Munekazu Iinuma spends much of his time researching Biochemistry, Stereochemistry, Resveratrol, Apoptosis and Microbiology. His study in Biochemistry is interdisciplinary in nature, drawing from both Molecular biology and Cell biology. His Stereochemistry research incorporates themes from Phenols, Organic chemistry, Pharmacognosy and Dipterocarpaceae.
His Resveratrol study combines topics in areas such as Bark, Bergenin, Tetramer and Vatica rassak. His Apoptosis research integrates issues from Cell growth and Garcinia mangostana. His Microbiology research includes themes of Antibacterial activity, Growth inhibition and Inhibitory effect.
Munekazu Iinuma mainly focuses on Stereochemistry, Botany, Resveratrol, Flavonoid and Organic chemistry. His Stereochemistry study combines topics from a wide range of disciplines, such as Phenols, Ring and Dipterocarpaceae. His Phenols study combines topics from a wide range of disciplines, such as Bicyclic molecule and Pharmacognosy.
Munekazu Iinuma is interested in Chemotaxonomy, which is a field of Botany. His Resveratrol research includes themes of Stem bark, Chemical structure, Dimer, Trimer and Tetramer. Munekazu Iinuma is interested in Flavanone, which is a branch of Flavonoid.
Stereochemistry, Resveratrol, Pharmacology, Biochemistry and Traditional medicine are his primary areas of study. He has included themes like Organic chemistry, Ring and Dipterocarpaceae in his Stereochemistry study. His research in Organic chemistry intersects with topics in Two-dimensional nuclear magnetic resonance spectroscopy and Dipterocarpus grandiflorus.
His Resveratrol study combines topics in areas such as Chemical structure, Dimer, Vatica and Tetramer. His Biochemistry research incorporates elements of Molecular biology, Diospyros kaki and Cell biology. The concepts of his Traditional medicine study are interwoven with issues in Melicope triphylla, Botany and Allergy.
His primary areas of study are Stereochemistry, Resveratrol, Pharmacology, Biochemistry and Sesquiterpene. Munekazu Iinuma combines subjects such as Trimer and Ring with his study of Stereochemistry. His Resveratrol research integrates issues from Chemical structure, Phenols, Dimer, Tetramer and Dipterocarpaceae.
His study on Phenols also encompasses disciplines like
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Comparative study on the antibacterial activity of phytochemical flavanones against methicillin-resistant Staphylococcus aureus
Hironori Tsuchiya;Masaru Sato;Takashi Miyazaki;Shuu Fujiwara.
Journal of Ethnopharmacology (1996)
Antibacterial Activity of Extracts Prepared from Tropical and Subtropical Plants on Methicillin-Resistant Staphylococcus aureus
Tomoko Nitta;Takashi Arai;Hiromu Takamatsu;Yuka Inatomi.
Journal of Health Science (2002)
Induction of apoptosis by xanthones from mangosteen in human leukemia cell lines.
Kenji Matsumoto;Yukihiro Akao;Emi Kobayashi;Kenji Ohguchi.
Journal of Natural Products (2003)
Antibacterial activity of xanthones from guttiferaeous plants against methicillin-resistant Staphylococcus aureus
Munekazu Iinuma;Hideki Tosa;Toshiyuki Tanaka;Fujio Asai.
Journal of Pharmacy and Pharmacology (2011)
Preferential target is mitochondria in α-mangostin-induced apoptosis in human leukemia HL60 cells
Kenji Matsumoto;Yukihiro Akao;Hong Yi;Kenji Ohguchi.
Bioorganic & Medicinal Chemistry (2004)
Reduction of membrane fluidity by antibacterial sophoraflavanone G isolated from Sophora exigua.
H. Tsuchiya;M. Iinuma.
Xanthones induce cell-cycle arrest and apoptosis in human colon cancer DLD-1 cells.
Kenji Matsumoto;Yukihiro Akao;Kenji Ohguchi;Tetsuro Ito.
Bioorganic & Medicinal Chemistry (2005)
Characterized mechanism of α-mangostin-induced cell death : Caspase-independent apoptosis with release of endonuclease-G from mitochondria and increased miR-143 expression in human colorectal cancer DLD-1 cells
Yoshihito Nakagawa;Munekazu Iinuma;Tomoki Naoe;Yoshinori Nozawa.
Bioorganic & Medicinal Chemistry (2007)
Flavones with antibacterial activity against cariogenic bacteria
Masaru Sato;Shuu Fujiwara;Hironori Tsuchiya;Teruhisa Fujii.
Journal of Ethnopharmacology (1996)
Flavonoids in root bark of Pongamia pinnata
Toshiyuki Tanaka;Munekazu Iinuma;Kaoru Yuki;Yuko Fujii.
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