Hai-Doo Kwen scite author profile

The formation of the large protein structure known as "gluten" during dough-mixing and bread-making processes is extremely complex. It has been established that a specific subset of the proteins comprising gluten, the glutenin subunits, directly affects dough formation and breadmaking quality. Glutenin subunits have no definitive structural differences that can be directly correlated to their ability to form gluten and affect dough formation or breadmaking quality. Many protein structural studies, as well as mixing and baking studies, have postulated that disulfide bonds are present in the gluten structure and contribute to the process of dough formation through the process of disulfide-sulfhydryl exchange. Evidence presented here indicates that tyrosine bonds form in wheat doughs during the processes of mixing and baking, contributing to the structure of the gluten network. The relative contributions of tyrosine bonds and disulfide--sulfhydryl interchange are discussed.

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Organoimido-polyoxometalates as polymer pendants

Moore

et al. 2000

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Functionalized Heteropolyanions: High‐Valent Metal Nitrido Fragments Incorporated into a Keggin Polyoxometalate Structure.

et al. 2003

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Osmium Osmium I 8100 Functionalized Heteropolyanions: High-Valent Metal Nitrido Fragments Incorporated into a Keggin Polyoxometalate Structure. -Three new nitrido-functionalized polyoxotungstates are synthesized which feature the incorporation of [Os VI ≡N] 3+ (III), [Re VI ≡N] 3+ (V), and [Re VII ≡N] 4+ fragments into the framework of a Keggin-type heteropolyanion. Compound (III) is characterized by 15 N, 31 P, and 183 W NMR and for (V) results obtained by EPR spectroscopy (confirming the paramagnetic character), cyclic voltammetry, and single crystal XRD (cubic, space group Im3m) are briefly reported. -(KWEN, H.; TOMLINSON, S.; MAATTA*, E. A.; DABLEMONT, C.; THOUVENOT, R.; PROUST, A.; GOUZERH, P.; Chem.

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A Diazoalkane Derivative of a Polyoxometalate: Preparation and Structure of [Mo6O18(NNC(C6H4OCH3)CH3)]2

Kwen

Young

Maatta

1999

Angew. Chem. Int. Ed.

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Defining Reactivity of Solid Sorbents: What Is the Most Appropriate Metric?

et al. 2009

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A series of solid sorbent materials, including alumina (Al 2 O 3 ), magnesia (MgO), titania (TiO 2 ), silica (SiO 2 ), and carbon, of widely varying physical properties, have been studied as sorbents for two toxic substances: sulfur dioxide gas (SO 2 ) and chemical warfare surrogate 2-chloroethyl ethyl sulfide (2-CEES, ClCH 2 CH 2 SCH 2 CH 3 ). Sorbent surface areas, average pore sizes, pore volumes, surface hydroxyl groups, and nitrogen adsorption-desorption isotherms were measured. Surface areas varied from 18 m 2 /g to over 1000 m 2 /g, pore volumes from 0.04 to 1.2 cm 3 /g, and pore diameters from 1.7 to 4.9 nm. Breakthrough studies of SO 2 and 2-CEES sorption yielded information about the effectiveness of each sorbent. Carbon samples worked well for 2-CEES but not SO 2 , while silica samples were poor for both. The best MgO and TiO 2 samples were good for both SO 2 and 2-CEES, and overall, the highest surface area (459 m 2 /g) TiO 2 sample was the superior sorbent. The important features for an effective sorbent under the conditions employed are high surface area and high pore volume, possessing isolated surface -OH groups, mesoporous nature, and a polar surface (Lewis base and Lewis acid sites).

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Hai-Doo Kwen

Tyrosine Cross-Links: Molecular Basis of Gluten Structure and Function

Organoimido-polyoxometalates as polymer pendants

Functionalized Heteropolyanions: High‐Valent Metal Nitrido Fragments Incorporated into a Keggin Polyoxometalate Structure.

A Diazoalkane Derivative of a Polyoxometalate: Preparation and Structure of [Mo6O18(NNC(C6H4OCH3)CH3)]2

Defining Reactivity of Solid Sorbents: What Is the Most Appropriate Metric?

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