Faculty of Pharmaceutical Sciences

Search results

• CCDC 1015485: Experimental Crystal Structure Determination

  Zhu, S. (Creator), Tran, A. T. (Creator), Hirokami, Y. (Creator), Gontard, G. (Creator), Khaled, O. (Creator), Zhang, Y. (Creator), Kato, A. (Creator), Blériot, Y. (Creator) & Sollogoub, M. (Creator), Cambridge Crystallographic Data Centre, 2019

  DOI: 10.5517/ccdc.csd.cc132plg, http://www.ccdc.cam.ac.uk/services/structure_request?id=doi:10.5517/ccdc.csd.cc132plg&sid=DataCite

  Dataset

• CCDC 1002983: Experimental Crystal Structure Determination

  Morimoto, T. (Contributor), Wang, C. (Contributor), Tanimoto, H. (Contributor), Artok, L. (Contributor) & Kakiuchi, K. (Contributor), Cambridge Crystallographic Data Centre, 2021

  DOI: 10.5517/ccdc.csd.cc12np9q, http://www.ccdc.cam.ac.uk/services/structure_request?id=doi:10.5517/ccdc.csd.cc12np9q&sid=DataCite

  Dataset

• CCDC 1002969: Experimental Crystal Structure Determination

  Morimoto, T. (Contributor), Wang, C. (Contributor), Tanimoto, H. (Contributor), Artok, L. (Contributor) & Kakiuchi, K. (Contributor), Cambridge Crystallographic Data Centre, 2021

  DOI: 10.5517/ccdc.csd.cc12nnv7, http://www.ccdc.cam.ac.uk/services/structure_request?id=doi:10.5517/ccdc.csd.cc12nnv7&sid=DataCite

  Dataset

• Bioinspired computational design of lankacidin derivatives for improvement in antitumor activity - supplement information

  Ayoub, A. T. (Creator), Nishiura, N. (Creator), Teshima, A. (Creator), Elrefaiy, M. A. (Creator), Muslimin, R. (Creator), Do, K. M. (Creator), Kodama, T. (Creator), Lewis, C. W. (Creator), Chan, G. (Creator), Morita, H. (Creator) & Arakawa, K. (Creator), Taylor & Francis, 2022

  DOI: 10.25402/fmc.21062833, https://tandf.figshare.com/articles/figure/Bioinspired_computational_design_of_lankacidin_derivatives_for_improvement_in_antitumor_activity_-_supplement_information/21062833

  Dataset

• Bioinspired computational design of lankacidin derivatives for improvement in antitumor activity - supplement information

  Ayoub, A. T. (Creator), Nishiura, N. (Creator), Teshima, A. (Creator), Elrefaiy, M. A. (Creator), Muslimin, R. (Creator), Do, K. M. (Creator), Kodama, T. (Creator), Lewis, C. W. (Creator), Chan, G. (Creator), Morita, H. (Creator) & Arakawa, K. (Creator), Taylor & Francis, 2022

  DOI: 10.25402/fmc.21062833.v1, https://tandf.figshare.com/articles/figure/Bioinspired_computational_design_of_lankacidin_derivatives_for_improvement_in_antitumor_activity_-_supplement_information/21062833/1

  Dataset

• A transdermal treatment with MC903 ameliorates diet-induced obesity by reducing visceral fat and increasing myofiber thickness and energy consumption in mice

  Ikurumi, M. (Creator), Fuse, K. (Creator), Onogi, Y. (Creator), Okekawa, A. (Creator), Wada, T. (Creator), Tsuneki, H. (Creator), Miyazawa, Y. (Creator), Sasaoka, T. (Creator) & Saito, S. (Creator), figshare, 2024

  DOI: 10.6084/m9.figshare.c.6587371, https://springernature.figshare.com/collections/A_transdermal_treatment_with_MC903_ameliorates_diet-induced_obesity_by_reducing_visceral_fat_and_increasing_myofiber_thickness_and_energy_consumption_in_mice/6587371

  Dataset

• A transdermal treatment with MC903 ameliorates diet-induced obesity by reducing visceral fat and increasing myofiber thickness and energy consumption in mice

  Ikurumi, M. (Creator), Sasaoka, T. (Creator), Saito, S. (Creator), Okekawa, A. (Creator), Fuse, K. (Creator), Tsuneki, H. (Creator), Onogi, Y. (Creator), Miyazawa, Y. (Creator) & Wada, T. (Creator), figshare, 2024

  DOI: 10.6084/m9.figshare.c.6587371.v1, https://springernature.figshare.com/collections/A_transdermal_treatment_with_MC903_ameliorates_diet-induced_obesity_by_reducing_visceral_fat_and_increasing_myofiber_thickness_and_energy_consumption_in_mice/6587371/1

  Dataset

• Aspartyl/Asparaginyl beta-hydroxylase (AspH) H725A in complex with Factor X peptide fragment (39mer-4Ser)

  Brasnett, A. (Contributor), Pfeffer, I. (Contributor), Brewitz, L. (Contributor), Chowdhury, R. (Contributor), Nakashima, Y. (Contributor), Tumber, A. (Contributor), McDonough, M. A. (Contributor) & Schofield, C. J. (Contributor), Protein Data Bank (PDB), 2021/06/30

  DOI: 10.2210/pdb7E6J/pdb, https://www.wwpdb.org/pdb?id=pdb_00007e6j

  Dataset

• Anti-Trypanosoma cruzi activity of Coptis rhizome extract and its constituents

  Tayama, Y. (Creator), Mizukami, S. (Creator), Toume, K. (Creator), Komatsu, K. (Creator), Yanagi, T. (Creator), Nara, T. (Creator), Tieu, P. (Creator), Huy, N. T. (Creator), Hamano, S. (Creator) & Hirayama, K. (Creator), figshare, 2023

  DOI: 10.6084/m9.figshare.c.6580532.v1, https://springernature.figshare.com/collections/Anti-Trypanosoma_cruzi_activity_of_Coptis_rhizome_extract_and_its_constituents/6580532/1

  Dataset

• Anti-Trypanosoma cruzi activity of Coptis rhizome extract and its constituents

  Tayama, Y. (Creator), Mizukami, S. (Creator), Toume, K. (Creator), Komatsu, K. (Creator), Yanagi, T. (Creator), Nara, T. (Creator), Tieu, P. (Creator), Huy, N. T. (Creator), Hamano, S. (Creator) & Hirayama, K. (Creator), figshare, 2023

  DOI: 10.6084/m9.figshare.c.6580532, https://springernature.figshare.com/collections/Anti-Trypanosoma_cruzi_activity_of_Coptis_rhizome_extract_and_its_constituents/6580532

  Dataset

• Antimicrobial and antioxidant activities of triterpenoid and phenolic derivatives from two Cameroonian Melastomataceae plants: Dissotis senegambiensis and Amphiblemma monticola

  Nzogong, R. T. (Creator), Ndjateu, F. S. T. (Creator), Ekom, S. E. (Creator), Fosso, J.-A. M. (Creator), Awouafack, M. D. (Creator), Tene, M. (Creator), Tane, P. (Creator), Morita, H. (Creator), Choudhary, M. I. (Creator) & Tamokou, J.-D.-D. (Creator), figshare, 2018

  DOI: 10.6084/m9.figshare.c.4102883, https://springernature.figshare.com/collections/Antimicrobial_and_antioxidant_activities_of_triterpenoid_and_phenolic_derivatives_from_two_Cameroonian_Melastomataceae_plants_Dissotis_senegambiensis_and_Amphiblemma_monticola/4102883

  Dataset

• Antimicrobial and antioxidant activities of triterpenoid and phenolic derivatives from two Cameroonian Melastomataceae plants: Dissotis senegambiensis and Amphiblemma monticola

  Nzogong, R. T. (Creator), Ndjateu, F. S. T. (Creator), Ekom, S. E. (Creator), Fosso, J.-A. M. (Creator), Awouafack, M. D. (Creator), Tene, M. (Creator), Tane, P. (Creator), Morita, H. (Creator), Choudhary, M. I. (Creator) & Tamokou, J.-D.-D. (Creator), figshare, 2018

  DOI: 10.6084/m9.figshare.c.4102883.v1, https://springernature.figshare.com/collections/Antimicrobial_and_antioxidant_activities_of_triterpenoid_and_phenolic_derivatives_from_two_Cameroonian_Melastomataceae_plants_Dissotis_senegambiensis_and_Amphiblemma_monticola/4102883/1

  Dataset

• Anti-malarial activity of traditional Kampo medicine Coptis rhizome extract and its major active compounds

  Teklemichael, A. A. (Contributor), Mizukami, S. (Creator), Toume, K. (Creator), Mosaddeque, F. (Creator), Kamel, M. G. (Creator), Kaneko, O. (Creator), Komatsu, K. (Creator), Karbwang, J. (Contributor), Huy, N. T. (Contributor) & Hirayama, K. (Creator), figshare, 2020

  DOI: 10.6084/m9.figshare.c.5012924, https://springernature.figshare.com/collections/Anti-malarial_activity_of_traditional_Kampo_medicine_Coptis_rhizome_extract_and_its_major_active_compounds/5012924

  Dataset

• Anti-malarial activity of traditional Kampo medicine Coptis rhizome extract and its major active compounds

  Teklemichael, A. A. (Contributor), Mizukami, S. (Creator), Toume, K. (Creator), Mosaddeque, F. (Creator), Kamel, M. G. (Creator), Kaneko, O. (Creator), Komatsu, K. (Creator), Karbwang, J. (Contributor), Huy, N. T. (Contributor) & Hirayama, K. (Creator), figshare, 2020

  DOI: 10.6084/m9.figshare.c.5012924.v1, https://springernature.figshare.com/collections/Anti-malarial_activity_of_traditional_Kampo_medicine_Coptis_rhizome_extract_and_its_major_active_compounds/5012924/1

  Dataset

• Anti-inflammatory effects of Morus alba Linne bark on the activation of toll-like receptors and imiquimod-induced ear edema in mice

  Umeyama, L. (Creator), Hardianti, B. (Contributor), Kasahara, S. (Creator), Dibwe, D. F. (Contributor), Awale, S. (Creator), Yokoyama, S. (Creator) & Hayakawa, Y. (Creator), figshare, 2021

  DOI: 10.6084/m9.figshare.c.5371306, https://springernature.figshare.com/collections/Anti-inflammatory_effects_of_Morus_alba_Linne_bark_on_the_activation_of_toll-like_receptors_and_imiquimod-induced_ear_edema_in_mice/5371306

  Dataset

• Anti-inflammatory effects of Morus alba Linne bark on the activation of toll-like receptors and imiquimod-induced ear edema in mice

  Umeyama, L. (Creator), Hardianti, B. (Contributor), Kasahara, S. (Creator), Dibwe, D. F. (Contributor), Awale, S. (Creator), Yokoyama, S. (Creator) & Hayakawa, Y. (Creator), figshare, 2021

  DOI: 10.6084/m9.figshare.c.5371306.v1, https://springernature.figshare.com/collections/Anti-inflammatory_effects_of_Morus_alba_Linne_bark_on_the_activation_of_toll-like_receptors_and_imiquimod-induced_ear_edema_in_mice/5371306/1

  Dataset

• Antibacterial activities of chemical constituents from the aerial parts of Hedyotis pilulifera

  Nguyen, H. T. (Creator), Ho, D. V. (Creator), Vo, H. Q. (Creator), Nguyen, H. M. (Creator), Kodama, T. (Creator), Ito, T. (Creator), Morita, H. (Creator), Raal, A. (Creator) & Le, A. T. (Creator), Taylor & Francis, 2021

  DOI: 10.6084/m9.figshare.4569553.v2, https://tandf.figshare.com/articles/dataset/Antibacterial_activities_of_chemical_constituents_from_the_aerial_parts_of_i_Hedyotis_pilulifera_i_/4569553/2

  Dataset

• Antibacterial activities of chemical constituents from the aerial parts of Hedyotis pilulifera

  Nguyen, H. T. (Creator), Ho, D. V. (Creator), Vo, H. Q. (Creator), Nguyen, H. M. (Creator), Kodama, T. (Creator), Ito, T. (Creator), Morita, H. (Creator), Raal, A. (Creator) & Le, A. T. (Creator), Taylor & Francis, 2021

  DOI: 10.6084/m9.figshare.4569553, https://tandf.figshare.com/articles/dataset/Antibacterial_activities_of_chemical_constituents_from_the_aerial_parts_of_i_Hedyotis_pilulifera_i_/4569553

  Dataset

• A New Sterol From the Polypore Fungus Ganoderma luteomarginatum and Its Cytotoxic Activities

  Htoo, Z. P. (Creator), Kodama, T. (Creator), Win, N. N. (Creator), Ikumi, N. (Creator), Shiokawa, K.-I. (Creator) & Morita, H. (Creator), SAGE Journals, 2022

  DOI: 10.25384/sage.c.6018282, https://sage.figshare.com/collections/A_New_Sterol_From_the_Polypore_Fungus_i_Ganoderma_luteomarginatum_i_and_Its_Cytotoxic_Activities/6018282

  Dataset

• A New Sterol From the Polypore Fungus Ganoderma luteomarginatum and Its Cytotoxic Activities

  Htoo, Z. P. (Creator), Kodama, T. (Creator), Win, N. N. (Creator), Ikumi, N. (Creator), Shiokawa, K.-I. (Creator) & Morita, H. (Creator), SAGE Journals, 2022

  DOI: 10.25384/sage.c.6018282.v1, https://sage.figshare.com/collections/A_New_Sterol_From_the_Polypore_Fungus_i_Ganoderma_luteomarginatum_i_and_Its_Cytotoxic_Activities/6018282/1

  Dataset

• A new polyoxygenated cyclohexane and other constituents from Kaempferia rotunda and their cytotoxic activity

  Lallo, S. (Contributor), Lee, S. (Contributor), Dibwe, D. F. (Contributor), Tezuka, Y. (Creator) & Morita, H. (Creator), figshare, 2014

  DOI: 10.6084/m9.figshare.1134532.v2, https://figshare.com/articles/A_new_polyoxygenated_cyclohexane_and_other_constituents_from_i_Kaempferia_rotunda_i_and_their_cytotoxic_activity/1134532/2

  Dataset

• A New Monoterpenoid Glucoindole Alkaloid From Dipsacus asper

  Li, F. (Creator), Nishidono, Y. (Creator), Tanaka, K. (Creator), Watanabe, S. (Creator) & Tezuka, Y. (Creator), SAGE Journals, 2020

  DOI: 10.25384/sage.c.4936515, https://sage.figshare.com/collections/A_New_Monoterpenoid_Glucoindole_Alkaloid_From_i_Dipsacus_asper_i_/4936515

  Dataset

• A New Monoterpenoid Glucoindole Alkaloid From Dipsacus asper

  Li, F. (Creator), Nishidono, Y. (Creator), Tanaka, K. (Creator), Watanabe, S. (Creator) & Tezuka, Y. (Creator), SAGE Journals, 2020

  DOI: 10.25384/sage.c.4936515.v1, https://sage.figshare.com/collections/A_New_Monoterpenoid_Glucoindole_Alkaloid_From_i_Dipsacus_asper_i_/4936515/1

  Dataset

• A new megastigmane, known porphyrinic and galloylated bioactive derivatives from the leaves of Gymnosporia senegalensis

  Tatsimo Ndendoung, S. J. (Creator), Tamokou, J.-D.-D. (Creator), Toume, K. (Creator), Havyarimana, L. (Creator), Ekom, S. E. (Creator) & Komatsu, K. (Creator), SAGE Journals, 2022

  DOI: 10.25384/sage.c.5845920, https://sage.figshare.com/collections/A_new_megastigmane_known_porphyrinic_and_galloylated_bioactive_derivatives_from_the_leaves_of_i_Gymnosporia_senegalensis_i_/5845920

  Dataset

• A new megastigmane, known porphyrinic and galloylated bioactive derivatives from the leaves of Gymnosporia senegalensis

  Tatsimo Ndendoung, S. J. (Creator), Tamokou, J.-D.-D. (Creator), Toume, K. (Creator), Havyarimana, L. (Creator), Ekom, S. E. (Creator) & Komatsu, K. (Creator), SAGE Journals, 2022

  DOI: 10.25384/sage.c.5845920.v1, https://sage.figshare.com/collections/A_new_megastigmane_known_porphyrinic_and_galloylated_bioactive_derivatives_from_the_leaves_of_i_Gymnosporia_senegalensis_i_/5845920/1

  Dataset