Jong‐Seo Kim

3.2k total citations
85 papers, 2.2k citations indexed

About

Jong‐Seo Kim is a scholar working on Molecular Biology, Cell Biology and Spectroscopy. According to data from OpenAlex, Jong‐Seo Kim has authored 85 papers receiving a total of 2.2k indexed citations (citations by other indexed papers that have themselves been cited), including 57 papers in Molecular Biology, 17 papers in Cell Biology and 15 papers in Spectroscopy. Recurrent topics in Jong‐Seo Kim's work include Advanced Proteomics Techniques and Applications (15 papers), Mass Spectrometry Techniques and Applications (14 papers) and RNA and protein synthesis mechanisms (13 papers). Jong‐Seo Kim is often cited by papers focused on Advanced Proteomics Techniques and Applications (15 papers), Mass Spectrometry Techniques and Applications (14 papers) and RNA and protein synthesis mechanisms (13 papers). Jong‐Seo Kim collaborates with scholars based in South Korea, United States and Puerto Rico. Jong‐Seo Kim's co-authors include Weijun Qian, V. Narry Kim, Richard Smith, Jeesoo Kim, Hyun‐Woo Rhee, David Camp, Sanghee Shin, Myeong‐Gyun Kang, Ronald Moore and Hie-Joon Kim and has published in prestigious journals such as Proceedings of the National Academy of Sciences, Journal of the American Chemical Society and Nucleic Acids Research.

In The Last Decade

Jong‐Seo Kim

78 papers receiving 2.2k citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Jong‐Seo Kim South Korea 27 1.4k 358 312 259 211 85 2.2k
Xiao Luo China 30 1.6k 1.2× 408 1.1× 405 1.3× 76 0.3× 182 0.9× 134 3.2k
Guoquan Yan China 32 2.4k 1.7× 991 2.8× 461 1.5× 199 0.8× 219 1.0× 136 3.4k
Liang Xue United States 21 1.2k 0.9× 251 0.7× 209 0.7× 139 0.5× 131 0.6× 61 2.2k
Wantao Ying China 27 2.0k 1.4× 798 2.2× 356 1.1× 184 0.7× 170 0.8× 108 2.6k
Feng Guan China 29 1.7k 1.2× 153 0.4× 425 1.4× 192 0.7× 208 1.0× 124 2.4k
Haopeng Xiao United States 25 1.3k 1.0× 338 0.9× 146 0.5× 183 0.7× 186 0.9× 37 2.3k
Mingyang Wang China 27 1.2k 0.8× 179 0.5× 343 1.1× 74 0.3× 163 0.8× 141 2.3k
Søren Skov Jensen Denmark 16 1.7k 1.2× 403 1.1× 440 1.4× 117 0.5× 63 0.3× 17 2.1k
Lih‐Wen Deng Singapore 30 980 0.7× 125 0.3× 127 0.4× 94 0.4× 276 1.3× 52 2.3k
Lilla Turiák Hungary 24 2.2k 1.5× 207 0.6× 823 2.6× 147 0.6× 76 0.4× 76 2.5k

Countries citing papers authored by Jong‐Seo Kim

Since Specialization
Citations

This map shows the geographic impact of Jong‐Seo Kim'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 Jong‐Seo Kim with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Jong‐Seo Kim more than expected).

Fields of papers citing papers by Jong‐Seo Kim

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Jong‐Seo Kim. 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 Jong‐Seo Kim. The network helps show where Jong‐Seo Kim may publish in the future.

Co-authorship network of co-authors of Jong‐Seo Kim

This figure shows the co-authorship network connecting the top 25 collaborators of Jong‐Seo Kim. A scholar is included among the top collaborators of Jong‐Seo Kim 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 Jong‐Seo Kim. Jong‐Seo Kim is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Kim, Minseok, Jong‐Seo Kim, S. H. Ye, et al.. (2025). Strain‐Driven Selective Stabilization of Metastable TiO 2 Phases. Small. 21(45). e05427–e05427.
2.
Choi, Heejin, June‐Hee Park, Eui-Chan Jeon, et al.. (2025). Comprehensive discovery of m6A sites in the human transcriptome at single-molecule resolution. Nature Communications. 17(1). 664–664.
3.
Pack, Seung Pil, et al.. (2025). Aptamer-Guided, Hydrolysis-Resistant Deoxyoxanosine Enables Epitope- and Moiety-Selective Conjugation to Nonengineered Proteins Even in Complex Environments. Journal of the American Chemical Society. 147(11). 9328–9340. 3 indexed citations
4.
Ham, Su Jin, et al.. (2025). Mitochondrial fumarate inhibits Parkin-mediated mitophagy. Molecular Cell. 85(12). 2287–2302.e9. 1 indexed citations
5.
Kim, Jeesoo, et al.. (2024). Proteome-wide Characterization and Pathophysiology Correlation in Non-ischemic Cardiomyopathies. Korean Circulation Journal. 54(8). 468–468. 1 indexed citations
6.
Shin, Sanghee, Song-Yi Lee, Tran Diem Nghi, et al.. (2024). OrthoID: profiling dynamic proteomes through time and space using mutually orthogonal chemical tools. Nature Communications. 15(1). 1851–1851. 10 indexed citations
7.
Choi, Yeon, et al.. (2024). Time-resolved profiling of RNA binding proteins throughout the mRNA life cycle. Molecular Cell. 84(9). 1764–1782.e10. 20 indexed citations
8.
Kim, Jong‐Seo, et al.. (2024). Autophagy-dependent splicing control directs translation toward inflammation during senescence. Developmental Cell. 60(3). 364–378.e7. 4 indexed citations
9.
Kim, Jeesoo, et al.. (2023). In vivo profiling of the Zucchini proximal proteome in the Drosophila ovary. Development. 150(4). 3 indexed citations
10.
Jung, Minkyo, Jeesoo Kim, Wanda Christ, et al.. (2023). Super-resolution proximity labeling reveals anti-viral protein network and its structural changes against SARS-CoV-2 viral proteins. Cell Reports. 42(8). 112835–112835. 14 indexed citations
11.
Kim, Sangtae, et al.. (2021). Photoactivatable ribonucleosides mark base-specific RNA-binding sites. Nature Communications. 12(1). 17 indexed citations
12.
Kwak, Chulhwan, Sanghee Shin, Jong Seok Park, et al.. (2020). Contact-ID, a tool for profiling organelle contact sites, reveals regulatory proteins of mitochondrial-associated membrane formation. Proceedings of the National Academy of Sciences. 117(22). 12109–12120. 127 indexed citations
13.
Kwon, S. Chul, et al.. (2020). Chemical RNA digestion enables robust RNA-binding site mapping at single amino acid resolution. Nature Structural & Molecular Biology. 27(7). 678–682. 32 indexed citations
14.
Kim, Chang Rok, Taichi Noda, Hyun-Kyung Kim, et al.. (2020). PHF7 Modulates BRDT Stability and Histone-to-Protamine Exchange during Spermiogenesis. Cell Reports. 32(4). 107950–107950. 30 indexed citations
15.
Haute, Lindsey Van, Song-Yi Lee, Christopher A. Powell, et al.. (2019). NSUN2 introduces 5-methylcytosines in mammalian mitochondrial tRNAs. Nucleic Acids Research. 47(16). 8720–8733. 116 indexed citations
16.
Lee, Zee-Won, Byoung Sik Kim, Kyung Ku Jang, et al.. (2019). Small-molecule inhibitor of HlyU attenuates virulence of Vibrio species. Scientific Reports. 9(1). 4346–4346. 16 indexed citations
17.
Ko, Eunkyong, Eun Sun Jung, Hyeki Cho, et al.. (2018). PI3Kδ Is a Therapeutic Target in Hepatocellular Carcinoma. Hepatology. 68(6). 2285–2300. 37 indexed citations
18.
Kim, Jong‐Seo, et al.. (2018). Chemoselective Tyrosine Bioconjugation through Sulfate Click Reaction. Chemistry - A European Journal. 24(43). 10948–10952. 40 indexed citations
19.
20.
Kim, Yoosik, Jinah Yeo, Jung Hyun Lee, et al.. (2014). Deletion of Human tarbp2 Reveals Cellular MicroRNA Targets and Cell-Cycle Function of TRBP. Cell Reports. 9(3). 1061–1074. 96 indexed citations

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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