Masahito Ohue

1.5k citations

63 papers · 744 indexed · h-index 17

Molecular Biology
Computational Theory and Mathematics top 2%
Materials Chemistry
Organic Chemistry
Microbiology top 10%

Co-authors: Yutaka Akiyama Yuri Matsuzaki Takashi Ishida Keisuke Yanagisawa Masatake Sugita Shuji Suzuki Yasushi Yoshikawa Satoshi Sugiyama
Topics: Protein Structure and Dynamics (31 papers)Computational Drug Discovery Methods (28 papers)Bioinformatics and Genomic Networks (17 papers)
Cited by: Computational Theory and Mathematics Molecular Biology Microbiology
Journals: Bioinformatics PLoS ONE International Journal of Molecular Sciences
Partner nations: Japan France China

In The Last Decade

Masahito Ohue

61 papers receiving 730 citations

Peers

Replace Ana Lígia Scott with:

Ana Lígia Scott Brazil

Cunliang Geng Netherlands

Vijayakumar Gosu South Korea

Martha Quesada United States

Jörg Schaarschmidt Germany

Felix Reisen Switzerland

Ruchira S. Datta United States

Elif Özkırımlı Türkiye

D’Artagnan Greene United States

Guillaume Brysbaert France

Masahito Ohue relative to Ana Lígia Scott Brazil Ana Lígia Scott's profile →

Citations per field

00.5×2×3×

Ana Lígia Scott · 1×

×1.8 571/321

MB

×1.7 253/149

CTM

×1.3 100/80

MC

×1.4 63/44

OC

×2.2 51/23

MICRO

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Countries citing papers authored by Masahito Ohue

Since Specialization

Citations

This map shows the geographic impact of Masahito Ohue's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Masahito Ohue with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Masahito Ohue more than expected).

Fields of papers citing papers by Masahito Ohue

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Masahito Ohue. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Masahito Ohue. The network helps show where Masahito Ohue may publish in the future.

Co-authorship network of co-authors of Masahito Ohue

This figure shows the co-authorship network connecting the top 25 collaborators of Masahito Ohue. A scholar is included among the top collaborators of Masahito Ohue based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Masahito Ohue. Masahito Ohue is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

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20 of 20 papers shown

#	Work	Indexed citations
1	Mathematical modeling and problem solving: from fundamentals to applications 2024 ·The Journal of Supercomputing ·Masahito Ohue,(unknown),(unknown)	1
2	Fastlomap: faster lead optimization mapper algorithm for large-scale relative free energy perturbation 2024 ·The Journal of Supercomputing ·(unknown),Masahito Ohue	3
3	Enhancing property and activity prediction and interpretation using multiple molecular graph representations with MMGX 2024 ·Communications Chemistry ·(unknown),Masahito Ohue	9
4	NPGPT: natural product-like compound generation with GPT-based chemical language models 2024 ·The Journal of Supercomputing ·(unknown),(unknown),Masahito Ohue	4
5	Antibody complementarity-determining region design using AlphaFold2 and DDG predictor 2024 ·The Journal of Supercomputing ·(unknown),Masahito Ohue	2
6	Variational autoencoder-based chemical latent space for large molecular structures with 3D complexity 2023 ·Communications Chemistry ·(unknown),(unknown),Manato Akiyama,(unknown),Masahito Ohue,Nobuaki Matsumori,Shinsuke Inuki,Motonari Uesugi,Toshiaki Sunazuka,Kazuya Kikuchi,Hideaki Kakeya,Yasubumi Sakakibara	37
7	Faster Lead Optimization Mapper Algorithm for Large-Scale Relative Free Energy Perturbation 2023 ·(unknown),Masahito Ohue	1
8	MEGADOCK-on-Colab: an easy-to-use protein–protein docking tool on Google Colaboratory 2023 ·BMC Research Notes ·Masahito Ohue	1
9	Enhancing Model Learning and Interpretation using Multiple Molecular Graph Representations for Compound Property and Activity Prediction 2023 ·(unknown),Masahito Ohue	2
10	Design of Cyclic Peptides Targeting Protein–Protein Interactions Using AlphaFold 2023 ·International Journal of Molecular Sciences ·(unknown),Masahito Ohue	25
11	Taxonomic and Gene Category Analyses of Subgingival Plaques from a Group of Japanese Individuals with and without Periodontitis 2021 ·International Journal of Molecular Sciences ·(unknown),(unknown),Daichi Kita,(unknown),Atsushi Saitô,Takashi Ishida,Masahito Ohue,Yutaka Akiyama,Kazuyuki Ishihara	7
12	Structural Basis for the Binding Mechanism of Human Serum Albumin Complexed with Cyclic Peptide Dalbavancin 2020 ·Journal of Medicinal Chemistry ·Shô Itô,(unknown),Satoru Nagatoishi,Masahito Ohue,Masaki Yamamoto,Kouhei Tsumoto,(unknown)	16
13	Evaluation of CONSRANK-Like Scoring Functions for Rescoring Ensembles of Protein–Protein Docking Poses 2020 ·Frontiers in Molecular Biosciences ·Guillaume Launay,Masahito Ohue,(unknown),Yuri Matsuzaki,(unknown),(unknown),Takanori Hayashi,Juliette Martin	5
14	NRLMFβ: Beta-distribution-rescored neighborhood regularized logistic matrix factorization for improving the performance of drug–target interaction prediction 2019 ·Biochemistry and Biophysics Reports ·(unknown),Masahito Ohue,Yutaka Akiyama	20
15	Megadock-Web: An Integrated Database of High-Throughput Structure-Based Protein-Protein Interaction Predictions 2019 ·Biophysical Journal ·Masahito Ohue,Takanori Hayashi,Yuri Matsuzaki,Keisuke Yanagisawa,Yutaka Akiyama	1
16	Multiple grid arrangement improves ligand docking with unknown binding sites: Application to the inverse docking problem 2018 ·Computational Biology and Chemistry ·(unknown),Masahito Ohue,Yutaka Akiyama	41
17	Optimization of memory use of fragment extension-based protein–ligand docking with an original fast minimum cost flow algorithm 2018 ·Computational Biology and Chemistry ·Keisuke Yanagisawa,(unknown),(unknown),Masahito Ohue,Yutaka Akiyama	1
18	The DEAD-box RNA-binding protein DDX6 regulates parental RNA decay for cellular reprogramming to pluripotency 2018 ·PLoS ONE ·Daisuke Kami,Tomoya Kitani,Akihiro Nakamura,(unknown),Rena Mizutani,Masahito Ohue,Fuyuki Kametani,Nobuyoshi Akimitsu,Satoshi Gojo	10
19	MEGADOCK-Web: an integrated database of high-throughput structure-based protein-protein interaction predictions 2018 ·BMC Bioinformatics ·Takanori Hayashi,Yuri Matsuzaki,Keisuke Yanagisawa,Masahito Ohue,Yutaka Akiyama	20
20	Re-Docking Scheme for Generating Near-Native Protein Complexes by Assembling Residue Interaction Fingerprints 2013 ·PLoS ONE ·(unknown),Yuri Matsuzaki,Masahito Ohue,Takatsugu Hirokawa,Yutaka Akiyama	6

About Masahito Ohue

Masahito Ohue is a scholar working on Computational Theory and Mathematics, Molecular Biology and Microbiology, having authored 63 papers that have together received 744 indexed citations. Recurring topics across this work include Protein Structure and Dynamics (31 papers), Computational Drug Discovery Methods (28 papers) and Bioinformatics and Genomic Networks (17 papers). The work is most often cited by research in Computational Theory and Mathematics (253 citations), Molecular Biology (571 citations) and Microbiology (51 citations). Masahito Ohue has collaborated with scholars based in Japan, France and China. Frequent co-authors include Yutaka Akiyama, Yuri Matsuzaki, Takashi Ishida, Keisuke Yanagisawa, Masatake Sugita, Shuji Suzuki, Yasushi Yoshikawa, Satoshi Sugiyama, Masakazu Sekijima and Ryunosuke Yoshino. Their work appears in journals such as Bioinformatics, PLoS ONE and International Journal of Molecular Sciences.

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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