Biochemistry and Phosphate are commonly linked in his work. His Biochemistry research extends to the thematically linked field of Phosphate. His Organic chemistry study often links to related topics such as Ferrous. Ferrous is closely attributed to Organic chemistry in his research. He undertakes interdisciplinary study in the fields of Crystallography and Crystal structure through his research. In his works, Yoshimasa Kyogoku performs multidisciplinary study on Crystal structure and Crystallography. Yoshimasa Kyogoku undertakes multidisciplinary studies into Gene and Protein subunit in his work. In his research, he undertakes multidisciplinary study on Protein subunit and Allosteric regulation. Yoshimasa Kyogoku undertakes interdisciplinary study in the fields of Allosteric regulation and Allosteric enzyme through his research.
Yoshimasa Kyogoku works mostly in the field of Particle physics, limiting it down to concerns involving Resonance (particle physics) and, occasionally, Atomic physics. Yoshimasa Kyogoku frequently studies issues relating to Resonance (particle physics) and Atomic physics. He merges many fields, such as Biochemistry and Biophysics, in his writings. He integrates Biophysics with Biochemistry in his research. His study deals with a combination of Stereochemistry and Molecule. Yoshimasa Kyogoku combines Molecule and Stereochemistry in his studies. His Organic chemistry study frequently involves adjacent topics like Analytical Chemistry (journal). His Analytical Chemistry (journal) study typically links adjacent topics like Organic chemistry. Crystallography and DNA are two areas of study in which he engages in interdisciplinary research.
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Structural genomics projects in Japan.
Shigeyuki Yokoyama;Hiroshi Hirota;Takanori Kigawa;Takashi Yabuki.
Nature Structural & Molecular Biology (2000)
An Infrared Study of Hydrogen Bonding between Adenine and Uracil Derivatives in Chloroform Solution
Yoshimasa. Kyogoku;R. C. Lord;Alexander. Rich.
Journal of the American Chemical Society (1967)
Translational induction of heat shock transcription factor sigma32: evidence for a built-in RNA thermosensor.
Miyo Terao Morita;Yoshiyuki Tanaka;Takashi S. Kodama;Yoshimasa Kyogoku.
Genes & Development (1999)
Crystal structure of an IRF-DNA complex reveals novel DNA recognition and cooperative binding to a tandem repeat of core sequences.
Yoshifumi Fujii;Toshiyuki Shimizu;Masahiro Kusumoto;Yoshimasa Kyogoku.
The EMBO Journal (1999)
Segmental isotope labeling for protein NMR using peptide splicing
Toshio Yamazaki;Takanori Otomo;Natsuko Oda;Yoshimasa Kyogoku.
Journal of the American Chemical Society (1998)
Crystal structure of PHO4 bHLH domain-DNA complex: flanking base recognition.
Toshiyuki Shimizu;Atsuki Toumoto;Kentaro Ihara;Masato Shimizu.
The EMBO Journal (1997)
Solution Structure of the Activator Contact Domain of the RNA Polymerase α Subunit
Young Ho Jeon;Tomofumi Negishi;Masahiro Shirakawa;Toshio Yamazaki.
Nature of the iron-ligand bond in ferrous low spin hemoproteins studied by resonance Raman scattering.
Kitagawa T;Kyogoku Y;Iizuka T;Saito Mi.
Journal of the American Chemical Society (1976)
Solution structure of the DNA- and RPA-binding domain of the human repair factor XPA
Takahisa Ikegami;Isao Kuraoka;Masafumi Saijo;Naohiko Kodo.
Nature Structural & Molecular Biology (1998)
Structure of a sugar chain of a protease inhibitor isolated from barbados pride (Caesalpinia pulcherrima Sw.) seeds.
Sumihiro Hase;Satoshi Koyama;Hiromi Daiyasu;Hiroshi Takemoto.
Journal of Biochemistry (1986)
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