-(isopropylamino)diazene-1-ium-1,2-diolate (IPA/NO), and compare HNO production efficiency between IPA/NO and Angeli's salt, a traditional HNO-donor.

Entities: Chemical Species

Mesh：

Substances：

Year: 2008 PMID： 18197695 PMCID： PMC3561769 DOI： 10.1021/ac702024t

Source DB: PubMed Journal: Anal Chem ISSN： 0003-2700 Impact factor: 6.986

30 in total

Review 1. Donors of HNO.

Authors: Katrina M Miranda; Herbert T Nagasawa; John P Toscano
Journal: Curr Top Med Chem Date: 2005 Impact factor: 3.295

2. Comparison of the NO and HNO donating properties of diazeniumdiolates: primary amine adducts release HNO in Vivo.

Authors: Katrina M Miranda; Tatsuo Katori; Claudia L Torres de Holding; Lynta Thomas; Lisa A Ridnour; William J McLendon; Stephanie M Cologna; Andrew S Dutton; Hunter C Champion; Daniele Mancardi; Carlo G Tocchetti; Joseph E Saavedra; Larry K Keefer; K N Houk; Jon M Fukuto; David A Kass; Nazareno Paolocci; David A Wink
Journal: J Med Chem Date: 2005-12-29 Impact factor: 7.446

3. Discrimination of nitroxyl and nitric oxide by water-soluble Mn(III) porphyrins.

Authors: Marcelo A Martí; Sara E Bari; Darío A Estrin; Fabio Doctorovich
Journal: J Am Chem Soc Date: 2005-04-06 Impact factor: 15.419

4. N-Hydroxy sulfonimidamides as new nitroxyl (HNO) donors.

Authors: Richard L Pennington; Xin Sha; S Bruce King
Journal: Bioorg Med Chem Lett Date: 2005-05-02 Impact factor: 2.823

5. Hydrolysis of acyloxy nitroso compounds yields nitroxyl (HNO).

Authors: Xin Sha; T Scott Isbell; Rakesh P Patel; Cynthia S Day; S Bruce King
Journal: J Am Chem Soc Date: 2006-08-02 Impact factor: 15.419

Review 6. N-hydroxyurea and acyl nitroso compounds as nitroxyl (HNO) and nitric oxide (NO) donors.

Authors: S Bruce King
Journal: Curr Top Med Chem Date: 2005 Impact factor: 3.295

Review 7. Nitric oxide (NO)- and nitroxyl (HNO)-generating diazeniumdiolates (NONOates): emerging commercial opportunities.

Authors: Larry K Keefer
Journal: Curr Top Med Chem Date: 2005 Impact factor: 3.295

8. Poly(vinylpyrrolidone)-doped nitric oxide-releasing xerogels as glucose biosensor membranes.

Authors: Mark H Schoenfisch; Aaron R Rothrock; Jae Ho Shin; Mark A Polizzi; Michael F Brinkley; Kevin P Dobmeier
Journal: Biosens Bioelectron Date: 2006-02-17 Impact factor: 10.618

9. Discriminating formation of HNO from other reactive nitrogen oxide species.

Authors: Sonia Donzelli; Michael Graham Espey; Douglas D Thomas; Daniele Mancardi; Carlo G Tocchetti; Lisa A Ridnour; Nazareno Paolocci; S Bruce King; Katrina M Miranda; Giuseppe Lazzarino; Jon M Fukuto; David A Wink
Journal: Free Radic Biol Med Date: 2005-11-21 Impact factor: 7.376

10. Mechanism of pH-dependent decomposition of monoalkylamine diazeniumdiolates to form HNO and NO, deduced from the model compound methylamine diazeniumdiolate, density functional theory, and CBS-QB3 calculations.

Authors: Andrew S Dutton; Christopher P Suhrada; Katrina M Miranda; David A Wink; Jon M Fukuto; K N Houk
Journal: Inorg Chem Date: 2006-03-20 Impact factor: 5.165

6 in total

1. The shy Angeli and his elusive creature: the HNO route to vasodilation.

Authors: Nazareno Paolocci; David A Wink
Journal: Am J Physiol Heart Circ Physiol Date: 2009-03-13 Impact factor: 4.733

2. A Chemiluminescent Probe for HNO Quantification and Real-Time Monitoring in Living Cells.

Authors: Weiwei An; Lucas S Ryan; Audrey G Reeves; Kevin J Bruemmer; Lyn Mouhaffel; Jeni L Gerberich; Alexander Winters; Ralph P Mason; Alexander R Lippert
Journal: Angew Chem Int Ed Engl Date: 2018-12-21 Impact factor: 15.336

Review 3. Playing with cardiac "redox switches": the "HNO way" to modulate cardiac function.

Authors: Carlo G Tocchetti; Brian A Stanley; Christopher I Murray; Vidhya Sivakumaran; Sonia Donzelli; Daniele Mancardi; Pasquale Pagliaro; Wei Dong Gao; Jennifer van Eyk; David A Kass; David A Wink; Nazareno Paolocci
Journal: Antioxid Redox Signal Date: 2011-03-03 Impact factor: 8.401

4. Rapid and selective nitroxyl (HNO) trapping by phosphines: kinetics and new aqueous ligations for HNO detection and quantitation.

Authors: Julie A Reisz; Charles N Zink; S Bruce King
Journal: J Am Chem Soc Date: 2011-07-11 Impact factor: 15.419

5. A role for nitroxyl (HNO) as an endothelium-derived relaxing and hyperpolarizing factor in resistance arteries.

Authors: Karen L Andrews; Jennifer C Irvine; Marianne Tare; Jacqueline Apostolopoulos; Joanne L Favaloro; Chris R Triggle; Barbara K Kemp-Harper
Journal: Br J Pharmacol Date: 2009-03-26 Impact factor: 8.739

6. In Vitro and in Vivo Imaging of Nitroxyl with Copper Fluorescent Probe in Living Cells and Zebrafish.

Authors: Sathyadevi Palanisamy; Yu-Liang Wang; Yu-Jen Chen; Chiao-Yun Chen; Fu-Te Tsai; Wen-Feng Liaw; Yun-Ming Wang
Journal: Molecules Date: 2018-10-06 Impact factor: 4.411

6 in total