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Table_3_MOTS-c repairs myocardial damage by inhibiting the ..:
Manda Wang (14326353) ; Gangqiang Wang (4457821) ; Xiaoli Pang (730503)...
https://figshare.com/articles/dataset/Table_3_MOTS-c_repairs_myocardial_damage_by_inhibiting_the_CCN1_ERK1_2_EGR1_pathway_in_diabetic_rats_XLSX/21813702. , 2023
https://figshare.com/articles/dataset/Table_3_MOTS-c_repairs_myocardial_damage_by_inhibiting_the_CCN1_ERK1_2_EGR1_pathway_in_diabetic_rats_XLSX/21813702. , 2023
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Additional file 3 of TMT-based quantitative proteomic profi..:
Yali Zhang (206227) ; Yu Fu (16582) ; Linying Jia (11900319)...
https://figshare.com/articles/dataset/Additional_file_3_of_TMT-based_quantitative_proteomic_profiling_of_human_monocyte-derived_macrophages_and_foam_cells/17799900. , 2022
https://figshare.com/articles/dataset/Additional_file_3_of_TMT-based_quantitative_proteomic_profiling_of_human_monocyte-derived_macrophages_and_foam_cells/17799900. , 2022
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3
Additional file 1 of TMT-based quantitative proteomic profi..:
Yali Zhang (206227) ; Yu Fu (16582) ; Linying Jia (11900319)...
https://figshare.com/articles/figure/Additional_file_1_of_TMT-based_quantitative_proteomic_profiling_of_human_monocyte-derived_macrophages_and_foam_cells/17799894. , 2022
https://figshare.com/articles/figure/Additional_file_1_of_TMT-based_quantitative_proteomic_profiling_of_human_monocyte-derived_macrophages_and_foam_cells/17799894. , 2022
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Table_3_Integrated Analysis of Multiple Microarrays Based o..:
Hong Zeng (24161) ; Yu Fu (16582) ; Lang Shen (1472080).
https://figshare.com/articles/dataset/Table_3_Integrated_Analysis_of_Multiple_Microarrays_Based_on_Raw_Data_Identified_Novel_Gene_Signatures_in_Recurrent_Implantation_Failure_xlsx/19129187. , 2022
https://figshare.com/articles/dataset/Table_3_Integrated_Analysis_of_Multiple_Microarrays_Based_on_Raw_Data_Identified_Novel_Gene_Signatures_in_Recurrent_Implantation_Failure_xlsx/19129187. , 2022
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Additional file 6 of TMT-based quantitative proteomic profi..:
Yali Zhang (206227) ; Yu Fu (16582) ; Linying Jia (11900319)...
https://figshare.com/articles/figure/Additional_file_6_of_TMT-based_quantitative_proteomic_profiling_of_human_monocyte-derived_macrophages_and_foam_cells/17799912. , 2022
https://figshare.com/articles/figure/Additional_file_6_of_TMT-based_quantitative_proteomic_profiling_of_human_monocyte-derived_macrophages_and_foam_cells/17799912. , 2022
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Additional file 1 of The inconsistency between two major an..:
Dongjia Chen (11967411) ; Yan Xu (14594) ; Chenhui Ding (801851)...
https://figshare.com/articles/journal_contribution/Additional_file_1_of_The_inconsistency_between_two_major_aneuploidy-screening_platforms_single-nucleotide_polymorphism_array_and_next-generation_sequencing_in_the_detection_of_embryo_mosaicism/18666630. , 2022
https://figshare.com/articles/journal_contribution/Additional_file_1_of_The_inconsistency_between_two_major_aneuploidy-screening_platforms_single-nucleotide_polymorphism_array_and_next-generation_sequencing_in_the_detection_of_embryo_mosaicism/18666630. , 2022
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7
Activation of Wheat Defense Response by Buchnera aphidicola..:
Qian Li (114642) ; Yu Fu (16582) ; Xiaobei Liu (532671)...
https://figshare.com/articles/dataset/Activation_of_Wheat_Defense_Response_by_i_Buchnera_aphidicola_i_-Derived_Small_Chaperone_Protein_GroES_in_Wheat_Aphid_Saliva/19064564. , 2022
https://figshare.com/articles/dataset/Activation_of_Wheat_Defense_Response_by_i_Buchnera_aphidicola_i_-Derived_Small_Chaperone_Protein_GroES_in_Wheat_Aphid_Saliva/19064564. , 2022
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Additional file 5 of TMT-based quantitative proteomic profi..:
Yali Zhang (206227) ; Yu Fu (16582) ; Linying Jia (11900319)...
https://figshare.com/articles/dataset/Additional_file_5_of_TMT-based_quantitative_proteomic_profiling_of_human_monocyte-derived_macrophages_and_foam_cells/17799906. , 2022
https://figshare.com/articles/dataset/Additional_file_5_of_TMT-based_quantitative_proteomic_profiling_of_human_monocyte-derived_macrophages_and_foam_cells/17799906. , 2022
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9
DataSheet_1_The Immunological Role of CDK4/6 and Potential ..:
Chen Liu (75209) ; Yuhan Huang (8769290) ; Yaoyuan Cui (11946440)...
https://figshare.com/articles/dataset/DataSheet_1_The_Immunological_Role_of_CDK4_6_and_Potential_Mechanism_Exploration_in_Ovarian_Cancer_docx/18392708. , 2022
https://figshare.com/articles/dataset/DataSheet_1_The_Immunological_Role_of_CDK4_6_and_Potential_Mechanism_Exploration_in_Ovarian_Cancer_docx/18392708. , 2022
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10
Dynamic Color Display with Viewing-Angle Tolerance Based on..:
Chao Liu (43092) ; Guangrong Wang (6425357) ; Liying Zhang (102453)...
https://figshare.com/articles/journal_contribution/Dynamic_Color_Display_with_Viewing-Angle_Tolerance_Based_on_the_Responsive_Asymmetric_Fabry_Perot_Cavity/19087802. , 2022
https://figshare.com/articles/journal_contribution/Dynamic_Color_Display_with_Viewing-Angle_Tolerance_Based_on_the_Responsive_Asymmetric_Fabry_Perot_Cavity/19087802. , 2022
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11
DataSheet_1_Circulating Cell-Free Tumor DNA in Advanced Pan..:
Gehan Botrus (11924996) ; Pedro Luiz Serrano Uson Junior (11924999) ; Puneet Raman (11925002)...
https://figshare.com/articles/dataset/DataSheet_1_Circulating_Cell-Free_Tumor_DNA_in_Advanced_Pancreatic_Adenocarcinoma_Identifies_Patients_With_Worse_Overall_Survival_docx/18095285. , 2022
https://figshare.com/articles/dataset/DataSheet_1_Circulating_Cell-Free_Tumor_DNA_in_Advanced_Pancreatic_Adenocarcinoma_Identifies_Patients_With_Worse_Overall_Survival_docx/18095285. , 2022
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12
Transcriptomic and Metabolomic Analysis of Wheat Kernels in..:
Qian Wang (32718) ; Xiaobei Liu (532671) ; Huan Liu (281351)...
https://figshare.com/articles/dataset/Transcriptomic_and_Metabolomic_Analysis_of_Wheat_Kernels_in_Response_to_the_Feeding_of_Orange_Wheat_Blossom_Midges_Sitodiplosis_mosellana_in_the_Field/19090315. , 2022
https://figshare.com/articles/dataset/Transcriptomic_and_Metabolomic_Analysis_of_Wheat_Kernels_in_Response_to_the_Feeding_of_Orange_Wheat_Blossom_Midges_Sitodiplosis_mosellana_in_the_Field/19090315. , 2022
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Table_1_Integrated Analysis of Multiple Microarrays Based o..:
Hong Zeng (24161) ; Yu Fu (16582) ; Lang Shen (1472080).
https://figshare.com/articles/dataset/Table_1_Integrated_Analysis_of_Multiple_Microarrays_Based_on_Raw_Data_Identified_Novel_Gene_Signatures_in_Recurrent_Implantation_Failure_xlsx/19129175. , 2022
https://figshare.com/articles/dataset/Table_1_Integrated_Analysis_of_Multiple_Microarrays_Based_on_Raw_Data_Identified_Novel_Gene_Signatures_in_Recurrent_Implantation_Failure_xlsx/19129175. , 2022
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Table_4_Integrated Analysis of Multiple Microarrays Based o..:
Hong Zeng (24161) ; Yu Fu (16582) ; Lang Shen (1472080).
https://figshare.com/articles/dataset/Table_4_Integrated_Analysis_of_Multiple_Microarrays_Based_on_Raw_Data_Identified_Novel_Gene_Signatures_in_Recurrent_Implantation_Failure_xlsx/19129190. , 2022
https://figshare.com/articles/dataset/Table_4_Integrated_Analysis_of_Multiple_Microarrays_Based_on_Raw_Data_Identified_Novel_Gene_Signatures_in_Recurrent_Implantation_Failure_xlsx/19129190. , 2022
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Table_5_Integrated Analysis of Multiple Microarrays Based o..:
Hong Zeng (24161) ; Yu Fu (16582) ; Lang Shen (1472080).
https://figshare.com/articles/dataset/Table_5_Integrated_Analysis_of_Multiple_Microarrays_Based_on_Raw_Data_Identified_Novel_Gene_Signatures_in_Recurrent_Implantation_Failure_xlsx/19129193. , 2022
https://figshare.com/articles/dataset/Table_5_Integrated_Analysis_of_Multiple_Microarrays_Based_on_Raw_Data_Identified_Novel_Gene_Signatures_in_Recurrent_Implantation_Failure_xlsx/19129193. , 2022