Internal medicine and Endocrinology are two areas of study in which Georg E. Schulz engages in interdisciplinary work. He undertakes multidisciplinary studies into Endocrinology and Internal medicine in his work. In his works, Georg E. Schulz performs multidisciplinary study on Immunology and Antibody. Georg E. Schulz undertakes interdisciplinary study in the fields of Antibody and Immunology through his works. In his articles, Georg E. Schulz combines various disciplines, including Optics and Quantum mechanics. He incorporates Quantum mechanics and Optics in his research. With his scientific publications, his incorporates both Cytokine and Granulocyte macrophage colony-stimulating factor. His research ties Genetics and Granulocyte macrophage colony-stimulating factor together. His Genetics study frequently draws parallels with other fields, such as Stem cell.
The scientist’s investigation covers issues in Organic chemistry, Internal medicine, Stereochemistry, Optics, Biochemistry, Quantum mechanics, Immunology and Chromatography.
Throughout his Tomography studies, Georg E. Schulz incorporates elements of other sciences such as Attenuation and Interferometry. He conducts interdisciplinary study in the fields of Attenuation and Tomography through his works. Georg E. Schulz performs multidisciplinary study in the fields of Interferometry and Phase-contrast imaging via his papers. His work on Internal medicine is being expanded to include thematically relevant topics such as Nomogram. His study in Klinefelter syndrome extends to Endocrinology with its themes. Georg E. Schulz merges Immunology with Cell biology in his research. He merges Cell biology with Immunology in his study. Georg E. Schulz brings together Osteoporosis and Bone mineral to produce work in his papers. Georg E. Schulz connects Bone mineral with Bone density in his study.
His Tomography study spans across into fields like Attenuation and Interferometry. He combines Attenuation and Tomography in his research. Georg E. Schulz merges Interferometry with Phase-contrast imaging in his research. He merges Osteoporosis with Bone mineral in his research. While working in this field, Georg E. Schulz studies both Bone mineral and Bone density. Bone density and Osteoporosis are two areas of study in which he engages in interdisciplinary work. The study of Internal medicine is intertwined with the study of Testosterone (patch) in a number of ways. Much of his study explores Testosterone (patch) relationship to Internal medicine. Georg E. Schulz carries out multidisciplinary research, doing studies in Surgery and Radiology.
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Principles of Protein Structure
Georg E. Schulz;R. Heiner Schirmer.
Molecular Architecture and Electrostatic Properties of a Bacterial Porin
M. S. Weiss;U. Abele;J. Weckesser;W. Welte.
Refined structure of glutathione reductase at 1.54 A resolution.
P.A Karplus;G.E. Schulz.
Journal of Molecular Biology (1987)
Structure of the complex between adenylate kinase from Escherichia coli and the inhibitor Ap5A refined at 1.9 A resolution. A model for a catalytic transition state.
Christoph W. Müller;Georg E. Schulz.
Journal of Molecular Biology (1992)
Antibodies against a preselected peptide recognize and neutralize foot and mouth disease virus.
E. Pfaff;M. Mussgay;H.O. Böhm;Georg E. Schulz.
The EMBO Journal (1982)
Structure of porin refined at 1.8 A resolution.
Manfred S. Weiss;Georg E. Schulz.
Journal of Molecular Biology (1992)
The catalytic mechanism of glutathione reductase as derived from x-ray diffraction analyses of reaction intermediates.
Emil F. Pai;Georg E. Schulz.
Journal of Biological Chemistry (1983)
Substrate positions and induced-fit in crystalline adenylate kinase.
E.F. Pai;W. Sachsenheimer;R.H. Schirmer;G.E. Schulz.
Journal of Molecular Biology (1977)
Substrate binding and catalysis by glutathione reductase as derived from refined enzyme: substrate crystal structures at 2 A resolution.
P A Karplus;G E Schulz.
Journal of Molecular Biology (1994)
Binding of nucleotides by proteins: Current opinion in structural biology 1992, 2: 61…-67
Georg E. Schulz.
Current Opinion in Structural Biology (1992)
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