Yeon‐Gil Kim

2.0k total citations
41 papers, 1.3k citations indexed

About

Yeon‐Gil Kim is a scholar working on Molecular Biology, Materials Chemistry and Cell Biology. According to data from OpenAlex, Yeon‐Gil Kim has authored 41 papers receiving a total of 1.3k indexed citations (citations by other indexed papers that have themselves been cited), including 30 papers in Molecular Biology, 14 papers in Materials Chemistry and 4 papers in Cell Biology. Recurrent topics in Yeon‐Gil Kim's work include Enzyme Structure and Function (14 papers), Biochemical and Molecular Research (6 papers) and RNA and protein synthesis mechanisms (4 papers). Yeon‐Gil Kim is often cited by papers focused on Enzyme Structure and Function (14 papers), Biochemical and Molecular Research (6 papers) and RNA and protein synthesis mechanisms (4 papers). Yeon‐Gil Kim collaborates with scholars based in South Korea, United States and Japan. Yeon‐Gil Kim's co-authors include Byung‐Ha Oh, Jae‐Hee Jeong, Kyung‐Jin Kim, Michael Sacher, Ho‐Chul Shin, Frank Bürmann, Young‐Min Soh, Stephan Gruber, Young Mi Kim and Do‐Hyung Kim and has published in prestigious journals such as Cell, Proceedings of the National Academy of Sciences and Nucleic Acids Research.

In The Last Decade

Yeon‐Gil Kim

41 papers receiving 1.3k citations

Peers

Yeon‐Gil Kim
Agnieszka Mateja United States
Peter Sheffield United States
Justyna Sawa‐Makarska Austria
Françoise Schwager Switzerland
Tohru Yoshihisa Japan
Panayiotis O. Vacratsis Canada
Feras Hatahet Finland
Phil Hieter Canada
Yong‐In Kim South Korea
Jack Coleman United States
Agnieszka Mateja United States
Yeon‐Gil Kim
Citations per year, relative to Yeon‐Gil Kim Yeon‐Gil Kim (= 1×) peers Agnieszka Mateja

Countries citing papers authored by Yeon‐Gil Kim

Since Specialization
Citations

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

Fields of papers citing papers by Yeon‐Gil Kim

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

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

Co-authorship network of co-authors of Yeon‐Gil Kim

This figure shows the co-authorship network connecting the top 25 collaborators of Yeon‐Gil Kim. A scholar is included among the top collaborators of Yeon‐Gil 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 Yeon‐Gil Kim. Yeon‐Gil 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, Hyo Jung, et al.. (2022). Structural basis of DNA binding by the NAC transcription factor ORE1, a master regulator of plant senescence. Plant Communications. 4(3). 100510–100510. 22 indexed citations
2.
Kim, Jin Hong, Jangwoo Kim, Jun Lim, et al.. (2021). BL-11C Micro-MX: a high-flux microfocus macromolecular-crystallography beamline for micrometre-sized protein crystals at Pohang Light Source II. Journal of Synchrotron Radiation. 28(4). 1210–1215. 18 indexed citations
3.
Lee, Han-Sol, et al.. (2020). Evidence for binary Smc complexes lacking kite subunits in archaea. IUCrJ. 7(2). 193–206. 3 indexed citations
4.
Lee, So Yeon, et al.. (2020). A 1.3 Å high-resolution crystal structure of an anti-CRISPR protein, AcrI E2. Biochemical and Biophysical Research Communications. 533(4). 751–757. 12 indexed citations
5.
Kwak, Mi‐Jeong, J. Dongun Kim, Hyunmin Kim, et al.. (2017). Architecture of the type IV coupling protein complex of Legionella pneumophila. Nature Microbiology. 2(9). 17114–17114. 55 indexed citations
6.
Sohn, Y. S., Seonggyu Lee, Kwang-Hoon Lee, et al.. (2016). Identification of a Highly Conserved Hypothetical Protein TON_0340 as a Probable Manganese-Dependent Phosphatase. PLoS ONE. 11(12). e0167549–e0167549. 1 indexed citations
7.
Cho, Ha Yeon, Hyo Je Cho, Jeong Min Chung, et al.. (2015). Assembly of Multi-tRNA Synthetase Complex via Heterotetrameric Glutathione Transferase-homology Domains. Journal of Biological Chemistry. 290(49). 29313–29328. 51 indexed citations
8.
Jin, Hyung, Jae‐Hee Jeong, & Yeon‐Gil Kim. (2014). Crystallization and preliminary X-ray crystallographic analysis of PBPD2 fromListeria monocytogenes. Acta Crystallographica Section F Structural Biology Communications. 70(4). 535–537. 1 indexed citations
9.
Jin, Hyung, Jae‐Hee Jeong, Catleya Rojviriya, & Yeon‐Gil Kim. (2014). Structure of Putrescine Aminotransferase from Escherichia coli Provides Insights into the Substrate Specificity among Class III Aminotransferases. PLoS ONE. 9(11). e113212–e113212. 20 indexed citations
10.
Jeong, Jae‐Hee, et al.. (2014). Structural insights into the histidine trimethylation activity of EgtD from Mycobacterium smegmatis. Biochemical and Biophysical Research Communications. 452(4). 1098–1103. 26 indexed citations
11.
Soh, Young‐Min, Frank Bürmann, Ho‐Chul Shin, et al.. (2014). Molecular Basis for SMC Rod Formation and Its Dissolution upon DNA Binding. Molecular Cell. 57(2). 290–303. 107 indexed citations
12.
Kim, Young Mi, Matthew D. Stone, Tae Hyun Hwang, et al.. (2012). SH3BP4 Is a Negative Regulator of Amino Acid-Rag GTPase-mTORC1 Signaling. Molecular Cell. 46(6). 833–846. 69 indexed citations
13.
Piao, Shunfu, Yeon‐Gil Kim, Hyung Ryong Moon, et al.. (2011). Crystallization and preliminary X-ray crystallographic analysis ofSalmonellaTyphimurium CueP. Acta Crystallographica Section F Structural Biology and Crystallization Communications. 67(6). 675–677. 9 indexed citations
14.
Kang, Beom Sik, Yeon‐Gil Kim, Jae‐Woo Ahn, & Kyung‐Jin Kim. (2010). Crystal structure of dihydrodipicolinate synthase from Hahella chejuensis at 1.5 Å resolution. International Journal of Biological Macromolecules. 46(5). 512–516. 9 indexed citations
15.
Ahn, Jae‐Woo, Yeon‐Gil Kim, & Kyung‐Jin Kim. (2010). Crystal structure of non-redox regulated SSADH from Escherichia coli. Biochemical and Biophysical Research Communications. 392(1). 106–111. 13 indexed citations
16.
Cha, Sun‐Shin, Young Jun An, Hyun Sook Lee, et al.. (2010). Crystal structure of Lon protease: molecular architecture of gated entry to a sequestered degradation chamber. The EMBO Journal. 29(20). 3520–3530. 75 indexed citations
17.
Kim, Yeon‐Gil, et al.. (2009). Redox‐switch modulation of human SSADH by dynamic catalytic loop. The EMBO Journal. 28(7). 959–968. 79 indexed citations
18.
Lee, Dong‐Won, et al.. (2009). Structural insights into the dual nucleotide exchange and GDI displacement activity of SidM/DrrA. The EMBO Journal. 29(2). 496–504. 60 indexed citations
19.
Kim, Yeon‐Gil, Stefan Raunser, Christine Munger, et al.. (2006). The Architecture of the Multisubunit TRAPP I Complex Suggests a Model for Vesicle Tethering. Cell. 127(4). 817–830. 145 indexed citations
20.
Kim, Yeon‐Gil, Eun Ju Sohn, Kong‐Joo Lee, et al.. (2004). Crystal structure of bet3 reveals a novel mechanism for Golgi localization of tethering factor TRAPP. Nature Structural & Molecular Biology. 12(1). 38–45. 52 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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