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Hans Thalheim 《BMJ (Clinical research ed.)》1914,1(2769):225-226
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Däschner Klaus Thalheim Christine Guha Conny Brennicke Axel Binder Stefan 《Plant molecular biology》1999,39(6):1275-1282
In plants the degradation pathways of branched-chain amino acids have remained somewhat unclear with respect to both their biochemistry and their intracellular location. While biochemical evidence has localized some of the catabolic enzymes in peroxisomes/glyoxysomes, others cofractionate with mitochondria. We have now identified a candidate protein and corresponding cDNA for an enzyme of the leucine catabolic pathway, the isovaleryl-CoA-dehydrogenase (IVD). This polypeptide is a member of the acyl-CoA-dehydrogenase (ACDH) family and is encoded in the nuclear genome of Arabidopsis thaliana. Expression of the putative IVD gene in pea seedlings is documented by western blot analyses with an antibody against the mammalian IVD. Subcellular fractionation identifies the putative IVD enzyme in the mitochondrion. This localization suggests that in plants mitochondria contain at least part of the branched-chain amino acid degradation pathway(s). 相似文献
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Torsten Thalheim Marianne Quaas Maria Herberg Ulf-Dietrich Braumann Christiane Kerner Markus Loeffler Gabriela Aust Joerg Galle 《Developmental biology》2018,433(2):254-261
Intestinal stem cells (ISCs) require well-defined signals from their environment in order to carry out their specific functions. Most of these signals are provided by neighboring cells that form a stem cell niche, whose shape and cellular composition self-organize. Major features of this self-organization can be studied in ISC-derived organoid culture. In this system, manipulation of essential pathways of stem cell maintenance and differentiation results in well-described growth phenotypes.We here provide an individual cell-based model of intestinal organoids that enables a mechanistic explanation of the observed growth phenotypes. In simulation studies of the 3D structure of expanding organoids, we investigate interdependences between Wnt- and Notch-signaling which control the shape of the stem cell niche and, thus, the growth pattern of the organoids. Similar to in vitro experiments, changes of pathway activities alter the cellular composition of the organoids and, thereby, affect their shape. Exogenous Wnt enforces transitions from branched into a cyst-like growth pattern; known to occur spontaneously during long term organoid expansion. Based on our simulation results, we predict that the cyst-like pattern is associated with biomechanical changes of the cells which assign them a growth advantage. The results suggest ongoing stem cell adaptation to in vitro conditions during long term expansion by stabilizing Wnt-activity.Our study exemplifies the potential of individual cell-based modeling in unraveling links between molecular stem cell regulation and 3D growth of tissues. This kind of modeling combines experimental results in the fields of stem cell biology and cell biomechanics constituting a prerequisite for a better understanding of tissue regeneration as well as developmental processes. 相似文献
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Hendrik M?ckel Ronny Grunert Antje P?ssneck Mathias Hofer Mario Thalheim Gero Strauss Ulrich Fickweiler Jürgen Meixensberger Andreas Dietz Werner Korb 《Biomedizinische Technik》2007,52(6):375-382
BACKGROUND: Suitable simulation systems providing realistic conditions are required for preclinical evaluation of computer assisted interventions and surgical training. Techniques are necessary for an objective detection of injuries to the structures at risk. The aim of this study was the technical realization of a simulation system for the ENT intervention, mastoidectomy.MATERIALS AND METHODS: The basis of the simulation system was a CT scan of a cadaver skull. Using 3D printing, an anatomical phantom with realistic bone-like properties was created. Electronic detection systems were integrated into the structures at risk. A study with 16 ENT surgeons was conducted to prove the system's suitability for surgical training.RESULTS: The creation of simulation systems for the objective evaluation of surgical intervention qualities is feasible. A modular structure enables economic and simple replacement of the simulation area. The modules are cost effective and reproducible with high accuracy. The present study shows that the simulation system can be applied in surgical education and evaluation as an alternative to cadavers.CONCLUSION: Objective evaluation of injured structures at risk can be realized in real time. The simulation system permits preclinical evaluation studies of computer assisted instruments and surgical education. Reproducibility of the results makes multi-center studies possible. 相似文献
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