Embedded Files
☆PUBLICATIONS☆
Original Research Articles
S. Sakai, K. Furukawa, F. Namai, K. Nishiyama, D. Gyawali, T. Goto, M. Kikusato#. 2025. Equol-producing bacteria in the chicken intestine: PCR analysis on the bacteria quantitatively correlating with equol concentration in daidzein-fed laying hens. Animal Science Journal 96: e70068. [PubMed]
E. A. Hasegawa, J. Matsubayashi, I. Tayasu, T. Goto, H. Inoue, A. G. Rossberg, C. Yoshimizu, M. Hasegawa, T. Akasaka#. 2025. Isotope analysis of birds’ eye lens provides early-life information. Progress in Earth and Planetary Science 12: 9. [PubMed]
S. Iida, S. Ide, S. Tamura, M. Sasai, T. Tani, T. Goto, M. Shribak#, K. Maeshima#. 2024. Orientation-Independent-DIC imaging reveals that a rise in depletion attraction contributes to mitotic chromosome condensation. Proceedings of the National Academy of Sciences 121: e2403153121. [PubMed]
P. Nyirimana, D. Kondoh, J. Tomiyasu, M. Watanabe, Y. Okada, Y. Nishida, T. Goto#. 2024. Morphological variation of tail bone among two chicken breeds and their F1 progeny. Journal of Morphology 285: e21704. [PubMed]
N. Yamagishi, D. Kyoui, N. Moriya, A. Aoki-Yoshida, T. Goto, A. Toyoda, K. Ippoushi, M. Maeda-Yamamoto, Y. Takayama, C. Suzuki#. Effects of subchronic and mild social defeat stress on intestinal microbiota and fecal bile acid composition in mice. Bioscience of Microbiota, Food and Health 43: 260-266. [PubMed]
A. Ishikawa#, T. Takanuma, N. Hashimoto, T. Goto, M. Tsudzuki. 2023. New behavioral handling test reveals temperament differences in native Japanese chickens. Animals 13: 3556. [PubMed]
T. Goto#, S. Konno, M. Konno. 2023. Establishments of wild-derived strains of Japanese quail (Coturnix japonica) in field and laboratory experiments. Biology 12: 1080. [PubMed]
N. Kawamura, M. Takaya, H. Hayashi, T. Goto#. 2023. Housing systems affect eggshell lightness and free amino acid contents of egg albumen in Tosa-jidori chickens: a preliminary research. Animals 13: 1837. [PubMed]
N. Kawamura, R. Yokoyama, M. Takaya, R. Ono, T. Goto#. 2023. Combined effect of feed and housing system affects free amino acid content of egg yolk and albumen in brown layer chickens. Journal of Poultry Science 60: jpsa.2023007. [PubMed]
D. Kondoh, R. Ono, M. Yanagawa, T. Goto#. 2022. Morphological variations of caudal skeleton between three chicken breeds. Journal of Veterinary Medical Science 84: 1225-1229. [PubMed]
T. Goto#, K. Ohya, M. Takaya. 2022. Genotype affects free amino acids of egg yolk and albumen in Japanese indigenous breeds and commercial Brown layer chickens. Poultry Science 101: 101582. [PubMed]
K. Nishimura, D. Ijiri, S. Shimamoto, M. Takaya, A. Ohtsuka, T. Goto#. 2021. Genetic effect on free amino acid contents of egg yolk and albumen using five different chicken genotypes under floor rearing system. PLoS ONE 16: e0258506. [PubMed]
M. I. Haqani#, S. Nomura, M. Nakano, T. Goto, A. J. Nagano, A. Takenouchi, Y. Nakamura, A. Ishikawa#, M. Tsudzuki#. 2021. Quantitative trait loci for growth related-traits in Japanese Quail (Coturnix japonica) using restriction-site associated DNA sequencing. Molecular Genetics and Genomics 296: 1147-1159. [PubMed]
R. Ono, H. Miyachi, H. Usui, R. Oguchi, K. Nishimura, K. Takahashi, Y. Yamagishi, N. Kawamura, R. Matsushita, T. Goto#. 2022. Phenotypic analysis of growth and morphological traits in miniature breeds of Japanese indigenous chickens. Journal of Poultry Science 38-47. [PubMed]
M. I. Haqani#, S. Nomura, M. Nakano, T. Goto, A. J. Nagano, A. Takenouchi, Y. Nakamura, A. Ishikawa#, M. Tsudzuki#. 2021. Mapping of Quantitative Trait Loci Controlling Egg-Quality and -Production Traits in Japanese Quail (Coturnix japonica) Using Restriction-Site Associated DNA Sequencing. Genes 12: 735-735. [PubMed]
Y. Itoh, S. Iida, S. Tamura, R. Nagashima, K. Shiraki, T. Goto, K. Hibino, S. Ide, K. Maeshima#. 2021. 1,6-hexanediol rapidly immobilizes and condenses chromatin in living human cells. Life Science Alliance 4: e202001005. [PubMed]
T. Goto#, S. Shimamoto, M. Takaya, S. Sato, K. Takahashi, K. Nishimura, Y. Morii, K. Kunishige, A. Ohtsuka, D. Ijiri. 2021. Impact on genetic differences among various chicken breeds on free amino acid contents of egg yolk and albumen. Scientific Reports 11: 2270. [PubMed]
T. Goto#, S. Shimamoto, A. Ohtsuka, D. Ijiri. 2021. Analyses of free amino acid and taste sensor traits in egg albumen and yolk revealed potential of value-added eggs in chickens. Animal Science Journal 92: e13510. [PubMed]
Y. Matsumoto, H. Nagayama, H. Nakaoka, A. Toyoda, T. Goto, T. Koide#. 2021. Combined change of behavioral traits for domestication and gene-networks in mice selectively bred for active tameness. Genes, Brain and Behavior e12721. [PubMed]
N. Moriya#, N. Yamagishi, T. Goto, H. Otabi, H. Nira-Kimoto, A. Toyoda, C. Suzuki. 2021. The effects of chronic social defeat stress on solid gastric emptying and defecation in C57BL/6J mice. Japan Agricultural Research Quarterly 55: 77-83. [PubMed]
A. Toyoda#, M. Sato, M. Muto, T. Goto, Y. Miyaguchi, E. Inoue. 2020. Metabolomic analyses of plasma and liver of mice fed with immature Citrus tumida peel. Bioscience, biotechnology, and biochemistry. 1-7. [PubMed]
H. Mori, M. Takaya, K. Nishimura, T. Goto#. 2020. Breed and feed affect amino acid contents of egg yolk and eggshell color in chickens. Poultry Science. 99: 172-178 . [PubMed]
T. Goto#, H. Mori, S. Shiota, S. Tomonaga. 2019. Metabolomics approach reveals the effects of breed and feed on the composition of chicken eggs. Metabolites 9: 224. [PubMed]
S. Moroi, K. Nishimura, N. Imai, K. Kunishige, S. Sato, T. Goto#. 2019. Rapid behavioral assay using handling test provides breed and sex differences in tameness of chickens. Brain and Behavior 9: e01394. [PubMed]
T. Goto#, A. F. A. Fernandes, M. Tsudzuki#. G. J. M. Rosa. 2019. Causal phenotypic networks for egg traits in an F2 chicken population. Molecular Genetics and Genomics. [PubMed]
N. Yamagishi, Y. Omata, A. Aoki-Yoshida, N. Moriya, T. Goto, A. Toyoda, R. Aoki, C. Suzuki, Y. Takayama#, 2019. Comparison of gut tight junction gene expression in C57BL/6J and BALB/c mice after chronic social defeat stress. Japan Agricultural Research Quarterly 53: 41-46. [PubMed]
T. Goto#, A Ishikawa, M. Nishibori, M. Tsudzuki#, 2019. A longitudinal quantitative trait loci mapping of chicken growth traits. Molecular Genetics and Genomics 294: 243-252. [PubMed]
M. Sato, T. Goto, E. Inoue, Y. Miyaguchi, A. Toyoda#, 2019. Dietary intake of immature Citrus tumida hort. ex Tanaka peels suppressed body weight gain and fat accumulation in an acute mouse model of obesity. Journal of Nutritional Science and Vitaminology 65: 19-23 [PubMed]
H. Nagayama, Y. Matsumoto, A. Tanave, M. Nihei, T. Goto, T. Koide#, 2018. Measuring active and passive tameness separately in mice. Journal of Visualized Experiments 138: e58048. [PubMed]
Y. Matsumoto, T. Goto, J. Nishino, H. Nakaoka, A. Tanave, T. Takano-Shimizu, R. F. Mott, and T. Koide#, 2017. Selective breeding and selection mapping using a novel wild-derived heterogeneous stock of mice revealed two closely-linked loci for tameness. Scientific Reports 7:4607. [Pubmed]
T. Goto, S. Tomonaga, and A. Toyoda#, 2017. Effects of diet quality and psychosocial stress on the metabolic profiles of mice. Journal of Proteome Research 16: 1857-1867. [Pubmed]
M. Hirose, A. Hasegawa, K. Mochida, S. Matoba, Y. Hatanaka, K. Inoue, T. Goto, H. Kaneda, I. Yamada, T. Furuse, K. Abe, Y. Uenoyama, H. Tsukamura, S. Wakana, A. Honda, and A. Ogura#, 2017. CRISPR/Cas9-mediated genome editing in wild-derived mice: generation of tamed wild-derived strains by mutation of the a (nonagouti) gene. Scientific Reports 7: 42476. [Pubmed]
H. Otabi, T. Goto, T. Okayama, D. Kohari, and A. Toyoda#, 2017. The acute social defeat stress and nest-building test paradigm: A potential new method to screen drugs for depressive-like symptoms. Behavioural Processes 135: 71-75. [PubMed]
A. Aoki-Yoshida, R. Aoki, N. Moriya, T. Goto, Y. Kubota, A. Toyoda, Y. Takayama, and C. Suzuki#, 2016. Omics studies of the murine intestinal ecosystem exposed to subchronic and mild social defeat stress. Journal of Proteome Research 15: 3126-3138. [PubMed]
Y. Kubota, T. Goto, Y. Hagiya, S. Chohnan, and A. Toyoda#, 2016. Decreased hepatic contents of coenzyme A molecular species in mice after subchronic mild social defeat stress. Stress 10: 1-6. [PubMed]
H. Otabi, T. Goto, T. Okayama, D. Kohari, and A. Toyoda#, 2016. Subchronic and mild social defeat stress after mouse nest building behavior. Behavioural Processes 122: 21-25. [PubMed]
T. Goto, Y. Kubota, and A. Toyoda#, 2016. Effects of diet quality on vulnerability to mild subchronic social defeat stress in mice. Nutritional Neuroscience 19: 284-289. [PubMed]
T. Goto, T. Okayama, and A. Toyoda#, 2015. Strain differences for learning of nesting behaviors in C57BL/6N, DBA/2N and their F1 hybrid mice, using a three-dimensional depth camera. Behavioural Processes 119: 86-92. [PubMed]
T. Okayama#, T. Goto, and A. Toyoda#, 2015. Assessing nest-building behavior inmice using a 3D depth camera. Journal of Neuroscience Methods 251: 151-157. [PubMed]
T. Goto and A. Toyoda#, 2015. A mouse model of subchronic and mild social defeat stress for understanding stress-induced behavioral and physiological deficits. Journal of Visualized Experiments 105: e52973. [PubMed]
T. Goto, Y. Kubota, and A. Toyoda#, 2015. Plasma and liver metabolic profiles in mice subjected to subchronic and mild social defeat stress. Journal of Proteome Research 14: 1025-1032. [PubMed]
T. Goto, J.-i. Shiraishi, T. Bungo, and M. Tsudzuki#, 2015.Characteristics of egg-related traits in the Onagadori (Japanese Extremely Long Tail) breed of chickens. The Journal of Poultry Science52: 81-87. [PubMed]
A. Toyoda#, W. Iio, T. Goto, H. Koike, and T. Tsukahara, 2014. Differential expression of genes encoding neurotrophic factors and their receptors along the septal-temporal axis of the rat hippocampus. Animal Science Journal 85 (12): 986-993. [PubMed]
T. Goto, Y. Kubota, Y. Tanaka, W. Iio, N. Moriya, and A. Toyoda#, 2014. Subchronic and mild social defeat stress accelerates food intake and body weight gain with polydipsia-like features in mice. Behavioural Brain Research 270: 339-348. [PubMed]
T. Goto, A. Ishikawa, N. Goto, M. Nishibori, T. Umino, and M. Tsudzuki#, 2014. Mapping of main-effect and epistatic quantitative trait loci for internal egg traits in an F2 resource population of chickens. Journal of Poultry Science 51 (4): 375-386. [PubMed]
T. Oka, R. Tadano, T. Goto, J.-i. Shiraishi, S.A.M. Osman, N. Nagasaka, T. Bungo, T. Maeda, M. Nishibori, T. Umino, and M. Tsudzuki#, 2014. Time-dependent changes in the geneticdiversity and structure of the Onagadori breed of chickens based on microsatellite DNA polymorphisms. Journal of Poultry Science 51 (3): 262-269. [PubMed]
T. Goto, A. Ishikawa, M. Yoshida, N. Goto, T. Umino, M. Nishibori, and M. Tsudzuki#, 2014.Quantitative trait loci mapping for external egg traits in F2 chickens. Journal of Poultry Science 51 (2): 118-129. [PubMed]
K. Ohara, M. Takayama, T. Goto, S.A.M. Osman, and M. Tsudzuki#, 2013. Comparison of growth in three varieties of the Japanese extremely long-tailed chicken breed (Tosa-no-Onagadori). International Journal of Poultry Science 12 (9): 517-522. [PubMed]
T. Goto, A. Tanave, K. Moriwaki, T. Shiroishi, and T. Koide#, 2013. Selection for reluctance to avoid humans during the domestication of mice. Genes, Brain and Behavior 12 (8): 760-770. [PubMed]
M. Yoshida, A. Ishikawa, T. Goto, N. Goto, M. Nishibori, and M. Tsudzuki#, 2013. QTL mapping for meat color traits using the F2 intercross between the Oh-Shamo (Japanese Large Game) and White Leghorn chickens. Journal of Poultry Science 50 (3): 198-205. (Best Paper Award of Journal of Poultry Science) [PubMed]
F. Maekawa, M. Sakurai, Y. Yamashita, K. Tanaka, S. Haraguchi, K. Yamamoto, K. Tsutsui, H. Yoshioka, S. Murakami, R. Tadano, T. Goto, J.-i. Shiraishi, K. Tomonari, T. Oka, K. Ohara, T. Maeda, T. Bungo, M. Tsudzuki and H. Ohki-Hamazaki#. 2013. A genetically female brain is required for a regular reproductive cycle in chicken brain chimeras. Nature Communications 4:1372: 1-11. [PubMed]
T. Bungo#, T. Goto, J.-i. Shiraishi and M. Tsudzuki. 2011. Embryonic and chick mortality of four native Japanese chicken breeds. Journal of Animal and Veterinary Advances 10 (6): 701-703. [PubMed]
T. Goto, A. Ishikawa, S. Onitsuka, N. Goto, Y. Fujikawa, T. Umino, M. Nishibori and M. Tsudzuki#. 2011. Mapping quantitative trait loci for egg production traits in an F2 intercross of Oh-Shamo and White Leghorn chickens. Animal Genetics 42 (6): 634-641. [PubMed]
T. Goto, N. Goto, J.-i. Shiraishi, T. Bungo# and M. Tsudzuki. 2010. Comparison of growth curves for four breeds of Japanese native chickens, Onaga-dori, Tosa-jidori, Ukokkei and Hinai-dori. Journal of Animal and Veterinary Advances 9 (9): 1362-1365. [PubMed]
#Corresponding Author
Review Articles
D. Gyawali and T. Goto#, 2025. Assessing the genetic and environmental factors on egg amino acid traits in chickens: a review. Animals 15: 1554. [PubMed]
T. Goto# and M. Tsudzuki#, 2017. Genetic mapping of quantitative trait loci for egg production and egg quality traits in chickens: a Review. The Journal of Poultry Science 54: 1-12. [PubMed]
T. Goto, S. Tomonaga, T. Okayama, and A. Toyoda#, 2016. Murine depression model and its potential applications for discovering food and farm products with antidepressant-like effects. Frontiers in Neuroscience 10: 72. [PubMed]
T. Goto#, Y. Matsumoto, A. Tanave, and T. Koide, 2015. Genetic analyses for tame behavior in animals: exploration of genetic loci affecting animal domestication. The Journal of Animal Genetics (In Japanese) 43: 3-11. [PubMed]
T. Koide#, T. Goto, and T. Takano-Shimizu, 2012. Genomic mixing to elucidate the genetic system of complex traits. Experimental Animals 61 (5): 503-509. [PubMed]
#Corresponding Author
☆BOOKS☆
T. Goto, 2015. “Progress and perspective of Japanese poultry industry: eggs and meat from production to dining table”. In “Interesting! Japanese livestock industry now: past, present, and future” Chapter 6: 309-360. (In Japanese) Minerva-Shobo, Kyoto, Japan [amazon]
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