Program of Biological Science

Search results

• Context‐dependent expression of variation in defensive behaviour in the lower termite Zootermopsis nevadensis

  Yaguchi, H. (Creator), Maekawa, K. (Creator) & Hojo, M. (Creator), ZENODO, 2023/07/06

  DOI: 10.5061/dryad.2280gb5vv, https://datadryad.org/dataset/doi:10.5061/dryad.2280gb5vv

  Dataset

• Supplementary material from "A lipocalin protein, Neural Lazarillo, is key to social interactions that promote termite soldier differentiation"

  Yaguchi, H. (Creator), Shigenobu, S. (Creator), Hayashi, Y. (Creator), Miyazaki, S. (Creator), Toga, K. (Creator), Masuoka, Y. (Creator) & Maekawa, K. (Creator), The Royal Society, 2018

  DOI: 10.6084/m9.figshare.c.4161251.v1, https://rs.figshare.com/collections/Supplementary_material_from_A_lipocalin_protein_Neural_Lazarillo_is_key_to_social_interactions_that_promote_termite_soldier_differentiation_/4161251/1

  Dataset

• Data from: Conditional reduction of predation risk associated with a facultative symbiont in an insect

  Polin, S. (Contributor), Le Gallic, J.-F. (Contributor), Simon, J.-C. (Contributor), Tsuchida, T. (Contributor) & Outreman, Y. (Contributor), Dryad, 2016/01/26

  DOI: 10.5061/dryad.13mf5, https://zenodo.org/records/5012756

  Dataset

• Transcriptomics and Proteomics Analyses of the PACAP38 influenced Ischemic Brain in Permanent Middle Cerebral Artery Occlusion Model Mice

  Hori, M. (Contributor), Shibato, J. (Contributor), Nakamachi, T. (Contributor), Rakwal, R. (Contributor) & Shioda, S. (Contributor), Gene Expression Omnibus, 2012/04/25

  https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE37565

  Dataset

• Unraveling the Specific Ischemic Core and Penumbra Transcriptome in Permanent Middle Cerebral Artery Occlusion Model Mice Brain Treated with Neuropeptide PACAP38

  Hori, M. (Contributor), Shibato, J. (Contributor), Nakamachi, T. (Contributor), Rakwal, R. (Contributor), Shioda, S. (Contributor) & Numazawa, S. (Contributor), Gene Expression Omnibus, 2014/10/31

  https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE62884

  Dataset

• A metagenomic approach from aphid’s hemolymph sheds light on the potential roles of co-existing endosymbionts

  De Clerck, C. (Contributor), Fujiwara, A. (Creator), Joncour, P. (Creator), Léonard, S. (Creator), Félix, M.-L. (Contributor), Francis, F. (Creator), Jijakli, M. H. (Contributor), Tsuchida, T. (Creator) & Massart, S. (Creator), figshare, 2015

  DOI: 10.6084/m9.figshare.c.3615017.v1, https://figshare.com/collections/A_metagenomic_approach_from_aphid_s_hemolymph_sheds_light_on_the_potential_roles_of_co-existing_endosymbionts/3615017/1

  Dataset

• Additional file 5: Table S5. of A metagenomic approach from aphid’s hemolymph sheds light on the potential roles of co-existing endosymbionts

  De Clerck, C. (Contributor), Fujiwara, A. (Creator), Joncour, P. (Creator), Léonard, S. (Creator), Félix, M.-L. (Contributor), Francis, F. (Creator), Jijakli, M. H. (Contributor), Tsuchida, T. (Creator) & Massart, S. (Creator), figshare, 2015

  DOI: 10.6084/m9.figshare.c.3615017_d2.v1, https://springernature.figshare.com/articles/dataset/Additional_file_5_Table_S5_of_A_metagenomic_approach_from_aphid_s_hemolymph_sheds_light_on_the_potential_roles_of_co-existing_endosymbionts/4375187/1

  Dataset

• Data from: Light-at-night exposure affects brain development through pineal allopregnanolone-dependent mechanisms

  Haraguchi, S. (Contributor), Kamata, M. (Contributor), Tokita, T. (Contributor), Tashiro, K.-I. (Contributor), Sato, M. (Contributor), Nozaki, M. (Contributor), Okamoto-Katsuyama, M. (Contributor), Shimizu, I. (Contributor), Han, G. (Contributor), Chowdhury, V. S. (Contributor), Lei, X.-F. (Contributor), Miyazaki, T. (Contributor), Kim-Kaneyama, J.-R. (Contributor), Nakamachi, T. (Contributor), Matsuda, K. (Contributor), Ohtaki, H. (Contributor), Tokumoto, T. (Contributor), Tachibana, T. (Contributor), Miyazaki, A. (Contributor) & Tsutsui, K. (Contributor), Dryad, 2019/10/14

  DOI: 10.5061/dryad.k6g8b53, https://zenodo.org/records/5014958

  Dataset

• DNA Microarray Analysis Approach for Unraveling the Ischemic Mouse Brain Transcriptome

  Hori, M. (Contributor), Shibato, J. (Contributor), Nakamachi, T. (Contributor), Rakwal, R. (Contributor) & Shioda, S. (Contributor), Gene Expression Omnibus, 2011/03/28

  https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE28201

  Dataset

• Additional file 7: Table S7. of A metagenomic approach from aphid’s hemolymph sheds light on the potential roles of co-existing endosymbionts

  De Clerck, C. (Contributor), Fujiwara, A. (Creator), Joncour, P. (Creator), Léonard, S. (Creator), Félix, M.-L. (Contributor), Francis, F. (Creator), Jijakli, M. H. (Contributor), Tsuchida, T. (Creator) & Massart, S. (Creator), figshare, 2015

  DOI: 10.6084/m9.figshare.c.3615017_d6, https://springernature.figshare.com/articles/dataset/Additional_file_7_Table_S7_of_A_metagenomic_approach_from_aphid_s_hemolymph_sheds_light_on_the_potential_roles_of_co-existing_endosymbionts/4375280

  Dataset

• Supplementary material from "A lipocalin protein, Neural Lazarillo, is key to social interactions that promote termite soldier differentiation"

  Yaguchi, H. (Creator), Shigenobu, S. (Creator), Hayashi, Y. (Creator), Miyazaki, S. (Creator), Toga, K. (Creator), Masuoka, Y. (Creator) & Maekawa, K. (Creator), The Royal Society, 2018

  DOI: 10.6084/m9.figshare.c.4161251, https://rs.figshare.com/collections/Supplementary_material_from_A_lipocalin_protein_Neural_Lazarillo_is_key_to_social_interactions_that_promote_termite_soldier_differentiation_/4161251

  Dataset

• Additional file 4: Table S4. of A metagenomic approach from aphid’s hemolymph sheds light on the potential roles of co-existing endosymbionts

  De Clerck, C. (Contributor), Fujiwara, A. (Creator), Joncour, P. (Creator), Léonard, S. (Creator), Félix, M.-L. (Contributor), Francis, F. (Creator), Jijakli, M. H. (Contributor), Tsuchida, T. (Creator) & Massart, S. (Creator), figshare, 2015

  DOI: 10.6084/m9.figshare.c.3615017_d5, https://springernature.figshare.com/articles/dataset/Additional_file_4_Table_S4_of_A_metagenomic_approach_from_aphid_s_hemolymph_sheds_light_on_the_potential_roles_of_co-existing_endosymbionts/4375259

  Dataset

• Additional file 1: Table S1. of A metagenomic approach from aphid’s hemolymph sheds light on the potential roles of co-existing endosymbionts

  De Clerck, C. (Contributor), Fujiwara, A. (Creator), Joncour, P. (Creator), Léonard, S. (Creator), Félix, M.-L. (Contributor), Francis, F. (Creator), Jijakli, M. H. (Contributor), Tsuchida, T. (Creator) & Massart, S. (Creator), figshare, 2015

  DOI: 10.6084/m9.figshare.c.3615017_d1.v1, https://springernature.figshare.com/articles/dataset/Additional_file_1_Table_S1_of_A_metagenomic_approach_from_aphid_s_hemolymph_sheds_light_on_the_potential_roles_of_co-existing_endosymbionts/4375163/1

  Dataset

• Additional file 3: Table S3. of A metagenomic approach from aphid’s hemolymph sheds light on the potential roles of co-existing endosymbionts

  De Clerck, C. (Contributor), Fujiwara, A. (Creator), Joncour, P. (Creator), Léonard, S. (Creator), Félix, M.-L. (Contributor), Francis, F. (Creator), Jijakli, M. H. (Contributor), Tsuchida, T. (Creator) & Massart, S. (Creator), figshare, 2015

  DOI: 10.6084/m9.figshare.c.3615017_d7.v1, https://springernature.figshare.com/articles/dataset/Additional_file_3_Table_S3_of_A_metagenomic_approach_from_aphid_s_hemolymph_sheds_light_on_the_potential_roles_of_co-existing_endosymbionts/4375304/1

  Dataset

• Additional file 7: Table S7. of A metagenomic approach from aphid’s hemolymph sheds light on the potential roles of co-existing endosymbionts

  De Clerck, C. (Contributor), Fujiwara, A. (Creator), Joncour, P. (Creator), Léonard, S. (Creator), Félix, M.-L. (Contributor), Francis, F. (Creator), Jijakli, M. H. (Contributor), Tsuchida, T. (Creator) & Massart, S. (Creator), figshare, 2015

  DOI: 10.6084/m9.figshare.c.3615017_d6.v1, https://springernature.figshare.com/articles/dataset/Additional_file_7_Table_S7_of_A_metagenomic_approach_from_aphid_s_hemolymph_sheds_light_on_the_potential_roles_of_co-existing_endosymbionts/4375280/1

  Dataset

• Additional file 1: Table S1. of A metagenomic approach from aphid’s hemolymph sheds light on the potential roles of co-existing endosymbionts

  De Clerck, C. (Contributor), Fujiwara, A. (Creator), Joncour, P. (Creator), Léonard, S. (Creator), Félix, M.-L. (Contributor), Francis, F. (Creator), Jijakli, M. H. (Contributor), Tsuchida, T. (Creator) & Massart, S. (Creator), figshare, 2015

  DOI: 10.6084/m9.figshare.c.3615017_d1, https://springernature.figshare.com/articles/dataset/Additional_file_1_Table_S1_of_A_metagenomic_approach_from_aphid_s_hemolymph_sheds_light_on_the_potential_roles_of_co-existing_endosymbionts/4375163

  Dataset

• A metagenomic approach from aphid’s hemolymph sheds light on the potential roles of co-existing endosymbionts

  De Clerck, C. (Contributor), Fujiwara, A. (Creator), Joncour, P. (Creator), Léonard, S. (Creator), Félix, M.-L. (Contributor), Francis, F. (Creator), Jijakli, M. H. (Contributor), Tsuchida, T. (Creator) & Massart, S. (Creator), figshare, 2015

  DOI: 10.6084/m9.figshare.c.3615017, https://figshare.com/collections/A_metagenomic_approach_from_aphid_s_hemolymph_sheds_light_on_the_potential_roles_of_co-existing_endosymbionts/3615017

  Dataset

• Additional file 4: Table S4. of A metagenomic approach from aphid’s hemolymph sheds light on the potential roles of co-existing endosymbionts

  De Clerck, C. (Contributor), Fujiwara, A. (Creator), Joncour, P. (Creator), Léonard, S. (Creator), Félix, M.-L. (Contributor), Francis, F. (Creator), Jijakli, M. H. (Contributor), Tsuchida, T. (Creator) & Massart, S. (Creator), figshare, 2015

  DOI: 10.6084/m9.figshare.c.3615017_d5.v1, https://springernature.figshare.com/articles/dataset/Additional_file_4_Table_S4_of_A_metagenomic_approach_from_aphid_s_hemolymph_sheds_light_on_the_potential_roles_of_co-existing_endosymbionts/4375259/1

  Dataset

• Additional file 2: Table S2. of A metagenomic approach from aphid’s hemolymph sheds light on the potential roles of co-existing endosymbionts

  De Clerck, C. (Contributor), Fujiwara, A. (Creator), Joncour, P. (Creator), Léonard, S. (Creator), Félix, M.-L. (Contributor), Francis, F. (Creator), Jijakli, M. H. (Contributor), Tsuchida, T. (Creator) & Massart, S. (Creator), figshare, 2015

  DOI: 10.6084/m9.figshare.c.3615017_d3.v1, https://springernature.figshare.com/articles/dataset/Additional_file_2_Table_S2_of_A_metagenomic_approach_from_aphid_s_hemolymph_sheds_light_on_the_potential_roles_of_co-existing_endosymbionts/4375214/1

  Dataset

• Elucidation of the whole carotenoid biosynthetic pathway of aphids at the gene level and arthropodal food chain involving aphids and the red dragonfly

  Takemura, M. (Creator), Maoka, T. (Creator), Koyanagi, T. (Creator), Kawase, N. (Creator), Nishida, R. (Creator), Tsuchida, T. (Creator), Hironaka, M. (Creator), Ueda, T. (Creator) & Misawa, N. (Creator), figshare, 2021

  DOI: 10.6084/m9.figshare.c.5450021.v1, https://springernature.figshare.com/collections/Elucidation_of_the_whole_carotenoid_biosynthetic_pathway_of_aphids_at_the_gene_level_and_arthropodal_food_chain_involving_aphids_and_the_red_dragonfly/5450021/1

  Dataset

• Additional file 3: Table S3. of A metagenomic approach from aphid’s hemolymph sheds light on the potential roles of co-existing endosymbionts

  De Clerck, C. (Contributor), Fujiwara, A. (Creator), Joncour, P. (Creator), Léonard, S. (Creator), Félix, M.-L. (Contributor), Francis, F. (Creator), Jijakli, M. H. (Contributor), Tsuchida, T. (Creator) & Massart, S. (Creator), figshare, 2015

  DOI: 10.6084/m9.figshare.c.3615017_d7, https://springernature.figshare.com/articles/dataset/Additional_file_3_Table_S3_of_A_metagenomic_approach_from_aphid_s_hemolymph_sheds_light_on_the_potential_roles_of_co-existing_endosymbionts/4375304

  Dataset

• Supplemental Material for Masuoka et al., 2018

  Masuoka, Y. (Creator), Toga, K. (Creator), Nalepa, C. A. (Creator) & Maekawa, K. (Creator), figshare, 2018

  DOI: 10.25386/genetics.6564572.v1, https://figshare.com/articles/Supplemental_Material_for_Masuoka_et_al_2018/6564572/1

  Dataset

• Additional file 6: Table S6. of A metagenomic approach from aphid’s hemolymph sheds light on the potential roles of co-existing endosymbionts

  De Clerck, C. (Contributor), Fujiwara, A. (Creator), Joncour, P. (Creator), Léonard, S. (Creator), Félix, M.-L. (Contributor), Francis, F. (Creator), Jijakli, M. H. (Contributor), Tsuchida, T. (Creator) & Massart, S. (Creator), figshare, 2015

  DOI: 10.6084/m9.figshare.c.3615017_d4, https://springernature.figshare.com/articles/dataset/Additional_file_6_Table_S6_of_A_metagenomic_approach_from_aphid_s_hemolymph_sheds_light_on_the_potential_roles_of_co-existing_endosymbionts/4375238

  Dataset

• Elucidation of the whole carotenoid biosynthetic pathway of aphids at the gene level and arthropodal food chain involving aphids and the red dragonfly

  Takemura, M. (Creator), Maoka, T. (Creator), Koyanagi, T. (Creator), Kawase, N. (Creator), Nishida, R. (Creator), Tsuchida, T. (Creator), Hironaka, M. (Creator), Ueda, T. (Creator) & Misawa, N. (Creator), figshare, 2021

  DOI: 10.6084/m9.figshare.c.5450021, https://springernature.figshare.com/collections/Elucidation_of_the_whole_carotenoid_biosynthetic_pathway_of_aphids_at_the_gene_level_and_arthropodal_food_chain_involving_aphids_and_the_red_dragonfly/5450021

  Dataset

• Additional file 6: Table S6. of A metagenomic approach from aphid’s hemolymph sheds light on the potential roles of co-existing endosymbionts

  De Clerck, C. (Contributor), Fujiwara, A. (Creator), Joncour, P. (Creator), Léonard, S. (Creator), Félix, M.-L. (Contributor), Francis, F. (Creator), Jijakli, M. H. (Contributor), Tsuchida, T. (Creator) & Massart, S. (Creator), figshare, 2015

  DOI: 10.6084/m9.figshare.c.3615017_d4.v1, https://springernature.figshare.com/articles/dataset/Additional_file_6_Table_S6_of_A_metagenomic_approach_from_aphid_s_hemolymph_sheds_light_on_the_potential_roles_of_co-existing_endosymbionts/4375238/1

  Dataset