W Neuhauser

Overview

Explore the profile of W Neuhauser including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 49

Citations 73

Followers 0

Related Specialties

Dentistry

Biochemistry

Science

Top 10 Co-Authors

B Nidetzky

D Haltrich

K D Kulbe

J Mainzer

W Rohmert

P Mayr

I R Lieschke

M Steininger

M Johanning

A Mayer

Published In

Zahnarztl Mitt

Quintessenz

Freie Zahnarzt

BZB Bayer Zahnarztebl

Zahnarztl Praxisfuhr

Affiliations

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Recent Articles

Individual addressing of trapped ions and coupling of motional and spin states using RF radiation

Johanning M, Braun A, Timoney N, Elman V, Neuhauser W, Wunderlich C

Phys Rev Lett . 2009 Mar; 102(7):073004. PMID: 19257664

Individual electrodynamically trapped and laser cooled ions are addressed in frequency space using radio-frequency radiation in the presence of a static magnetic field gradient. In addition, an interaction between motional...

Structural and functional properties of aldose xylose reductase from the D-xylose-metabolizing yeast Candida tenuis

Nidetzky B, Mayr P, Neuhauser W, Puchberger M

Chem Biol Interact . 2001 Apr; 130-132(1-3):583-95. PMID: 11306077

The primary structure of the aldose xylose reductase from Candida tenuis (CtAR) is shown to be 39% identical to that of human aldose reductase (hAR). The catalytic tetrad of hAR...

A pH-controlled fed-batch process can overcome inhibition by formate in NADH-dependent enzymatic reductions using formate dehydrogenase-catalyzed coenzyme regeneration

Neuhauser W, Steininger M, Haltrich D, Kulbe K, Nidetzky B

Biotechnol Bioeng . 1999 Apr; 60(3):277-82. PMID: 10099429

The NAD-dependent, formate dehydrogenase-catalyzed oxidation of formate anion into CO2 is known as the method for the regeneration of NADH in reductive enzymatic syntheses. Inhibition by formate and inactivation by...

Strategies to an efficient enzymatic production of xylitol

Nidetzky B, Neuhauser W, Mayr P, Haltrich D, Kulbe K

Ann N Y Acad Sci . 1999 Feb; 864:442-5. PMID: 9928122

No abstract available.

A convenient enzymatic procedure for the production of aldose-free D-tagatose

Haltrich D, Leitner C, Neuhauser W, Nidetzky B, Kulbe K, Volc J

Ann N Y Acad Sci . 1999 Feb; 864:295-9. PMID: 9928104

No abstract available.

Noncovalent enzyme-substrate interactions in the catalytic mechanism of yeast aldose reductase

Neuhauser W, Haltrich D, Kulbe K, Nidetzky B

Biochemistry . 1998 Feb; 37(4):1116-23. PMID: 9454604

The role of noncovalent interactions in the catalytic mechanism of aldose reductase from the yeast Candida tenuis was determined by steady-state kinetic analysis of the NADH-dependent reduction of various aldehydes,...

NAD(P)H-dependent aldose reductase from the xylose-assimilating yeast Candida tenuis. Isolation, characterization and biochemical properties of the enzyme

Neuhauser W, Haltrich D, Kulbe K, Nidetzky B

Biochem J . 1997 Oct; 326 ( Pt 3):683-92. PMID: 9307017

During growth on d-xylose the yeast Candida tenuis produces one aldose reductase that is active with both NADPH and NADH as coenzyme. This enzyme has been isolated by dye ligand...

Continuous enzymatic production of xylitol with simultaneous coenzyme regeneration in a charged membrane reactor

Nidetzky B, Neuhauser W, Haltrich D, Kulbe K

Biotechnol Bioeng . 1996 Nov; 52(3):387-96. PMID: 18629908

We have developed a new process for the production of xylitol from D-xylose by enzyme technology. An NADH-dependent xylose reductase (XR) from Candida tenuis catalyzes the reduction of xylose, which...

[Caricatures: conqueror of human tragedy]

Neuhauser W

Zahnarztl Mitt . 1991 Apr; 81(7):667-71. PMID: 1853663

No abstract available.

10.

[Tooth extraction required as a pledge of love]

Neuhauser W

Zahnarztl Mitt . 1987 Dec; 77(23):2744, 2747. PMID: 3330383

No abstract available.