1. Saino, H., Ago, H., Ukita, Y., Miyano, M.　Seleno-detergent MAD phasing of leukotriene C4 synthase in complex with dodecyl-β-D-selenomaltoside. Acta Crystal. F. 67, 1666-1673 (2011)
2. Saino H., Ukita Y., Ago H., Irikura D., Nisawa A., Ueno G., Yamamaoto M., Kanaoka Y., Lam B.K., Austen K.F., & Miyano M. The catalyric architecture of leukotriene C4 synthase with two arginine residues. J. Biol. Chem. 286, 16392-16401 (2011).
3. Miyano M, Ago H, Saino H, Hori T, Ida K. Internally bridging water molecule in transmembrane α-helical kink. Curr Opin Struct Biol (2010) 20:456-463.
4. Hori T, Sato Y, Takahashi N, Takio K, Yokomizo T, Nakamura M, Shimizu T, Miyano M. Expression, purification and characterization of leukotriene B4 receptor, BLT1 in Pichia pastoris. Protein Expr Purif. (2010) 72:66-74.
5. Kawakami Y, Yamashita C, Kashiwase Y, Morinaka T, Suzuki-Yamamoto T, Yamashita H, Kimoto M, Tsuji H, Kurahashi Y, Daiyasu H, Toh H, Sugahara M, Miyano M, Yamamoto S, Takahashi Y. Functional expression of single-chain antibody to leukotriene C4. Biochem Biophys Res Commun. (2010) 392:421-425.
6. Nitanai Y, Shimamura T, Uchiyama T, Ishii Y, Takehira M, Yutani K, Matsuzawa H, Miyano M. The catalytic efficiency (kcat/Km) of the class A β-lactamase Toho-1 correlates with the thermal stability of its catalytic intermediate analog. Biochim Biophys Acta. (2010) 1804:684-691.
7. Kumasaka T, Aritake K, Ago H, Irikura D, Tsurumura T, Yamamoto M, Miyano M, Urade Y, Hayaishi O. Structural basis of the catalytic mechanism operating in open-closed conformers of lipocalin type prostaglandin D synthase. J Biol Chem. (2009) 284:22344-22352.
8. Ago H, Kanaoka Y, Irikura D, Lam BK, Shimamura T, Austen KF, Miyano M. Crystal structure of a human membrane protein involved in cysteinyl leukotriene biosynthesis. Nature. (2007) 448:609-612.
9. Shimamura T, Hiraki K, Takahashi N, Hori T, Ago H, Masuda K, Takio K, Ishiguro M, Miyano M. Crystal structure of squid rhodopsin with intracellularly extended cytoplasmic region. J Biol Chem. (2008) 283, 17753-17756.
10. Yasuda D, Okuno T, Yokomizo T, Hori T, Hirota N, Hashidate T, Miyano M, Shimizu T, Nakamura M. Helix 8 of leukotriene B4 type-2 receptor is required for the folding to pass the quality control in the endoplasmic reticulum. FASEB J. (2009) 23, 1470-1481.
11. Kurahashi Y, Sugahara M, Ago H, Aoyama S, Takahashi N, Takio K, Katsukawa M, Yamamoto S, Miyano M. Crystallization and preliminary diffraction studies of prostaglandin E2-specific monoclonal antibody Fab fragment in the ligand complex. Acta Crystallogr Sect F (2008) 64, 1027-1030.
12. Nagasaki-Takeuchi N, Miyano M, Maeshima M. A plasma membrane-associated protein of Arabidopsis thaliana AtPCaP1 binds copper ions and changes its higher order structure. J Biochem. (2008) 144, 487-497.
13. Iino H, Naitow H, Nakamura Y, Nakagawa N, Agari Y, Kanagawa M, Ebihara A, Shinkai A, Sugahara M, Miyano M, Kamiya N, Yokoyama S, Hirotsu K, Kuramitsu S. Crystallization screening test for the whole-cell project on Thermus thermophilus HB8. Acta Crystallogr F. (2008) 64, 487-491.
14. Bagautdinov B, Ukita Y, Miyano M, Kunishima N. Structure of 3-oxoacyl-(acyl-carrier protein) synthase II from Thermus thermophilus HB8. Acta Crystallogr Sect F Struct Biol Cryst Commun. (2008) 64:358-366.
15. Nishibori E, Nakamura T, Arimoto M, Aoyagi S, Ago H, Miyano M, Ebisuzaki T, Sakata M. Application of maximum-entropy maps in the accurate refinement of a putative acylphosphatase using 1.3 Å X-ray diffraction data. Acta Crystallogr D Biol Crystallogr. (2008) 64:237-247.
16. Ishijima J, Nagasaki N, Maeshima M, Miyano M. RVCaB, a calcium-binding protein in radish vacuoles, is predominantly an unstructured protein with a polyproline type II helix. J Biochem. (2007) 142:201-211.
17. Irikura D, Inui T, Beuckmann CT, Aritake K, Schreiber G, Miyano M, Inoue T,Urade Y. Characterization of a major secretory protein in the cane toad (Bufo marinus)choroid plexus as an amphibian lipocalin-type prostaglandin D synthase. J Biochem. (2007) 141:173-180.
18. Kuniyeda K, Okuno T, Terawaki K, Miyano M, Yokomizo T, Shimizu T. Identification of the intracellular region of the leukotriene B4 receptor type 1 that is specifically involved in Gi activation. J Biol Chem. (2007) 282:3998-4006.
19. Nakayama H, Shimamura T, Imagawa T, Shirai N, Itoh T, Sako Y, Miyano M, Sakuraba H, Ohshima T, Nomura N, Tsuge H. Structure of a hyperthermophilic archaeal homing endonuclease, I-Tsp061I: contribution of cross-domain polar networks to thermostability. J Mol Biol. (2007) 365:362-378.
20. Kawabata K, Saitoh K, Takahashi M, Sugahara M, Asama H, Mishima T, Miyano M. Integrated state evaluation for the images of crystallization droplets utilizing linear and nonlinear classifiers. Acta Crystallogr D Biol Crystallogr. (2006) 62:1066-1072.
21. Hori T, Ishijima J, Yokomizo T, Ago H, Shimizu T, Miyano M. Crystal structure of anti-configuration of indomethacin and leukotriene B4 12-hydroxydehydrogenase/15-oxo-prostaglandin 13-reductase complex reveals the structural basis of broad spectrum indomethacin efficacy. J Biochem (Tokyo). (2006) 140:457-466.
22. Ago H, Oda M, Takahashi M, Tsuge H, Ochi S, Katunuma N, Miyano M, Sakurai J. Structural basis of the sphingomyelin phosphodiesterase activity in neutral sphingomyelinase from Bacillus cereus. J Biol Chem. (2006) 281:16157-16167.
23. Aritake K, Kado Y, Inoue T, Miyano M, Urade Y. Structural and functional characterization of HQL-79, an orally selective inhibitor of human hematopoietic prostaglandin D synthase. J Biol Chem. (2006) 281:15277-15286.
24. Ben Ammar Y, Takeda S, Sugawara M, Miyano M, Mori H, Wakabayashi S. Crystallization and preliminary crystallographic analysis of the human calcineurin homologous protein CHP2 bound to the cytoplasmic region of the Na+/H+ exchanger NHE1. Acta Crystallograph Sect F Struct Biol Cryst Commun. (2005) 61:956-958.
25. Kawabata K, Takahashi M, Saitoh K, Asama H, Mishima T, Sugahara M, Miyano M. Evaluation of crystalline objects in crystallizing protein droplets based on line-segment information in greyscale images. Acta Crystallogr D Biol Crystallogr. (2006) 62:239-245.
26. Ishijima J, Uchida Y, Kuroishi C, Tuzuki C, Takahashi N, Okazaki N, Yutani K, Miyano M. Crystal structure of alanyl-tRNA synthetase editing-domain homolog (PH0574) from a hyperthermophile, Pyrococcus horikoshii OT3 at 1.45 Å resolution. Proteins. (2006) 62:1133-1137.
27. Okuno T, Yokomizo T, Hori T, Miyano M, Shimizu T. Leukotriene B4 receptor and the function of its helix 8. J Biol Chem. (2005) 280:32049-32052.
28. Usui K, Katayama S, Kanamori-Katayama M, Ogawa C, Kai C, Okada M, Kawai J, Arakawa T, Carninci P, Itoh M, Takio K, Miyano M, Kidoaki S, Matsuda T, Hayashizaki Y, Suzuki H. Protein-protein interactions of the hyperthermophilic archaeon Pyrococcus horikoshii OT3. Genome Biol. (2005) 6:R98.
29. Kunishima N, Asada Y, Sugahara M, Ishijima J, Nodake Y, Sugahara M, Miyano M, Kuramitsu S, Yokoyama S, Sugahara M. A novel induced-fit reaction mechanism of asymmetric hot dog thioesterase PAAI. J Mol Biol. (2005) 352:212-228.
30. Tsuge H, Kawakami R, Sakuraba H, Ago H, Miyano M, Aki K, Katunuma N, Ohshima T. Crystal structure of a novel FAD-, FMN-, and ATP-containing L-proline dehydrogenase complex from Pyrococcus horikoshii. J Biol Chem. (2005) 280:31045-31049.
31. Saitoh K, Kawabata K, Asama H, Mishima T, Sugahara M, Miyano M. Evaluation of protein crystallization states based on texture information derived from gray scale images. Acta Crystallogr D Biol Crystallogr. (2005) 61:873-880.
32. Lokanath NK, Shiromizu I, Ohshima N, Nodake Y, Sugahara M, Yokoyama S, Kuramitsu S, Miyano M, Kunishima N. Structure of aldolase from Thermus thermophilus HB8 showing the contribution of oligomeric state to thermostability. Acta Crystallogr D Biol Crystallogr. (2004) 60:1816-18123.
33. Hisanaga Y, Ago H, Nakagawa N, Hamada K, Ida K, Yamamoto M, Hori T, Arii Y, Sugahara M, Kuramitsu S, Yokoyama S, Miyano M. Structural basis of the substrate-specific two-step catalysis of long chain fatty acyl-CoA synthetase dimer. J Biol Chem. (2004) 279 :31717-31726.
34. Tahirov TH, Inagaki E, Ohshima N, Kitao T, Kuroishi C, Ukita Y, Takio K, Kobayashi M, Kuramitsu S, Yokoyama S, Miyano M. Crystal structure of purine nucleoside phosphorylase from Thermus thermophilus. J Mol Biol. (2004) 337:1149-1160.
35. Hori T, Yokomizo T, Ago H, Sugahara M, Ueno G, Yamamoto M, Kumasaka T, Shimizu T, Miyano M. Structural basis of leukotriene B4 12-hydroxydehydrogenase/15-Oxo-prostaglandin 13-reductase catalytic mechanism and a possible Src homology 3 domain binding loop. J Biol Chem. (2004) 279:22615-22623.
36. Takahashi H, Inagaki E, Fujimoto Y, Kuroishi C, Nodada K, Ida K, Yamamoto M, Hori T, Arii Y, Sugahara M, Kuramitsu S, Yokoyama S, Miyano M. Structural basis of the substrate-specific two-step catalysis of long chain fatty acyl-CoA syntransferase from Thermus thermophilus. Acta Crystallogr D Biol Crystallogr. (2004) 60:97-104.
37. Lokanath NK, Shiromizu I, Nodake Y, Sugahara M, Yokoyama S, Kuramitsu S, Miyano M, Kunishima N. Crystallization and preliminary X-ray crystallographic studies of NADP-dependent 3-hydroxyisobutyrate dehydrogenase from Thermus thermophilus HB8. Acta Crystallogr D Biol Crystallogr. (2003) 59:2294-2296.
38. Hamada K, Ago H, Sugahara M, Nodake Y, Kuramitsu S, Miyano M. Oxyanion hole-stabilized stereospecific Kuroishi C, Nodada K, Ida K, Yamamoto M, Hori T, Arii Y, Sugahara M, Kuramitsu S, Yokoyama S, Miyano M. Structural basis of the substrate-specific two-step catalysis of long chain fatty acyl-CoA syntransferase from Thermus thermophilus. Acta Cryow affinity state after G-protein activation. J Biol Chem. (2003) 278:41500-41509.
39. Irikura D, Kumasaka T, Yamamoto M, Ago H, Miyano M, Kubata KB, Sakai H, Hayaishi O, Urade Y. Cloning, expression, crystallization, and preliminary X-ray analysis of rdrogenase from Thermus thermophilus HB8. Acta Crystallogr D Biol Crystallogr. (2003) 59:2294-2296.
40. Hamada K, Ago H, Sugahara M, Nodake Y, Kuramitsu S, Miyano M. Oxyanion hole-stabilized stereospecific Kuroishi C, Nodada K, Ida K, Yamamoto M, Hori T, Arii Y, Sugahara M, Kuramitsu S, Yokoyama S, Miyano M.entification of the prostaglandin F producing cells in the liver. Adv Exp Med Biol. (2002) 507:263-268.
41. Inoue T, Irikura D, Okazaki N, Kinugasa S, Matsumura H, Uodome N, Yamamoto M, Kumasaka T, Miyano M, Kai Y, Urade Y. Mechanism of metal activationiol Chem. (2003) 278:41500-41509.
42. Irikura D, Kumasaka T, YamBiol. (2003) 10: 291-296. Erratum in: Nat Struct Biol. 2003
43. Sakuraba H, Tsuge H, Shimoya I, Kawakami R, Goda S, Kawarabayasi Y, Katunuma N, Ago H, Miyano M, Ohshima T. The first crystal structure of archaeal aldolase. Unique tetrameric structure of 2-deoxy-d-ribose-5-phosphate aldolase from the hyperthermophilic archaea Aeropyrum pernix. J Biol Chem. (2003) 278:10799-10806.
44. Kimura M, Furuichi M, Yamamoto M, Kumasaka T, Mizuno H, Miyano M, Yamaguchi I. The flexible C-terminal region of Aspergls in the liver. Adv Exp Med Biol. (2002) 507:263-268.
45. Inoue T, Irikura D, Okazaki N, Kinugasa S, Matsumura H, Uodome N, Yamamoto M, Kumasaka T, Miyano M, Kai Y, Urade Y. Mechanism of metal activationiol Chem. (2003) 278:41500-41509.
46. Irikura D,1,umasaka T, YamBiol. (2003) 10: 291-296. Erratum in: Nat Struct Biol. 2003
47. Sakuraba H, Tsuge H, Shimoya I, Kawakami R, Goda S, Kawarabayasi Y, Katunuma N, Ago H, Miyano M, Ohshima T. The first crystal structure of archaeal aldolase. Unique tetramUMiyano M, Kanaoka Y, Urade Y, Hayaishi O. Structural basis of hematopoietic prostaglandin D synthase activity elucidated by site-directed mutagenesis. J Biol Chem. (2000) 275:31239-31244.
48. Ago H, Adachi T, Yoshida A, Yamamoto M, Habuka N, Yatsunami K, Miyano M. Crystal structure of the RNA-dependent RNA polymerase of hepatitis C virus. Structure. (1999) 7:1417-1426.
49. Suzuki T, Fujii Y, Miyano M, Chen LY, Takahashi T, Watanabe KY. Mechanism of metal activationiol Chem. (2003) 278:41500-41509.
50. Irikura D,1,umasaka T, YamBiol. (2003) 10: 291-296. Erratum in: Nat Struct Biol. 2003
51. Sakuraba H, Tsuge H, Shimoya I, Kawakami R, Goda S, Kawarabayasi Y, Katunuma N, Ago H, Miyano Ml activity inhibitor. J Mol Biol. (1997) 274:16-20.
52. Kanaoka Y, Ago H, Inagaki E, Nanayama T, Miyano M, Kikuno R, Fujii Y, Eguchi N, Toh H, Urade Y, Hayaishi O. Cloning and crystal structure of hematopoietic prostaglandin D synthase. Cell. (1997) 90:y elucidated by site-directed mutagenesis. J Biol Chem. (2000) 275:31239-31244.
53. Ago H, Adachi T, Yoshida A, Yamamoto M, Habuka N, Yatsunami K, Miyano M. Crystal structure of the RNA-hi M, Miyano M, Matsumoto T, Noma M. Human 5-lipoxygenase associates with phosphatidylcholine liposomes and modulates LTA4 synthetase activity. Biochim Biophys Acta. (1994) 1215:300-306.
54. Ago H, Kataoka J, Tsuge H, Habuka N, Inagaki E, Noma M, Miyano M. X-ray structure of a pokeweed antiviral protein, co H, Miyano Ml activity inhibitor. J Mol Biol. (1997) 274:16-20.
55. Kanaoka Y, Ago H, Inagaki E, Nanayama T, Miyano M, Kikuno R, Fujii Y, Eguchi N, Toh H, Urade Y, Hayaishi O. Cloning and crystal structure of hematopoietic prostaglandin D synthase NH. Improved crystals of the toxic protein MAP by protein engineering towards the host specificity. Acta Crystallogr D Biol Crystallogr. (1994) 50:404-407.
56. Noguchi M, Miyano M, Kuhara S, Matsumoto T, Noma M. Interfacial kinetic reaction of human 5modulates LTA4 synthetase activity. Biochim Biophys Acta. (1994) 1215:300-306.
57. Ago H, Kataoka J, Tsuge H, Habuka N, Inagaki E, Noma M, Miyano M. X-ray structure of a pokeweed antiviral protein, co H, Miyano Ml activity inhibitor. J Mol Biol. (1997) 274:16-20.
58. Kanaoka Y, Ago H, Inagaki E, Nanayama T, a N, Kataoka J, Miyano M, Tsuge H, Ago H, Noma M. Nucleotide sequence of a genomic gene encoding tritin, a ribosome-inactivating protein from Triticum aestivum. Plant Mol Biol. (1993) 22:171-176.
59. Kataoka J, Ago H, Habuka N, Furuno M, Masuta C, Miyano M, Koiwai A. Expression of a pokeweed antiviral protein no M, Kuhara S, Matsumoto T, Noma M. Interfacial kinetic reaction of human 5modulates LTA4 synthetase activity. Biochim Biophys Acta. (1994) 1215:300-306.
60. Ago H, Kataoka J, Tsuge H, Habuka N, Inagaki E, Noma M, Miyano M. X-ray structure of a pokeweed antiviral protein, co H, Miyano Ml activity inhioiwai A. Adenine depurination and inactivation of plant ribosomes by an antiviral protein of Mirabilis jalapa (MAP). Plant Mol Biol. (1992) 20:1111-1119.
61. Kataoka J, Habuka N, Masuta C, Miyano M, Koiwai A. Isolation and analysis of a genomic clone encoding a pokeweed antiviral protein. Plant Mol Biol. (1992) 20:879-886.
62. Minami M, Bito H, Ohishi N, Tsuge H, Miyano M, Mori M, Wada H, Mutoh H, Shimada S, Izumi T, et al. Leukotrienetiviral protein no M, Kuhara S, Matsumoto T, Noma M. Interfacial kinetic reaction of human 5modulates LTA4 synthetase activity. Biochim Biophys Acta. (1994) 1215:300-306.
63. Ago H, Kataoka J, Tsuge H, Habuka N, Inagaki E, Noma M, Miyano M. Xtide sequence of cDNA encoding b-luffin, another ribosome-inactivating protein from Luffa cylindrica. Plant Mol Biol. (1992) 19:887-889.
64. Miyano M, Appelt K, Arita M, Habuka N, Kataoka J, Ago H, Tsuge H, Noma M, Ashford V, Xuong N. Crystallization and preliminary X-ray crystallographic analysis of Mirabilis anti, Masuta C, Miyano M, Koiwai A. Isolation and analysis ochi M, Miyano M, Matsumoto T, Noma M. Mutagenesis studies on the amino acid residues involved in the iron-binding and the activity of human 5-lipoxygenase. Biochem Biophys Res Commun. (1992) 184:1133-1134.
65. Habuka N, Miyano M, Kataoka J, Tsuge H306.
66. Ago H, Kataoka J, Tsuge H, Habuka N, Inagaki E, Noma M, Miyano M. Xtide sequence of cDNA encoding b-luffin, another ribosome-inactivating protein from Luffa cylindrica. Plant Mol Biol. (1992) 19:887-889.
67. Miyano M, Appelt K, Arita M, Haactivating protein from Luffa cylindrica. Plant Mol Biol. (1992) 18:1199-1202.
68. Ishii S, Noguchi M, Miyano M, Matsumoto T, Noma M. Mutagenesis studies on the amino acid residues involved in the iron-binding and the activity of human 5-lipoxygenase. f Mirabilis anti, Masuta C, Miyano M, Koiwai A. Isolation and analysis ochi M, Miyano M, Matsumoto T, Noma M. Mutao H, Noma M, Nitta K, Sugai S, Miyano M. Crystallographic studies of a calcium binding lysozyme from equine milk at 2.5 Å luffin, another ribosome-inactivating protein from Luffa cylindrica. Plant Mol Biol. (1992) 19:887-889.
69. Miyano M, Appelt K, Arita M, Haactivating protein from Luffa cylindrica. Plant Mol Biol. (1992) 18:1199-1202.
70. Ishii S, Noguchi M, Miyano M, Matsumoto T, Noma M. Mutagenesis studies on the amino acidM, Kataoka J, Noma M. Escherichia coli ribosome is inactivated by Mirabilis antiviral protein which cleaves the N-glycosidic bond at A2660 of 23 S ribosomal RNA. J Mol Biol. (1991) 221:737-743.
71. Tsuge H, Koseki K, Miyano M, Shimazaki K, Chuman T, Matsumoto T, Noma M, Nitta K, Sugai S. A structural study of calcium-binding equine lysozyme by two-dimensional PP1PPH-NMR. Biochim Biophys Acta. (1991) 1078:77-84.
72. Kataoka J, Habuka N, Furuno M, Miyano M, Takanami Y, Koiwai A. DNA sequence of Mirabilis antiviral protein (MAP), a ribosome-inactivating protein with an antiviral property, from Mirabilis jalapa L. and its indrica. Plant Mol Biol. (1992) 18:1199-1202.
73. Ishii S, Noguchi M, Miyano M, Matsumoto T, Noma M. Mutagenesis studies on the amino acidM, Kataoka J, Noma M. Escherichia coli ribosome is inactivated by Mirabilis antiviral protein which cleavesc and prokaryotic protein synthesis. J Biol Chem. (1990) 265:10988-10992.
74. Kuno H, Shibagaki M, Matsuzaki T, Miyano M, Yasumatsu N, Matsushita H, Koiwai A. Synthesis of N'-(3-Hydroxyo-12-methyltridecanoyl)nornicotine. Agric Biol Chem (1989) 53: 535-536.
75. Matsuzaki T, Miyano M, Yasumatsu N and Koiwai A. Germal PP1PPH-NMR. Biochim Biophys Acta. (1991) 1078:77-84.
76. Kataoka J, Habuka N, Furuno M, Miyano M, Takanami Y, Koiwai A. DNA sequence of Mirabilis antiviral protein (MAP), a ribosome-iSharp Transition in Activity and Conformation of Tobacco Ribulose-1,5-Bisphosphate Carboxylase Oxygenase Biochim Biophys Acta. (1983) 743: 207-211.
77. Miyano M, Yasumatsu N, Matsushita H, Nishida K. 1'-(6-Hydroxyoctanoyl)nornicotine and 1'-(7-Hydroxyoctanoyl)nornicotine, 2 New Alkaloids from Japanese Domestic Tobacc which cleavesc and prokaryotic protein synthesis. J Biol Chem. (1990) 265:10988-10992.

編著書

1. 宮野雅司　光をロドプシンで見る　ブルーバックス　（分担執筆）“放射光が解き明かす驚異のナノ世界”　編集放射光学会　　講談社（2011）9月　
2. Hideo Ago and Masashi Miyano “Structure basis of the unidirectional catalysis of long chain fatty acyl-CoA synthetase. - Toward the vectorial movement across the membrane”　In “Functional and Structural Biology on the Lipo-network” Ed. By Kosuke Morikawa and Shin-ichi Tate (2006) Transworld Research Network, Kerala, India分担執筆　
3. Yoshihiro Urade, Ikuko Mohri, Kosaku Aritake, Tsuyoshi Inoue and Masashi Miyano “Biochemical and structural characteristics of hematopoietic prostaglanding D synthase: From evolutionary analysis to drug design.” ibid. (2006) 分担執筆
4. Masashi Miyano ed. “ RIKEN/BBSRC Joint Symposium Japan-UK Membrane Protein Structure Biology” (2003) RIKEN Harima Institute.
5. 宮野雅司　生体巨大分子とその複合体の立体構造解析と時間分割立体構造解析　in 「産業界における放射光施設利用報告書」(1991) （財）大阪科学技術センター大型放射光施設利用調査委員会編　分担執筆

総説

1. 宮野雅司、吾郷日出夫、堀哲哉　Medchem News　(2009) 19, 20-31. 創薬標的膜タンパク質の結晶構造解析とSBDD：直接の創薬標的へ，そして再びモデルへ
2. 吾郷日出夫、堀哲哉、宮野雅司 分子心血管病 (2008)　9, 617--624,2008, 脂質メディエータ合成酵素の構造と機能；最近の進展
3. 横山茂之、木川隆則、白水美香子、宮野雅司、倉光成紀 網羅的解析拠点の研究成果 蛋白質核酸酵素 (2008) 53:632-637.
4. 山本雅貴、宮野雅司　放射線と産業 (2006) 110　創薬に役立つタンパク質のX線結晶構造解析
5. Miyano M. Structure (2005) 13, 946-947. Amphiphilic Helices Drive Signaling.
6. 宮野雅司、堀　哲哉　医学のあゆみ　(2005)　212 9-15.　７回膜貫通型受容体の構造と機能
7. 宮野雅司　実験医学　(2005) 23 90-97.　エイコサノイド合成系酵素の構造生物　-医薬品の分子作用機能理解とさらなる創薬を目指して
8. 菅原光明、岡崎伸生、宮野雅司 化学　(2004) 59, 52-53.全自動タンパク質結晶化観察ロボット（TERA）—効率的な結晶化とデータ処理が可能に！
9. 宮野雅司、菅原光明　Medical Science Digens　30, 161-162. ハイスループット自動観察システム
10. 菅原光明、仲村勇樹、黒石千寿、浮田陽子、岡崎伸生、粂井麻希、田中智之、小林正則、高秀幸、宮野雅司　日本結晶成長学会誌　30, 395-397. タンパク質結晶化の自動化の試み　—　タンパク質結晶をより理論的に進める道はあるか　—
11. 菅原光明、宮野雅司　現代化学　2003年2月号　41. 【産学連携の成功モデル】全自動タンパク質結晶化観察ロボットシステム「TEAR」の開発
12. 宮野雅司、高　秀幸　ibid.　 2003年3月号　43.　 【産学連携の成功モデル】タンパク質構造解析の研究支援ツールの共同開発
13. 菅原光明、宮野雅司　現代化学　2003年2月号　41. 【産学連携の成功モデル】全自動タンパク質結晶化観察ロボットシステム「TEAR」の開発
14. 吾郷日出夫、宮野雅司　ゲノム医学　(2003) 3, 109-118. 創薬からみた構造プロテオミクス
15. 宮野雅司、菅原光明、山本雅貴　日本結晶学会誌　(2003)　45, 268-272. タンパク質の大規模結晶構造解析または、ハイスループットファクトリーということ
16. 宮野雅司、吾郷日出夫　可視化情報学会誌 (2002) 22, 10-17. SPring8の光を使ってタンパク質の構造をみる.
17. 堀哲哉、熊坂崇、山本雅貴、宮野雅司バイオベンチャー　(2002)　2, 73-79.ロドプシンの構造がひらくゲノム創薬の新しい道
18. 菅原光明、宮野雅司　蛋白質核酸酵素　2002 47: 1026-1032. ハイスループット自動結晶化・観察システムの開発
19. 宮野雅司 放射光 (2001) 14, 34-39. 構造ゲノム科学
20. 宮野雅司、熊坂　崇、堀　哲哉、山本雅貴　蛋白質核酸酵素 (2001) 46, 687-697. ７回膜貫通型レセプター・炉祖婦真の結晶構造　7TMレセプターの分子機能解明に向けて
21. 宮野雅司、田中　勲　実験医学　(2001)　19, 950-953. 構造解析技術の進歩①　タンパク質X線結晶構造解析
22. 宮野雅司、吾郷日出夫 ウイルス　(2001) 51, 73-79. 特集２　構造ウィル学　３，HCV由来ゲノム複製酵素の立体構造とその複製機構
23. 宮野雅司　日本結晶学会誌　50周年記念号第３部　応用からみた構造生物　−　創薬を中心にして　−
24. 宮野雅司、吉田厚仁、池田　了　内科　(1999) 84, 307-312. 特集　ウィルス性肝炎診断の最新動向　ウィルス性肝炎—今後の展開　ウィルスタンパク質の結晶構造に基づくdrug design
25. 吾郷日出夫、宮野雅司　日本結晶学会 (1998) 40, 389-397. プロスタグランジンD2合成酵素　高い反応性と効率を備えた新規なグルタチオン転移酵素
26. 宮野雅司　構造生物　(1997) 3, 1 応用の学としての構造生物（巻頭言）
27. 吾郷日出夫、宮野雅司　構造生物 (1996) 2, 13-26. ソルベントフラッターリングこの１０年
28. 宮野雅司　構造生物　(1996) 1, 39-44. バイオテクノロジー研究開発のインフラとしての構造生物学
29. 宮野雅司　SR科学技術情報　(1994) 4(10), 18-23. 南カルフォルニアの青い空から

1. Miyano M. “'Wedged' water molecule at the kink of transmembrane α-helix" RIKEN Symposium Dynamic hydration structure and molecular processes IV, Wako (2010)
2. Miyano M . : "Crystal structure of rhodopsin and functional implication", Meeting GPCR: International Franqui Colloquia on G Protein-Coupled Receptors , (Francqui Foundation), Brussels , Belgium , Dec. (2000).
3. Miyano M . : "Crystal structure of a G-Protain coupled receptor, Bovine Rhodopsin", RIKEN-DL Biomolecular Science (Structure Biology) Symposium , Daresbury , UK , Dec. (2000).
4. Miyano M . : "Crystal structure of bovine rhodopsin: Implications for the activation mechanism", Gordon Research Conference on Ligand Recognition and Molecular Gatin, Ventura , USA , Jan.--Feb. (2001).
5. Miyano M . : "The crystal structure of a G-Protain coupled receptor, Bovine Rhodopsin", The Fifth Hamamatsu International Symposium on Biology: Computational Biology: Analysis of Molecular Machines , (The Research Foundation for Opto-Science and Technology), Hamamatsu , Feb. (2001).
6. Miyano M . : "Application of synchrotron radiation to protein crystallography: The molecular structure of rhodopsin", First Southeast Asian Protein Crystallography Workshop: How to prepare your protein for crystallography , (National Synchrotron Research Center), Nakhon Ratchasima , Thailand , May (2001).
7. Miyano M . : "Atomic structure of bovine rhodopsin: A seven transmembrane receptor", 7th International Conference on Biology and Synchrotron Radiation (BSR 2001) , Sao Pedro , Brazil , July--Aug. (2001).
8. Miyano M . : "Highthroughput Factory, a part of RIKEN structural Genomics/Proteomics initiative(RSGI) at SPring-8", Canada-UK-Japan Joint Symposium on Toward Post DNA-Sequencing Era , Yokohama , Feb. (2002).
9. Miyano M . and Kumasaka T . : "Full automation approach of crystallization screening and its observation", Interdisciplinary Workshop Promoting Collaboration in High-Throughput X-ray Structure Determination , (The Institute for Complex Adaptive Matter and others), Santa Fe , USA , Mar. (2002).
10. Miyano M . : "Database support for high throughput structural genomics/proteomics initiative", Workshop on Data Management Aspects of High Throughput Structure Determination , (European Bioinformatics Institute), Cambridge , UK , Mar. (2003).
11. Miyano M. : "Crystal structure of rhodopsin, an atomic model of GPCR", 39th Karolinska Institutet Nobel Conference , Stockholm , Sweden , June (2003).
12. Miyano M.: "RIKEN Highthroughput Factory: an intergrated structural Genomics/Proteomics facility at SPring-8", Workshop France-Japan on Structural Genomics , Tokyo , Nov. (2003).
13. Miyano M. ,Ago H . ,Hori T . ,Kumasaka T . ,Inoue T . ,Hisanaga Y . ,Irikura D. ,Yokomizo T . ,Urade Y . ,Shimizu T . ,and Hayaishi O . : "Structural biology on lipid related proteins: toward the medical and medicinal applications", 1st Pacific-Rim International Conference on Protein Science (PRICPS 2004) , (Protein Science Society of Japan and others), Yokohama , Apr. (2004).
14. Miyano M. : "Structures on lipid related proteins at structural biophysics laboratory", RIKEN-CCLRC Daresbury Symposium: Structural Biology , Daresbury , UK , May (2004).
15. Miyano M. : “Progress toward the crystallization of G-Protein –coupled receptors and recent work of RIKEN Structural Biophysics Laboratory”, Special Seminar Structural Proteomics, Duke University Medical School, USA, July 21, (2004).
16. Miyano M. : "Structural Basis of Multifunctional Lipocalin-type Prostaglandin D2 Synthase", 20th Congress of the International Union of Crystallography (IUCr2005) , Florence , Italy , Aug. (2005).
17. Miyano M. :“Lipid mediator related proteins –their structure and function” KEK-Center Seminar, UCSF 30 May, 2007.
18. Miyano M, :”Crystal Structures of Rhodopsin as a　model of GPCRs –Structural Comparison of recent reported GPCRs vs. Opsin-“ Luncheon Seminar, Beckmann Center, Stanford University, 21st Aug. 2008.
19. Masashi Miyano:” Drug discovery for Eicosanids related proteins including their receptors” ESRF seminar, Grunoble France, 23rd Sep., 2008.
20. Masashi Miyano,: :” Drug discovery for Eicosanids related proteins including their receptors” Takeda San Diedo Seminar, 25 Sep., 2008.
21. Masashi Miyano,: :” Drug discovery for Eicosanids related proteins including their receptors” UCLA Medical School Seminar, 26 Sep., 2008.
22. Masashi Miyano,: “Lipid Structure Biology toward the Structure-based Drug Design” NobelForum 2009, Beijing 7 Dec., 2009.

1. 宮野 雅司: "ウシロドプシンの結晶構造", 生体高分子構造情報利用技術開発プロジェクト勉強会 , (大阪大学), 大阪 , 8月 (2000).
2. 宮野 雅司,熊坂 崇,堀 哲哉,岡田 哲二,本島 浩之,Stenkamp R. E . ,Palczewski K . ,山本 雅貴: "ウシロドプシンの結晶構造", 日本結晶学会2000年度年会 , 仙台 , 11月 (2000).
3. 宮野 雅司: "X線結晶解析のハイスループット化に向けて", 第22回日本分子生物学会年会 , 神戸 , 12月 (2000).
4. 宮野 雅司: "研究室紹介と最近の成果", 理研シンポジウム「構造生物学(VI)」 , 和光 , 1月 (2001).
5. 宮野 雅司: "7回膜貫通レセプター・ウシロドプシンの結晶構造", 日本ビタミン学会第53回大会 , 淡路 , 5月 (2001).
6. 宮野 雅司: "創薬の基盤としてのタンパク質構造解析", CBI学会2001年大会 , (情報計算化学生物学会), 東京 , 7月 (2001).
7. 宮野 雅司: "ロドプシンの不活性型結晶構造と活性型機能解析に基づくGPCR活性化のメカニズムについて", ゲノム創薬フォーラム第4回シンポジウム「ゲノムからプロテオーム創薬へ」 , 東京 , 11月 (2001).
8. 宮野 雅司: "ポストゲノム時代の創薬へのタンパク質構造利用にむけて", 鹿島医薬品カンファレンス「ゲノム/グローバル時代の医薬品施設と経営」 , (鹿島建設), 東京 , 11月 (2001).
9. 宮野 雅司: "GPCR/ロドプシンの原子構造と活性化の分子機構", 大阪バイオサイエンス研究所Monthly Lecture , 吹田 , 12月 (2001).
10. 宮野 雅司: "構造ゲノム的アプローチ: SPring-8ハイスループットファクトリーの現状と将来", 第15回日本放射光学会年会・放射光科学合同シンポジウム , 千葉 , 1月 (2002).
11. 宮野 雅司: "ポストゲノム時代における構造生物の創薬への展開：GPCRロドプシンの活性化メカニズムを中心に", 第7回放射光医学研究会学術集会 , 東京 , 2月 (2002).
12. 宮野 雅司: "ポストゲノム時代における構造生物学の創薬への展開：GPCRロドプシンの活性化メカニズムを中心に", バイオ化学産業分科会 , (化学技術戦略推進機構), 東京 , 3月 (2002).
13. 宮野 雅司: "タンパク質と糖鎖のX線結晶構造解析", 第23回日本糖質学会年会 , 横浜 , 8月 (2002).
14. 宮野 雅司: "ポストゲノム研究におけるIPR戦略：タンパク質研究を中心にして", 研究・技術計画学会第18回シンポジウム , 東京 , 7月 (2003).
15. 宮野 雅司: "タンパク質結晶化の自動化の試み：タンパク質結晶をより理論的に進める道はあるか？", 第33回結晶成長国内会議 (NCCG-33) , 吹田 , 7--8月 (2003).
16. 宮野 雅司,菅原 光明,仲村 勇樹,黒石 千寿,浮田 陽子,岡崎 伸生,粂井 麻希,田中 智之,小林 正則,高 秀幸: "SPring-8におけるハイスループットファクトリーにおける結晶化の自動化と評価法について", 日本学術振興会回折構造生物第169委員会公開講演会 , 京都 , 9月 (2003).
17. 宮野 雅司: "Structural studies of lipid-related proteins in structural biophysics laboratory", 理研シンポジウム「理研構造生物IXシンポジウム Part1. 脂質メディエーター関連タンパク質の生物学からその応用発展 Part2. 放射光構造生物の進展とさらなる飛躍を目指して」 , 播磨 , 1月 (2004).
18. 宮野 雅司: "GPCRの構造：GPCRのモデルとしてロドプシンはどこまで有効か", 第22回高峰カンファレンス , (三共生命科学研究振興財団), 東京 , 2月 (2004).
19. 宮野 雅司: "構造プロテオミクスとハイスループット技術の創薬プロテオミクスへのインパクト", 日本薬学会第124年会 , 大阪 , 3月 (2004).
20. 宮野 雅司: "ロドプシン：GPCRの活性化メカニズムモデルとして", 徳島大学分子酵素学研究センターシンポジウム「X線結晶構造解析によるタンパク質複合体構造機能の解析」 , 徳島 , 3月 (2004).
21. 宮野 雅司,菅原 光明,山本 雅貴,石川 哲也,吾郷 日出夫: "SPring-8における生命科学分野への応用", 東京大学物性研究所短期研究会「高輝度放射光を用いた先端科学研究と新たな展開」 , 東京 , 12月 (2004).
22. 宮野 雅司: "遺伝的アルゴリズとマキシマムエントロピー法によるタンパク質結晶構造解析", 理研シンポジウム「ナショナルセンター・理研播磨研究所合同シンポジウム2005」 , 播磨 , 1月 (2005).
23. 宮野雅司：“大型放射光施設SPring-8を受かってタンパク質の構造を解く”　滋賀バイオフォーラム、3月13日　(2006).
24. 宮野 雅司: "GPCRの構造と機能　その応用を展望して",　キッセイ薬品(株)中央研究所講演会　5月12日安曇野、長野　(2006).
25. 宮野雅司、島村達郎、堀哲哉：“GPCRの構造解析研究：新たな時代を迎えた医薬ターゲットとしてのヒト由来膜タンパク質構造研究”第8回日本蛋白質科学会年会,　東京　6月　(2008)　
26. 宮野雅司:”創薬ターゲットヒト由来膜タンパク質組み換え体生産によるＸ線結晶構造　—あらたなＳＢＤＤ展開を目指して—”　タンパク質構造解析コンソーシアム講演会、6月９日　世界貿易センタービル、東京（2008）．
27. 宮野雅司:”ヒト由来組み換え体膜タンパク質の立体構造:放射光結晶解析の創薬寄与への新たな飛躍へ”　構造活性フォーラム2008　「標的タンパク質思考のケミカルバイオロジーと構造活性相関」北里大学薬学部コンベンションホール、6月20日　（2008）．
28. 宮野雅司:”創薬に役立つタンパク質立体構造とその機能　−モデルと創薬標的タンパク質—“　第5回継続オープン・リサーチ・センター研究発表会、徳島文理大学薬学部12月　（2008）．
29. 宮野雅司:”タンパク質に関わる水の働き３相—機能、認識、環境—“　理研シンポジウム｢動的水和構造と分子過程III｣　SPring-8、11月24/25日　（2009）．
30. 宮野雅司:”Lipid Structure Biology toward the Structure-based Drug Design”　味の素ライフサイエンス研究所、川崎　12月22日　(2009)。
31. 宮野雅司:”ロドプシンタイプGPCRの構造と機能”　第29回メディシナルケミストリーシンポジウム、京都テルサ　（2010）11/7 。

1. 宮野雅司:”化学機械としての生命　—役に立つための基礎基本—“平成18年度高等学校理科研究講座、岡山県教育センター、8月18日　（2006）．
2. 新竹積（プレゼンター）、宮野雅司(モデレーター):“「見る」なぞに挑戦”サイエンスカフェ大阪、第51回科学技術週間、大阪科学技術館、4月11日(2010).
3. 宮野雅司　“随想　サイエンスをみんなに“　兵庫教育　7月号 No.713 pp24-27　(2010).