With his scientific publications, his incorporates both Biochemistry and Biophysics. In his works, Dieter Brdiczka undertakes multidisciplinary study on Biophysics and Cell biology. His study on Cell biology is mostly dedicated to connecting different topics, such as Inner membrane. His Inner membrane study frequently draws parallels with other fields, such as Biochemistry. Dieter Brdiczka performs multidisciplinary studies into Mitochondrion and Cell in his work. By researching both Cell and Gene, Dieter Brdiczka produces research that crosses academic boundaries. His study in Porin extends to Gene with its themes. As part of his studies on Porin, he often connects relevant areas like Escherichia coli. Much of his study explores Escherichia coli relationship to Bacterial outer membrane.
His Endocrinology research is linked to Energy metabolism and Creatine kinase, among other subjects. His research ties Endocrinology and Energy metabolism together. In his works, Dieter Brdiczka performs multidisciplinary study on Creatine kinase and Mitochondrion. He merges Mitochondrion with Inner membrane in his study. His work blends Biochemistry and Organic chemistry studies together. He integrates Organic chemistry with Biochemistry in his study. He conducted interdisciplinary study in his works that combined Enzyme and Cytosol. Dieter Brdiczka conducted interdisciplinary study in his works that combined Cytosol and Enzyme. He applies his multidisciplinary studies on Gene and Nucleotide in his research.
His study deals with a combination of Gene and Creatine kinase. In his research, Dieter Brdiczka undertakes multidisciplinary study on Creatine kinase and Mitochondrion. His study in Respiratory chain extends to Mitochondrion with its themes. His research links Cell biology with Respiratory chain. Cell biology is often connected to Intracellular in his work. He conducted interdisciplinary study in his works that combined Intracellular and Apoptosis. He performs multidisciplinary studies into Apoptosis and Caspase 3 in his work. Caspase 3 is closely attributed to Bcl-2-associated X protein in his research. His Biochemistry study frequently draws connections between adjacent fields such as Protein subunit.
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Intracellular compartmentation, structure and function of creatine kinase isoenzymes in tissues with high and fluctuating energy demands: the 'phosphocreatine circuit' for cellular energy homeostasis.
T Wallimann;M Wyss;D Brdiczka;K Nicolay.
Biochemical Journal (1992)
Metabolic Differentiation of Distinct Muscle Types at the Level of Enzymatic Organization
A. Bass;D. Brdiczka;P. Eyer;S. Hofer.
FEBS Journal (1969)
The permeability transition pore complex: a target for apoptosis regulation by caspases and bcl-2-related proteins.
Isabel Marzo;Catherine Brenner;Naoufal Zamzami;Santos A. Susin.
Journal of Experimental Medicine (1998)
Direct demonstration of a specific interaction between cyclophilin-D and the adenine nucleotide translocase confirms their role in the mitochondrial permeability transition
Kuei Woodfield;Alexander Rück;Dieter Brdiczka;Andrew P. Halestrap.
Biochemical Journal (1998)
Complexes between kinases, mitochondrial porin and adenylate translocator in rat brain resemble the permeability transition pore
Gisela Beutner;Alexander Rück;Birgit Riede;Wolfram Welte.
FEBS Letters (1996)
Complexes between porin, hexokinase, mitochondrial creatine kinase and adenylate translocator display properties of the permeability transition pore. Implication for regulation of permeability transition by the kinases.
Gisela Beutner;Alexander Rück;Birgit Riede;Dieter Brdiczka.
Biochimica et Biophysica Acta (1998)
The Voltage-Dependent Anion Channel (VDAC): Function in Intracellular Signalling, Cell Life and Cell Death
V. Shoshan-Barmatz;A. Israelson;D. Brdiczka;S. S. Sheu.
Current Pharmaceutical Design (2006)
Evidence for identity between the hexokinase-binding protein and the mitochondrial porin in the outer membrane of rat liver mitochondria.
Christian Fiek;Roland Benz;Norbert Roos;Dieter Brdiczka.
Biochimica et Biophysica Acta (1982)
Some new aspects of creatine kinase (CK): compartmentation, structure, function and regulation for cellular and mitochondrial bioenergetics and physiology.
Theo Wallimann;Max Dolder;Uwe Schlattner;Michael Eder.
The role of creatine kinase in inhibition of mitochondrial permeability transition
Eddie O'Gorman;Giesela Beutner;Max Dolder;Alan P. Koretsky.
FEBS Letters (1997)
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