Kazufumi Yazaki integrates many fields, such as Biochemistry and Neuroscience, in his works. He performs multidisciplinary study in Neuroscience and Biochemistry in his work. With his scientific publications, his incorporates both Gene and Gene expression. Kazufumi Yazaki connects Gene expression with Molecular biology in his research. His multidisciplinary approach integrates Molecular biology and Complementary DNA in his work. His Transporter study frequently intersects with other fields, such as ATP-binding cassette transporter. He regularly links together related areas like Transporter in his ATP-binding cassette transporter studies. Kazufumi Yazaki connects Enzyme with Stereochemistry in his research. Kazufumi Yazaki integrates Stereochemistry with Enzyme in his study.
His Enzyme study falls within the topics of Biosynthesis and Prenylation. He integrates Biochemistry and Organic chemistry in his studies. Kazufumi Yazaki performs integrative Organic chemistry and Biochemistry research in his work. His study deals with a combination of Gene and Molecular biology. By researching both Botany and Genetics, he produces research that crosses academic boundaries. In his articles, Kazufumi Yazaki combines various disciplines, including Genetics and Bacteria. Kazufumi Yazaki merges Stereochemistry with Enzyme in his research. His Transporter study frequently involves adjacent topics like ATP-binding cassette transporter. His work on Transporter expands to the thematically related ATP-binding cassette transporter.
His Yeast research extends to Biochemistry, which is thematically connected. He combines topics linked to Naphthoquinone with his work on Botany. Gene is closely attributed to Transporter in his study. His study deals with a combination of Enzyme and Stereochemistry. His study deals with a combination of Stereochemistry and Enzyme. His Acyltransferases research extends to the thematically linked field of Biosynthesis. His Genetics study frequently links to adjacent areas such as Rhizosphere. Rhizosphere is closely attributed to Genetics in his work. Kazufumi Yazaki conducted interdisciplinary study in his works that combined Prenyltransferase and Prenylation.
His study brings together the fields of Plant defense against herbivory and Biochemistry. His Plant defense against herbivory study frequently links to adjacent areas such as Biochemistry. He applies his multidisciplinary studies on Gene and Secretion in his research. He integrates Secretion with Gene in his research. His study deals with a combination of Biosynthesis and Phenylpropanoid. His study deals with a combination of Phenylpropanoid and Biosynthesis. As part of his studies on Genetics, Kazufumi Yazaki often connects relevant subjects like Glycoalkaloid. His research on Glycoalkaloid frequently connects to adjacent areas such as Genetics. Many of his studies involve connections with topics such as Glycoside and Botany.
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Insights into Land Plant Evolution Garnered from the Marchantia polymorpha Genome
John L Bowman;Takayuki Kohchi;Katsuyuki T Yamato;Jerry Jenkins.
Plant ABC proteins - a unified nomenclature and updated inventory
Paul J. Verrier;David Bird;Bo Burla;Elie Dassa.
Trends in Plant Science (2008)
PGP4, an ATP Binding Cassette P-Glycoprotein, Catalyzes Auxin Transport in Arabidopsis thaliana Roots
Kazuyoshi Terasaka;Joshua J. Blakeslee;Boosaree Titapiwatanakun;Wendy A. Peer.
The Plant Cell (2005)
The Electronic Plant Gene Register
Matthias Schmidt;Juergen Feierabend;Ya-Hsuan Hsu;Kin-Ying To.
Plant Physiology (1995)
ABC transporters involved in the transport of plant secondary metabolites.
FEBS Letters (2006)
Transporters of secondary metabolites
Current Opinion in Plant Biology (2005)
Involvement of CjMDR1, a plant multidrug-resistance-type ATP-binding cassette protein, in alkaloid transport in Coptis japonica.
Nobukazu Shitan;Ingrid Bazin;Kazuyuki Dan;Kazuaki Obata.
Proceedings of the National Academy of Sciences of the United States of America (2003)
Prenylation of aromatic compounds, a key diversification of plant secondary metabolites
Kazufumi Yazaki;Kanako Sasaki;Yusuke Tsurumaru.
Vacuolar transport of nicotine is mediated by a multidrug and toxic compound extrusion (MATE) transporter in Nicotiana tabacum
Masahiko Morita;Nobukazu Shitan;Keisuke Sawada;Marc C.E. Van Montagu.
Proceedings of the National Academy of Sciences of the United States of America (2009)
Tannis of Casuarina and Stachyurus species. Part 1. Structures of pendunculagin, casuarictin, strictinin, casuarinin, casuariin, and stachyurin
Takuo Okuda;Takashi Yoshida;Mariko Ashida;Kazufumi Yazaki.
Journal of The Chemical Society-perkin Transactions 1 (1983)
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