Günter Ditze scite author profile

A versatile, multidimensional, and non-denaturing proteome separation procedure using microplate technology is presented, yielding a digitized image of proteome composition. In the first dimension, the sample under study is separated into 96 fractions by size exclusion chromatography (SEC). In the second dimension, the fractions of the first dimension are transferred by the liquid-handling device CyBi-Well (CyBio AG, Jena, Germany) to 96 parallel anion exchange chromatography columns. In this way the proteins are conserved in their native states and are distributed in 2400 liquid fractions with high recovery rates and sufficient reproducibility. The resulting fractions are subjected to protein quantitation and identification. Spectrophotometrical and immunological methods and enzyme activity measurements are used for quantitation. To identify proteins, the fractions are subjected to MALDI-MS, and their tryptic digests to both MALDI- and LC-ESI-MS/MS. All preparation steps except the first are applied in parallel to sets of multiples of 96 samples. The procedure may be refined by adding more separation steps and may be adapted to various protein amounts and to various proteomes. Moreover, the method offers the opportunity to investigate functional protein complexes. The method was applied to separate the normal human serum proteome. Within 255 fractions exhibiting the highest protein concentrations, 742 proteins were identified by LC-ESI-MS/MS peptide sequence tags.

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Searching biomarker candidates in serum using multidimensional native chromatography. II Method evaluation with Alport syndrome and severe inflammation

Baum

Pohl

Kreusch

et al. 2008

Journal of Chromatography B

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Searching biomarker candidates in serum using multidimensional native chromatographyI. Enhanced separation method

Kreusch

Schulze

Cumme

et al. 2008

Journal of Chromatography B

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Humans, but not animals, perceive the thermal grill illusion as painful

Boettger

Ditze²,

Bär

et al. 2016

Behavioural Brain Research

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Simplified Pulse Reactor for Real-Time Long-Term In Vitro Testing of Biological Heart Valves

Schleicher

Sammler

Schmauder³

et al. 2010

Ann Biomed Eng

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Long-term function of biological heart valve prostheses (BHV) is limited by structural deterioration leading to failure with associated arterial hypertension. The objective of this work was development of an easy to handle real-time pulse reactor for evaluation of biological and tissue engineered heart valves under different pressures and long-term conditions. The pulse reactor was made of medical grade materials for placement in a 37 degrees C incubator. Heart valves were mounted in a housing disc moving horizontally in culture medium within a cylindrical culture reservoir. The microprocessor-controlled system was driven by pressure resulting in a cardiac-like cycle enabling competent opening and closing of the leaflets with adjustable pulse rates and pressures between 0.25 to 2 Hz and up to 180/80 mmHg, respectively. A custom-made imaging system with an integrated high-speed camera and image processing software allow calculation of effective orifice areas during cardiac cycle. This simple pulse reactor design allows reproducible generation of patient-like pressure conditions and data collection during long-term experiments.

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Günter Ditze

Multidimensional proteomics of human serum using parallel chromatography of native constituents and microplate technology

Searching biomarker candidates in serum using multidimensional native chromatography. II Method evaluation with Alport syndrome and severe inflammation

Searching biomarker candidates in serum using multidimensional native chromatographyI. Enhanced separation method

Humans, but not animals, perceive the thermal grill illusion as painful

Simplified Pulse Reactor for Real-Time Long-Term In Vitro Testing of Biological Heart Valves

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