原著論文:英文―査読有り( *Equally contributed, §Corresponding author)
Taslima, K., Kikuchi, K., & Hosoya, S. (2024). Genomic architecture and sex chromosome systems of commercially important fish species in Asia – Current status, knowledge gaps and future prospects. Reviews in Aquaculture, doi.org/10.1111/raq.12939
Lin, Z., Yoshikawa, S., Hamasaki, M., Kikuchi, K., & §Hosoya, S. (2024). Heritability and predictive ability for the heterobothriosis resistance and growth performance in the tiger pufferfish Takifugu rubripes fed standard or low fishmeal diets. Aquaculture, 588, 740909. doi.org/10.1016/j.aquaculture.2024.740909
Higuchi K., Soma S., Takashi T., Ishii K., Eba T., Hashimoto H., Morioka T., Kumon K., Okita K., Hayashida T., Hosoya S., Gen K. (2023) Advanced spawning in Pacific bluefin tuna, Thunnus orientalis, by a shift in consecutive photothermal regimes in a land-based tank. Aquaculture. 567. 739290. doi.org:10.1016/j.aquaculture.2023.739290
*Kabir A., *Ieda R., *Hosoya S., Fujikawa D., Atsumi K., Tajima S., Nozawa A., Koyama T., Hirase S., Nakamura O., Kadota M., Nishimura O., Kuraku S., Nakamura Y., Kobayashi H., Toyoda A., Tasumi S., Kikuchi K. (2022) Repeated translocation of a supergene underlying rapid sex chromosome turnover in Takifugu pufferfish. Proc. Natl. Acad. Sci. U.S.A. 119, e2121469119. doi.org:10.1073/pnas.2121469119
Lin Z., Yoshikawa S., Hamasaki M., Koyama T., Kikuchi K., §Hosoya S. (2022) Effects of low fishmeal diets on growth performance, blood chemical composition, parasite resistance, and gene expression in the tiger pufferfish, Takifugu rubripes. Aquaculure. 560, 738484. doi.org:10.1016/j.aquaculture.2022.738484
§Hosoya S., Yoshikawa S., Sato M., Kikuchi K. (2021) Genomic prediction for testes weight of the tiger pufferfish, Takifugu rubripes, using medium to low density SNPs. Sci Rep. 11, 20372. doi.org:10.1038/s41598-021-99829-1
Yoshikawa S., Hamasaki M., Kadomura K., Yamada T., Chuda H., Kikuchi K., §Hosoya S. (2021) Genetic Dissection of a Precocious Phenotype in Male Tiger Pufferfish (Takifugu rubripes) using Genotyping by Random Amplicon Sequencing, Direct (GRAS-Di). Mar Biotechnol, 23, 177-188. doi.org:10.1007/s10126-020-10013-4
Lin Z., §Hosoya S., Sato M. Mizuno N., Kobayashi Y., Itou T., Kikuchi K. (2020) Genomic selection for heterobothriosis resistance concurrent with body size in the tiger pufferfish, Takifugu rubripes. Sci Rep, 10, 19976. doi.org:10.1038/s41598-020-77069-z
Hirase S., Tezuka A., Nagano A.J. Sato M., Hosoya S., Kikuchi K., Iwasaki W. (2020) Integrative genomic phylogeography reveals signs of mitonuclear incompatibility in a natural hybrid goby population. Evolution,75,176-194. doi/10.1111/evo.14120
*Kim DI, *Kai W, *Hosoya S, Sato M, Nozawa A, Kuroyanagi M, Jo Y, Tasumi S, Suetake H, Suzuki Y, Kikuchi K (2019) The Genetic Basis of Scale-Loss Phenotype in the Rapid Radiation of Takifugu Fishes. Genes (Basel), 10, 1027.
Yoshikawa S, Chuda H, Hamasaki M, Kadomura K, Yamada T, Kikuchi K, §Hosoya S (2019) Precocious Maturation in Male Tiger Pufferfish Takifugu rubripes: Genetics and Endocrinology. Fisheries Science, accepted
Kim DI, §Hosoya S, Mizuno N, Ito K, Ieda R, Kikuchi K (2019) Genetic variation in resistance of the tiger pufferfish Takifugu rubripes to a host-specific monogenean parasite Heterobothrium okamotoi. Fisheries Science, 85, 1019–1025.
Koyama K, Nakamoto M, Morishima K, Yamashita R, Yamashita T, Sasaki K, Kuruma Y, Mizuno N, Suzuki M, Okada Y, Ieda R, Uchino T, Tasumi S, Hosoya S, Uno S, Koyama J, Toyoda A, Kikuchi K, Sakamoto T (2019) A SNP in a steroidogenic enzyme is associated with phenotypic sex in Seriola fishes. Current Biol, 29, 1901–1909.
Sato M, §Hosoya S, Yoshikawa S, Ohki S, Kobayashi Y, Itou T, Kikuchi K. (2019) A highly flexible and repeatable genotyping method for aquaculture studies based on target amplicon sequencing using next-generation sequencing technology. Sci Rep, 9, 6904.
§Hosoya S, Hirase S, Kikuchi K, Nanjo K, Nakamura Y, Kohno H, Sano M (2019) Random PCR-based genotyping by sequencing technology GRAS-Di (genotyping by random amplicon sequencing, direct) reveals genetic structure of mangrove fishes. Mol Ecol Resour 2019 doi: 10.1111/1755-0998.13025.
*Ieda R, *Hosoya S, Tajima S, Atsumi K, Kamiya T, Nozawa A, Aoki Y, Tasumi S, Koyama T, Nakamura O, Suzuki Y, Kikuchi K. (2018) Identification of the sex-determining locus in grass puffer (Takifugu niphobles) provides evidence for sex-chromosome turnover in a subset of Takifugu species. PLoS ONE 13(1):e0190635.
§Hosoya S, Kikuchi K, Nagashima H, Onodera J, Sugimoto K, Satoh K, Matsuzaki K, Yasugi M, Nagano AJ, Kumagayi A, Ueda K, Kurokawa T. (2018) Assessment of genetic diversity in Coho salmon (Oncorhynchus kisutch) populations with no family records using ddRAD-seq. BMC Res Notes, 11:548. doi: 10.1186/s13104-018-3663-4.
Igarashi K, Matsunaga R, Hirakawa S, Hosoya S, Suetake H, Kikuchi K, Suzuki Y, Nakamura O, Miyadai T, Tasumi S, Tsutsui S. (2017) Mucosal IgM antibody with d-Mannose affinity in fugu Takifugu rubripes is utilized by a monogenean parasite Heterobothrium okamotoi for host recognition. J Immunol 198, 4107-4114. Journal Link
§Hosoya S, Suetake H, Suzuki Y, Kikuchi K. (2015) Genetic basis underlying behavioral correlation between fugu Takifugu rubripes and a closely related species, Takifugu niphobles. Behav Genet 45, 560-572. Journal Link
§Hosoya S, Mizuno N, Kikuchi K, Kurokura H. (2014) Rearing Takifugu rubripes larvae in communal tanks: paternal genetic contribution to survivability. Fish. Sci. 80, 1037-1043.
Matsunaga T, Ieda R, Hosoya S, Kuroyanagi M, Suzuki S, Suetake H, Tasumi S, Suzuki Y, Miyadai T, Kikuchi K. (2014) An efficient molecular technique for sexing tiger pufferfish (fugu) and the occurrence of sex reversal in a hatchery population. Fish. Sci. 80, 933-942.
Hosoya S., S. Kido, Y. Hirabayashi, W. Kai, R. Kinami, T. Yoshinaga, K. Ogawa, H. Suetake, K. Kikuchi, Y. Suzuki (2013) Genomic regions of pufferfishes responsible for host specificity of a monogenean parasite Heterobothrium okamotoi. Int. J. Parasitol., 43, 909-915.
Hosoya, S., W. Kai, M. Fujita, K. Miyaki, H. Suetake, Y. Suzuki, and K. Kikuchi (2013) The genetic architecture of growth rate in juvenile Takifugu species. Evolution , 67, 590–598.
Kamiya, T., W. Kai, S. Tasumi, A. Oka, T. Matsunaga, N. Mizuno, M. Fujita, H. Suetake, S. Suzuki, Hosoya S, S. Tohari, S. Brenner, T. Miyadai, B. Venkatesh, Y. Suzuki, and K. Kikuchi. (2012) A trans-species missense SNP in Amhr2 is associated with sex determination in the tiger pufferfish, Takifugu rubripes (fugu). PLoS Genet. 8, e1002798. open access
Kai, W., K. Kikuchi, S. Tohari, A. K. Chew, A. Tay, A. Fujiwara, Hosoya S, H. Suetake, K. Naruse, S. Brenner, Y. Suzuki, and B. Venkatesh. (2011) Integration of the genetic map and genome assembly of fugu facilitates insights into distinct features of genome evolution in teleosts and mammals. Genome Biol. Evol. 3, 424–442. open access
§Hosoya S, T. Kaneko, Y. Suzuki, and A. Hino. (2008) Individual variations in behavior and free cortisol responses to acute stress in tiger pufferfish Takifugu rubripes. Fish. Sci. 74, 755-763.
Hosoya S, S. C. Johnson, G. K. Iwama, A. K. Gamperl, and L. O. B. Afonso. (2007) Changes in free and total plasma cortisol levels in juvenile haddock (Melanogrammus aeglefinus) exposed to long-term handling stress. Comp. Biochem. Physiol., Part A 146,11. 78-86.
Afonso, L.O.B., Hosoya S, J. Osborne, A. K. Gamperl, and S. C. Johnson. (2007) Lack of glucose and hsp70 responses in haddock Melanogrammus aeglefinus (L.) subjected to handling and heat shock. J. Fish Biol. 72, 157-167.
Fast, M.D., Hosoya S, S. C. Johnson, and L. O. B. Afonso. (2007) Cortisol response and immune-related effects of Atlantic salmon (Salmo salar Linnaeus) subjected to short- and long-term stress. Fish Shellfish Immunol. 24, 194-204.
Martins, D.A., L. O. B. Afonso, Hosoya S, L. Lewis, L. M. P. Valente, and S. P. Lall. (2007) Effects of moderately oxidized dietary lipid and the role of vitamin E on the stress response of Atlantic halibut (Hippoglossus hippoglossus L.). Aquaculture 272, 573-580.
総説:査読有り
細谷将,菊池潔 (2016) これからの水産育種:ゲノム予測による新たな育種の取り組み. 水産育種 46, 1-14.
菊池潔, 細谷将, 田角聡志. (2013) 魚類の性決定-フグの性決定遺伝子Amhr2を中心に- 動物遺伝育種研究 Vol. 41. 3748
総説:査読無し
細谷将. (2024) 養殖魚のゲノム選抜育種に関する研究. 日本水産学会誌, 90, 208-211.
細谷将 (2018) 国際養殖遺伝学シンポジウム(ISGA2018)に参加して―The International Symposium on Genetics in Aquaculture (ISGA) XIII. 日本水産学会誌. 84, 1125-1125.
Hosoya S., Kikuchi K., Nagashima H., Onodera J., Sugimoto K., Satoh K., Matsuzaki K., Yasugi K., Nagano A.J., Kumagayi A., Ueda K., Kurokawa T. (2017) Genomic selection in aquaculture. Bulletin of Japanese fisheries research and education agency. 45: 35-39.
細谷将, 水野直樹, 城夕香, 藤田真志, 鈴木譲, 菊池潔 (2015) 有用遺伝子の探索・同定・選抜・編集. 日本水産学会誌 7, 882-883.
菊池潔・甲斐渉・細谷将・田角聡志・末武弘章・宮台俊明・鈴木譲. (2012) トラフグのゲノム地図の作製とその応用―性決定遺伝子,性統御,比較ゲノム解析を中心に―. 水産育種 41: 141-151.
原著論文:和文―査読有り
吉川壮太, 濱﨑将臣, 山田敏之, 菊池潔, 細谷将. (2023) 長崎県における養殖トラフグ親魚集団の遺伝的特徴. 水産育種, 52, 11-19.
細谷将 (2015) ギンザケ―高成長系統の作出と救出. 水産育種 48, 77-79.
細谷将, 水野直樹, 城夕香, 藤田真志, 鈴木譲, 菊池潔 (2015) トラフグ凍結精子の家庭用冷蔵庫での二次保存. 水産技術 7, 85-88.
その他
菊池潔, 細谷将. (2024) 選抜育種における基礎集団の作り方―アトランとティラピアに学ぶ― 「養殖ビジネス」臨時増刊号―イチから学ぶ種苗生産と遺伝的改良, 61, 36-41.
細谷将. (2024) 選抜育種の発展とゲノム情報を利用した水産育種の世界的動向 「養殖ビジネス」臨時増刊号―イチから学ぶ種苗生産と遺伝的改良, 61, 42-46.
菊池潔, 細谷将, Khanam Taslima. (2024) 養殖における性決定遺伝子情報の利用―全雌、全雄、そして選抜育種― 「養殖ビジネス」臨時増刊号―イチから学ぶ種苗生産と遺伝的改良, 61, 60-64.
Kabir Ahammad, 家田梨櫻, 細谷将, 菊池潔. (2024) ゲノム中を動き回る性決定遺伝子. 細胞 56, 8-11.
細谷将. (2023) 養殖魚におけるゲノム選抜育種法: その理論と実践. アクアネット, 26, 33-37.
菊池潔, 家田梨櫻, 藤川大学, Kabir Ahammad, 小山 喬, 細谷 将 (2021) NGS技術を利用した魚類性染色体の同定法. 「魚類の性決定・性分化・性転換」(e-水産学シリーズ) (菊池潔, 井尻成保, 北野健 編), 恒星社厚生閣. pp258.
細谷将 (2020) 育種技術の現状と可能性. アグリバイオ. 54, 8-12.
細谷将 (2020) 宮城県高成長系ギンザケの選抜育種から見えてきたこと-計画的選抜の重要性 アクアネット. 23, 33-37.
細谷将, 野村和晴, 家戸敬太郎 (2019) ミニシンポジウム記録『選抜育種の積極的な導入に向けて―「経験則」から「データによる予測」へ』. 日本水産学会誌. 85, 207.
菊池潔,細谷将 (2014) ホルモンによる性転換と遺伝マーカーによる超オスの作出. 養殖ビジネス 51, 36-39.
菊池潔,細谷将,田角聡志 (2013) 魚類の性統御. アクアネット 16, 42-47.
菊池潔, 甲斐渉, 細谷将, 末武弘章, 鈴木譲 (2010) フグ類の多様化をもたらした遺伝子の探索-種間交雑を利用したゲノムワイドマッピング-. 月刊海洋. 42 , 363-371.