In his papers, Tetsuo Shiba integrates diverse fields, such as Biochemistry and Disaccharide. He connects Disaccharide with Biochemistry in his study. He performs multidisciplinary study on Immunology and Microbiology in his works. Tetsuo Shiba applies his multidisciplinary studies on Microbiology and Immunology in his research. In his works, Tetsuo Shiba conducts interdisciplinary research on Endocrinology and Diabetes mellitus. Diabetes mellitus and Endocrinology are two areas of study in which he engages in interdisciplinary research. His Internal medicine study often links to related topics such as Osteopontin. Osteopontin and Internal medicine are frequently intertwined in his study. Tetsuo Shiba performs multidisciplinary studies into Molecular biology and Complementary DNA in his work.
His study in In vitro extends to Biochemistry with its themes. Tetsuo Shiba undertakes multidisciplinary investigations into Genetics and Gene in his work. Tetsuo Shiba performs multidisciplinary study on Gene and Genetics in his works. Tetsuo Shiba brings together Immunology and Biochemistry to produce work in his papers. Tetsuo Shiba connects Internal medicine with Endocrinology in his study. He combines Endocrinology and Internal medicine in his studies. His work often combines Optoelectronics and Electrical engineering studies. In his works, Tetsuo Shiba undertakes multidisciplinary study on Electrical engineering and Optoelectronics.
His work in Duodenum tackles topics such as Surgery which are related to areas like Eyelid, Diverticulitis and Diverticulum (mollusc). His Internal medicine study often links to related topics such as Anemia. His Anemia study frequently draws parallels with other fields, such as Internal medicine. In his works, Tetsuo Shiba conducts interdisciplinary research on Biochemistry and Anatomy. Anatomy is closely attributed to Bone healing in his study. Tetsuo Shiba conducts interdisciplinary study in the fields of Bone healing and Osteoblast through his research. Tetsuo Shiba merges Osteoblast with Alkaline phosphatase in his research. His Alkaline phosphatase study frequently draws connections between related disciplines such as Von Kossa stain. Many of his studies involve connections with topics such as Organic chemistry and Von Kossa stain.
His Internal medicine study frequently draws connections between related disciplines such as Calcification. His Calcification study frequently draws parallels with other fields, such as Internal medicine. His research on Endocrinology often connects related areas such as Resorption. His research is interdisciplinary, bridging the disciplines of Endocrinology and Resorption. Cell biology is often connected to Regeneration (biology) in his work. Regeneration (biology) is closely attributed to Cell biology in his research. His work often combines Biochemistry and Molecular biology studies. In his works, Tetsuo Shiba performs multidisciplinary study on Molecular biology and Enzyme. By researching both Enzyme and In vitro, Tetsuo Shiba produces research that crosses academic boundaries.
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Synthetic and natural Escherichia coli free lipid A express identical endotoxic activities
Chris Galanos;Otto Lüderitz;Ernst Th. Rietschel;Otto Westphal.
FEBS Journal (1985)
Purification and cDNA cloning of porcine brain GDP-L-Fuc : N-acetyl-beta-D-glucosaminide alpha1->6fucosyltransferase
Naofumi Uozumi;Shusaku Yanagidani;Eiji Miyoshi;Yoshito Ihara.
Journal of Biological Chemistry (1996)
Endotoxic properties of chemically synthesized lipid A part structures. Comparison of synthetic lipid A precursor and synthetic analogues with biosynthetic lipid A precursor and free lipid A.
Chris Galanos;Volker Lehmann;Otto Lüderitz;Ernst Th. Rietschel.
FEBS Journal (1984)
Total synthesis of escherichia coli lipid A
Masahiro Imoto;Hiroyuki Yoshimura;Nobuki Sakaguchi;Shoichi Kusumoto.
Tetrahedron Letters (1985)
Total Synthesis of Escherichia coli Lipid A, the Endotoxically Active Principle of Cell-Surface Lipopolysaccharide
Masahiro Imoto;Hiroyuki Yoshimura;Tetsuo Shimamoto;Nobuki Sakaguchi.
Bulletin of the Chemical Society of Japan (1987)
Structural requirements of lipid A responsible for the functions: a study with chemically synthesized lipid A and its analogues.
J. Yuzuru Homma;Motohiro Matsuura;Shiro Kanegasaki;Yasuaki Kawakubo.
Journal of Biochemistry (1985)
Chemical structure of E. Coli Lipid A: Linkage site of acyl groups in the disaccharide backbone
M. Imoto;S. Kusumoto;T. Shiba;H. Naoki.
Tetrahedron Letters (1983)
Chemical Synthesis of N-Acetylmuramyl Peptides with Partial Structures of Bacterial Cell Wall and Their Analogs in Relation to Immunoadjuvant Activities
Shoichi Kusumoto;Yuzo Tarumi;Kazuhiro Ikenaka;Tetsuo Shiba.
Bulletin of the Chemical Society of Japan (1976)
Chemical structure of Escherichia coli lipid A
M. Imoto;S. Kusumoto;T. Shiba;E.Th. Rietschel.
Tetrahedron Letters (1985)
Chemical synthesis of phosphorylated tetraacyl disaccharide corresponding to a biosynthetic precursor of lipid A
M. Imoto;H. Yoshimura;M. Yamamoto;T. Shimamoto.
Tetrahedron Letters (1984)
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