"性の決定"
Jeffries DL et al. (2018) A rapid rate of sex-chromosome turnover and non-random transitions in true frogs. Nature communications 9(1):4088. doi: 10.1038/s41467-018-06517-2.

Ogata M, Lambert M, Ezaz T and Miura I (2018) Reconstruction of female heterogamety from admixture of XX-XY and ZZ-ZW sex chromosome systems within a frog species. Molecular Ecology. doi.org/10.1111/mec.14

Miura I (2017) Sex determination and sex chromosomes in Amphibia. Sex Dev 11:298-306.

Miura I, Ohtani H, Ogata M, Ezaz T. (2016) Evolutionary changes in sensitivity to hormonally induced gonadal sex reversal in a frog species. Sexual Development 10(2) DOI:10.1159/000445848

カエル性染色体のリサイクル　(2016) 生物の科学　遺伝 70(5): 385-387.

Mawaribuchi S, Ito M, Ogata M, Oota H, Katsumura T, Takamatsu N, Miura I. (2016) Meiotic recombination counteracts male-biased mutation (male-driven evolution). Proc Biol Sci. doi: 10.1098/rspb.2015.2691.

Kubiura M, Miura I, Tada M (2015) Chromosomal distribution patterns of global 5mC and 5hmC on the ZZ/ZW and XX/XY chromosomes in the Japanese wrinkled frog, Rana rugosa, induced by Tet methylcytosine dioxygenase enzymes. Chromosome Science 18: 3-8.

Miura I, Ogata M (2013) Change of heterogametic sex from male to female: Why so easy in the frog? Chromosome Science 16: 3-9.

三浦郁夫 (2013)　新種サドガエル　―その誕生と進化の謎−　生物工学会誌 91: 161-164.

Sekiya K, Miura I, and Ogata M (2012) A new frog species of the genus Rugosa from Sado Island, Japan (Anura, Ranidae). Zootaxa 3575: 49-62. a new frog

Ohtani H, Sekiya K, Ogata M, and Miura I (2012) The postzygoitc isolation of a unique morphotype of frog Rana rugosa found on Sado Island, Japan. J. Herpet. 46(3):325-330.

Miura I, Ohtani H, and Ogata M (2011) Independent degeneration of W and Y sex chromosomes in frog Rana rugosa. Chromosome Res. 20:47-55. Faculty of 1000に選出、 Dr. Nei's HPに掲載

Miura I, Kitamoto H, Koizumi Y, Ogata M, Sasaki K. (2011) An X-Linked Body Color Gene of the Frog Rana rugosa and Its Application to the Molecular Analysis of Gonadal Sex Differentiation. Sexual Development 5: 250-258.

Sekiya K, Ohtani H, Ogata, M, and Miura I (2010) Phyletic diversity in the frog Rana rugosa (Anura: Ranidae) with special reference to a unique morphotype found from Sado Island, Japan. Current Herpetology 29(2): 69-78.

尾形光昭、三浦郁夫 (2009)　２つの性決定機構をもつツチガエル
『生物科学の遺伝：特集　性決定の遺伝学』　1: p32-37.

Ogata M, Ohtani H, Hasegawa Y, Miura I (2008) The ZZ/ZW sex-determining mechanism originated twice and independently during evolution of the frog Rana rugosa. Heredity 100(1): 92-99.

Matsuba C, Miura I, and Merila J (2008) Disentangling genetic vs. environmental causes of sex determination in the common frog, Rana temporaria.. BMC Genet. 9(1): 1-5

Miura I (2007) An evolutionary witness: the frog Rana rugosa underwent change of heterogametic sex from XY male to ZW female. Sexulal development 1(6): 323-331.

三浦郁夫 （2007） 両生類の性決定：XY型とZW型のちがい　アニテックス 19(3): 27-33.

三浦郁夫　（2005）カエルの染色体進化と性染色体の分化　裳華房“これからの両棲類学”p133-149.

Ogata, M. Ohtani, H. Igarashi, T. Hasegawa, Y. Ichikawa, Y. and Miura, I. (2003) Change of the Heterogametic Sex from Male to Female in the Frog. Genetics 164(2):613-20.

Ohtani H, Miura I, Ichikawa Y. (2003) Role of aromatase and androgen receptor expression in gonadal sex differentiation of ZW/ZZ-type frogs, Rana rugosa. Comp Biochem Physiol C Toxicol Pharmacol. 134(2):215-25.

Ogata M, Lee JY, Kim S, Ohtani H, Sekiya K, Igarashi T, Hasegawa Y, Ichikawa Y, Miura I. (2002) The prototype of sex chromosomes found in Korean populations of Rana rugosa. Cytogenet Genome Res.;99(1-4):185-93.

Miura, I., Ohtani, H., Nakamura, M., Ichikawa, Y. and Saitoh, K. (1998) The origin and differentiation of the heteromorphic sex chromosomes Z, W, X and Y of the frog Rana rugosa, inferred from the sequences of a sex-linked gene, ADP/ATP translocase. Mol. Biol. Evol. 15: 1612-1619.

Nishioka, M., Hanada, H., Miura, I. and Ryuzaki, M. (1994) Four kinds of sex chromosomes in Rana rugosa. Sci. Rep. Lab. Amphibian Biol., Hiroshima Univ. 13: 1-34 .

Nishioka, M., Miura, I. and Saitoh, K. (1993) Sex chromosomes of Rana rugosa with special reference to local differences in sex determining mechanism. Sci. Rep. Lab. Amphibian Biol., Hiroshima Univ. 12: 55-81.

"色彩発現"
Miura I. (2018) Anomalies in the Coloration of Japanese Amphibians and Their Applications in Genetic Research. KnE Life Sciences, p97-107.

Miura I, Tagami M, Fujitani T, and Ogata M. (2017) Spontaneous tyrosinase mutations identified in albinos of three wild frog species. Genes and Genetic Systems. 92: 189-196. DOI: 10.1266/ggs.16-00061

三浦郁夫　(2009) カエルにおける色彩発現の遺伝的メカニズム　爬虫両生類学会報 2009(2): 151-160

藤谷武史、田上正隆、田中理映子、三浦郁夫　(2006)　赤い尾のカジカガエル幼生　爬虫両棲類学会報 2006(1):34-37

三浦郁夫　（2005）カエルに学ぶ色彩発現　目で見るバイオ　バイオサイエンスとインダストリー　63(11): 11-12.

三浦郁夫（2005）カエルの色彩表現　カラーフォーラムJAPAN 2005, p97-100.

Ichikawa, Y., Ohtani, H., Miura, I. (2001) The yellow mutation in the frog Rana rugosa: Pigmentary organelle deformities in the three types of chromatophores. Pigment Cell Res. 14: 283-288.

Ichikawa Y., Ohtani H. and Miura I. (1998) The erythrophore in the larval and adult dorsal skin of the brown frog, Rana ornativentris: Its differentiation, migration, and pigmentary organelle formation. Pigment Cell Res. 11: 345-354.

Okumoto, H., Nishioka, M., Miura, I. and Obika, M. (1995) Melanosome formation in cultured amelanotic melanophores of Rana brevipoda by a frog tyrosinase cDNA transfection. Pigment Cell Res. 8: 187-193.

Miura, I., Okumoto, H., Nishioka, M. and Nakata, A. (1995) Analysis of the tyrosinase gene of the Japanese pond frog, Rana nigromaculata: Cloning and nucleotide sequence of the genomicDNA containing the tyrosinase gene and its flanking regions. Jpn. J. Genet. 70: 79-92.

"オオサンショウウオ、その他"
Miura I. (2018) DNA music of humans and giant salamander. In Dialogue of science and religion: collection of materials of scientific and apologetic seminar. Parish of the Cathedral of Vic. Catherine of Yekaterinburg, 2018. P95-109.

三浦郁夫（2015）　オオサンショウウオの遺伝的地域分化　−西側の集団は過去に一度絶滅を経験したという仮説−SUZUKURI 44: 10-11.

Akiyama S, Iwao Y, and Miura I (2011) Evidence for true fall-mating in Japanese newt Cynops pyrrhogaster. Zoolgical Science 28(10):758-763.

三浦郁夫（2008)　生物進化の矛盾を楽しむ　生物工学会誌 86(1):35

三浦郁夫（2005）オオサンショウウオの遺伝メロディーを奏でる　−科学とロマン、そして生命の未知なる領域−　バイオサイエンスとインダストリー，Vol.63（3），192-195.

三浦郁夫（2004）スーパーサイエンスハイスクール指定校の挑戦−普通科高等学校におけるオオサンショウウオの遺伝子解析−　バイオサイエンスとインダストリー，Vol.62（4），262-264