広島大学

Basic Information

Academic Degrees

• Doctor of Philosophy, Osaka University
• Master, Osaka University

Research Fields

• Biology;Biological Science;Molecular biology
• Biology;Biological Science;Cell biology

Educational Activity

Course in Charge

1. 2024, Liberal Arts Education Program1, 3Term, Cell Science
2. 2024, Liberal Arts Education Program1, 1Term, Experimental Methods and Laboratory Work in Biology I
3. 2024, Liberal Arts Education Program1, 2Term, Experimental Methods and Laboratory Work in Biology II
4. 2024, Undergraduate Education, 3Term, Seminar in English for Life Sciences
5. 2024, Undergraduate Education, 2Term, Introduction to Life Sciences
6. 2024, Undergraduate Education, 1Term, Fundamental Cell Biology
7. 2024, Undergraduate Education, 4Term, Cellular Genetics
8. 2024, Undergraduate Education, 2Term, Laboratory Work in Life Sciences D
9. 2024, Undergraduate Education, 2Term, Practical Methods in Life Sciences D
10. 2024, Undergraduate Education, First Semester, Fundamental Laboratory Work in Biology
11. 2024, Undergraduate Education, First Semester, Fundamental Methodology in Biology
12. 2024, Undergraduate Education, 1Term, Fundamentals of Life Science
13. 2024, Graduate Education (Master's Program) , 3Term, Research Methods in Life Science
14. 2024, Graduate Education (Doctoral Program) , 1Term, Research Plans in Life Science
15. 2024, Graduate Education (Master's Program) , Academic Year, Research for Academic Degree Dissertation in Life and Environmental Sciences
16. 2024, Graduate Education (Master's Program) , First Semester, Exercises in Life and Environmental Sciences A
17. 2024, Graduate Education (Master's Program) , Second Semester, Exercises in Life and Environmental Sciences B
18. 2024, Graduate Education (Master's Program) , 1Term, Introduction to Integrated Arts and Sciences
19. 2024, Graduate Education (Master's Program) , First Semester, Molecular and Cellular Neurobiology I
20. 2024, Graduate Education (Master's Program) , Second Semester, Molecular and Cellular Neurobiology II
21. 2024, Graduate Education (Master's Program) , 4Term, Introduction to Genetics and Genomics

Research Activities

Academic Papers

1. ★, Functions of neuronal Synaptobrevin in the post-Golgi transport of Rhodopsin in Drosophila photoreceptors, JOURNAL OF CELL SCIENCE, 135(24), 202212
   Link to Paper Search Results by DOI
2. ★, Stratum is required for both apical and basolateral transport through stable expression of Rab10 and Rab35 in Drosophila photoreceptors., Molecular biology of the cell, 20220629
3. ★, Rab10, Crag and Ehbp1 regulate the basolateral transport of Na(+)K(+)ATPase in Drosophila photoreceptors, JOURNAL OF CELL SCIENCE, 133(7), 202004
   Link to Paper Search Results by DOI
4. Recycling endosomes associate with Golgi stacks in sea urchin embryos, Commun Integr Biol., 13, 59-62, 202004
   Link to Paper Search Results by DOI
5. ★, Recycling endosomes attach to the trans-side of Golgi stacks in Drosophila and mammalian cells, JOURNAL OF CELL SCIENCE, 133(4), 202002
   Link to Paper Search Results by DOI
6. ★, Sec71 separates Golgi stacks in Drosophila S2 cells., J Cell Science, 133(24), 20201229
7. ★, ER membrane protein complex is required for the insertions of late-synthesized transmembrane helices of Rh1 in Drosophila photoreceptors, MOLECULAR BIOLOGY OF THE CELL, 30(23), 2890-2900, 201911
   Link to Paper Search Results by DOI
8. ★, Parcas is the predominant Rab11-GEF for rhodopsin transport in Drosophila photoreceptors, JOURNAL OF CELL SCIENCE, 132(15), 201908
   Link to Paper Search Results by DOI
9. ★, Syndapin constricts microvillar necks to form a united rhabdomere in Drosophila photoreceptors, DEVELOPMENT, 146(16), 201908
   Link to Paper Search Results by DOI
10. The roles of Syx5 in Golgi morphology and Rhodopsin transport in Drosophila photoreceptors, BIOLOGY OPEN, 5(10), 1420-1430, 201610
    Link to Paper Search Results by DOI
11. Rab6 functions in polarized transport in Drosophila photoreceptors, FLY, 10(3), 123-127, 201604
    Link to Paper Search Results by DOI
12. ★, Rab6 is Required for Multiple Apical Transport Pathways but not the Basolateral Transport Pathway in Drosophila Photoreceptors, PLOS Genetics, 201602
    Link to Paper Search Results by DOI
13. EMC is essential for biosynthesis of rhodopsin and other multi-pass membrane proteins in Drosophila photoreceptors, SEIKAGAKU, 87(6), 781-784, 201512
14. ★, dPob/EMC is essential for biosynthesis of rhodopsin and other multi-pass membrane proteins in Drosophila photoreceptors, eLIFE, 4, 201502
    Link to Paper Search Results by DOI
15. ★, GPI biosynthesis is essential for rhodopsin sorting at the trans-Golgi network in Drosophila photoreceptors, DEVELOPMENT, 140(2), 385-394, 201301
    Link to Paper Search Results by DOI
16. Regulation of arrestin translocation by Ca2+ and Myosin III in Drosophila photoreceptors., J. Neurosci., 201207
    Link to Paper Search Results by DOI
17. The mechanism of pigment granule migration in Drosophila photoreceptors, Seikagaku, 83(11), 1032-1035, 201111
18. ★, Arrestin translocation is stoichiometric to rhodopsin isomerization and accelerated by phototransduction in Drosophila photoreceptors., Neuron, 201009
    Link to Paper Search Results by DOI
19. Ca2+-dependent metarhodopsin inactivation mediated by calmodulin and NINAC myosin III., Neuron, 59, 778-789, 200809
    Link to Paper Search Results by DOI
20. ★, Calcium-activated Myosin V closes the Drosophila pupil., Current Biology, 200807
    Link to Paper Search Results by DOI
21. ★, Myosin-V, Rab11 and dRip11 direct apical secretion and cellular morphogenesis in developing Drosophila photoreceptors, J. Cell Biol., 200705
    Link to Paper Search Results by DOI
22. ★, Arrestin1 mediates light-dependent rhodopsin endocytosis and cell survival.Arrestin1 mediates light-dependent rhodopsin endocytosis and cell survival., Current Biology, 15(19), 1722-1733, 200510
    Link to Paper Search Results by DOI
23. ★, Rab11 mediates post-Golgi trafficking of rhodopsin to the photosensitive apical membrane of Drosophila photoreceptors., Development, 132(7), 1487-1497, 200504
    Link to Paper Search Results by DOI
24. Molecular and functional characterization of a unique Rab protein, RABRP1, containing the WDIAGQE sequence in a GTPase motif., Zoolog Sci, 19(9), 981-993, 200209
25. Rhodopsin transport and Rab expression in the carotenoid-deprived Drosophila melanogaster., Zoological Science., 15, 651-659, 199809
26. ★, In situ inhibition of vesicle transport and protein processing in the dominant negative Rab1 mutant of Drosophila., J Cell Sci., 110(23), 2943-2953, 199712
27. Rab proteins of Drosophila melanogaster: novel members of the Rab-protein family., FEBS Lett., 404(1), 65-69, 199703
    Link to Paper Search Results by DOI

Invited Lecture, Oral Presentation, Poster Presentation

1. Recycling endosomes attach to trans side of Golgi stacks, Akiko K Satoh, 2019/11/08, With Invitation, Japanese, National Institute for Basic Biology, Aichi
2. Genetic analysis of the function of ER membrane complex (EMC) in Drosophila., Naoki Hiramatsu, Takunori Satoh and Akiko K. Satoh, 2018/11/28, With Invitation, English, Yokohama
3. Polarized transport in Drosophila photoreceptors, Akiko K. Satoh, 2018/03/28, With Invitation, English, Takamatsu
4. Genetic analysis of ER membrane complex (EMC) for the synthesis of multi-pass membrane proteins in Drosophila., Takunori Satoh, Naoki Hiramatsu, Aya Ohba, Ziguang Liu, Tsuyoshi Inagaki and Akiko K. Satoh, EMBO workshop-proteostasis, 2017/11/19, With Invitation, English, EMBO, Ericeira, Portugal
5. Functional analysis of ER membrane complex (EMC) for the synthesis of multi-pass membrane proteins in Drosophila., Takunori Satoh, Naoki Hiramatsu and Akiko K. Satoh, Organelle homeostasis ensured by nascent chains, 2017/06/21, With Invitation, English, Sendai
6. EMC is essential for biosynthesis of rhodopsin and other multi-pass membrane proteins in Drosophila photoreceptors., Nascent chain biology (Fiji Lake Hotel), 2016/09/03, With Invitation, English
7. The mechanism of domain formation within apical membrane in Drosophila photoreceptors -Analysis by electron microscopy and super resolution microscopy, STORM-, Akiko K. Satoh, Sakiko Ogi, Atsushi Matsuda and Takunori Satoh., Gordon Research Conference -Cell polarity signaling Short talk selected from the Abst., 2016/06/14, Without Invitation, English
8. The mechanism of domain formation within apical membrane in Drosophila photoreceptors -Analysis by electron microscopy and super resolution microscopy, STORM-, Akiko K. Satoh, Sakiko Ogi, Atsushi Matsuda and Takunori Satoh., Gordon Research Conference -Cell polarity signaling Short talk selected from the Abst., 2016/06/11, Without Invitation, English
9. Rab6 is essential for plural apical transport pathways but not for basolateral transport pathway in Drosophila photoreceptors., Akiko K. Satoh, Nozomi Iwanami, Ziguang Liu and Takunori Satoh., ESF-EMBO Symposium -Cell polarity and membrane trafficking- Short talk selected from the Abst., Without Invitation, Japanese, ESF-EMBO, Polonia castle, Poland
10. The mechanism of Rhodopsin transport to the photoreceptive membrane, rhabdomeres in Drosophila photoreceptors., Akiko K. Satoh, 2011/09/23, With Invitation, English, Kyoto
11. GPI biosynthesis is essential for the sorting of Rh1 at the trans Golgi network in Drosophila photoreceptors., Akiko K. Satoh, Tsuyoshi Inagaki, Reika Watanabe, and Takunori Satoh., FASEB Summer Research Conference –Protein Lipidation, Signaling and Membrane Domain- Short talk selected from the Abst., 2011/06/22, Without Invitation, English
12. in vivo cell biology: a model system of Drosophila eye, two tales of Rhodopsin transport and pigment granules migration., Akiko K. Satoh, National Institute in Genetics International Symposium -Beyond the frontier of Genetics-, 2010/10/14, With Invitation, English
13. Lipid raft dependent rhodopsin sorting and polarized trafficking of fly photoreceptors., Akiko K. Satoh, Global COE retreat at Nagoya University, 2010/09/13, With Invitation, Japanese
14. in vivo cell biology: a model system of Drosophila eye., Akiko K. Satoh, 2018/12/18, With Invitation, Japanese, Department of Biological Science, Faculty of life and Environmental Science, Shimane University, matsue
15. Rhodopsin transport in Drosophila photoreceptors: a sensitive and accessible system to investigate in situ membrane traffic., Akiko K. Satoh, 2009/07/28, With Invitation, English, Department of Biochemistry, University of Geneva, Geneva, Switzerland)
16. Dark dissection reveals the mechanism of pigment granule migration in Drosophila photoreceptors., Akiko K. Satoh, Global COE retreat at Nagoya University, 2008/09/24, Without Invitation, Japanese
17. Rhodopsin transport in Drosophila photoreceptors: a sensitive and accessible system to investigate in vivo membrane traffic., Akiko K. Satoh, 2007/11/20, With Invitation, Japanese
18. Rab11, dRip11 and MyoV mediate post-Golgi Rhodopsin transport in Drosophila photoreceptors., Akiko K. Satoh, 2007/11/12, With Invitation, English, Department of Developmental Genetics, University of Cologne, Cologne, Germany
19. Rab11, dRip11 and MyoV mediate post-Golgi Rhodopsin transport in Drosophila photoreceptors., Akiko K. Satoh, 2007/08/27, With Invitation, Japanese, Department of Biology, Faculty of Science, Kobe University, Kobe
20. Rhodopsin transport in Drosophila photoreceptors: a sensitive and accessible system to investigate in vivo membrane traffic., Akiko K. Satoh, 2007/08/23, With Invitation, Japanese, National Institute in Genetics in Japan, Mishima