Search

Your search keyword '"Nam, Ki Hyun"' showing total 126 results
Start Over Author "Nam, Ki Hyun" Search Limiters Full Text Publication Year Range Last 3 years
126 results on '"Nam, Ki Hyun"'

1. Regulation of BRCA1 stability through the tandem UBX domains of isoleucyl-tRNA synthetase 1

Author

Chung, Scisung, Kang, Mi-Sun, Alimbetov, Dauren S, Mun, Gil-Im, Yunn, Na-Oh, Kim, Yunjin, Kim, Byung-Gyu, Wie, Minwoo, Lee, Eun A, Ra, Jae Sun, Oh, Jung-Min, Lee, Donghyun, Lee, Keondo, Kim, Jihan, Han, Seung Hyun, Kim, Kyong-Tai, Chung, Wan Kyun, Nam, Ki Hyun, Park, Jaehyun, Lee, ByungHoon, Kim, Sunghoon, Zhao, Weixing, Ryu, Sung Ho, Lee, Yun-Sil, Myung, Kyungjae, and Cho, Yunje

Subjects
Biochemistry and Cell Biology, Biological Sciences, 1.1 Normal biological development and functioning, Underpinning research, Isoleucine-tRNA Ligase, Amino Acyl-tRNA Synthetases, Glutamate-tRNA Ligase, RNA, Transfer
Abstract

Aminoacyl-tRNA synthetases (ARSs) have evolved to acquire various additional domains. These domains allow ARSs to communicate with other cellular proteins in order to promote non-translational functions. Vertebrate cytoplasmic isoleucyl-tRNA synthetases (IARS1s) have an uncharacterized unique domain, UNE-I. Here, we present the crystal structure of the chicken IARS1 UNE-I complexed with glutamyl-tRNA synthetase 1 (EARS1). UNE-I consists of tandem ubiquitin regulatory X (UBX) domains that interact with a distinct hairpin loop on EARS1 and protect its neighboring proteins in the multi-synthetase complex from degradation. Phosphomimetic mutation of the two serine residues in the hairpin loop releases IARS1 from the complex. IARS1 interacts with BRCA1 in the nucleus, regulates its stability by inhibiting ubiquitylation via the UBX domains, and controls DNA repair function.

Published
2022

6. Effects of Radiation Damage on Metal-Binding Sites in Thermolysin.

Author

Nam, Ki Hyun

Abstract

Radiation damage is an inherent problem in macromolecular crystallography because it impairs the diffraction quality of crystals and produces inaccurate structural information. Understanding radiation damage in protein structures is crucial for accurate structural interpretation and effective data collection. This study undertook X-ray data collection and structure determination of thermolysin (TLN), which contains Zn and Ca ions, by using three different X-ray doses to improve our understanding of the radiation damage phenomena on metal ions in proteins. Data processing revealed typical global radiation damage in TLN, such as an increase in unit cell volume, Rmerge value, and Wilson B-factor. An analysis of the B-factor indicated that radiation damage at the Zn and Ca sites in TLN increased with higher X-ray doses. However, the distance between the metal ions and their interacting residues in TLN was not significantly affected, suggesting that radiation damage to the metal ions has a minimal effect on these interactions. Moreover, the increase in the B-factor of the metal ions according to the X-ray dose was similar to that in the B-factor of the residues interacting with the metal ions. These results expand our understanding of radiation damage phenomena in macromolecules and can be used to improve data collection strategies. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

7. Engineering Xylose Isomerase for Industrial Applications.

Author

Nam, Ki Hyun

Subjects
*HIGH-fructose corn syrup, *PROTEIN engineering, *ISOMERASES, *STRUCTURAL engineering, *PROTEIN structure
Abstract

Xylose isomerase (XI), also known as glucose isomerase, is an aldose isomerase that converts D-glucose to D-fructose and D-xylose to D-xylulose. This enzyme is widely used in the production of high-fructose corn syrup and bioethanol. Enhancing the efficiency of XI is critical for its use in industrial applications. To improve the enzymatic efficiency of XI in the desired reaction environment, various protein engineering studies have used rational engineering and directed evolution. This review introduces the molecular features and structural studies of XI. Additionally, it provides a structural analysis of the functional characteristics of the engineering sites discovered through biochemical and computational experiments in engineered XI research. This review will offer crucial insights for future XI engineering aimed at enhancing its industrial applications. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

11. Structural Analysis of the Large Stokes Shift Red Fluorescent Protein tKeima.

Author

Nam, Ki Hyun and Xu, Yongbin

Subjects
*STOKES shift, *REDSHIFT, *HYDROGEN bonding interactions, *FLUORESCENT proteins, *PROTEIN engineering, *FLUORESCENCE spectroscopy
Abstract

The Keima family comprises large Stokes shift fluorescent proteins that are useful for dual-color fluorescence cross-correlation spectroscopy and multicolor imaging. The tKeima is a tetrameric large Stokes shift fluorescent protein and serves as the ancestor fluorescent protein for both dKeima and mKeima. The spectroscopic properties of tKeima have been previously reported; however, its structural basis and molecular properties have not yet been elucidated. In this study, we present the crystallographic results of the large Stokes shift fluorescent protein tKeima. The purified tKeima protein spontaneously crystallized after purification without further crystallization. The crystal structure of tKeima was determined at 3.0 Å resolution, revealing a β-barrel fold containing the Gln-Tyr-Gly chromophores mainly with cis-conformation. The tetrameric interfaces of tKeima were stabilized by numerous hydrogen bonds and salt–bridge interactions. These key residues distinguish the substituted residues in dKeima and mKeima. The key structure-based residues involved in the tetramer formation of tKeima provide insights into the generation of a new type of monomeric mKeima. This structural analysis expands our knowledge of the Keima family and provides insights into its protein engineering. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

18. Improving the Quality of Spontaneously Growing HviGH11 Crystals by Increasing the Viscosity Using Polyethylene Glycols.

Author

Nam, Ki Hyun

Subjects
POLYETHYLENE glycol, XYLANASES, FREE electron lasers, CRYSTALS, CRYSTAL growth, VISCOSITY, X-ray lasers
Abstract

Proteins can form crystals spontaneously without crystallization experiments. These crystals can be used to determine three-dimensional structures. However, when X-ray diffraction is poor, crystal optimization is required to obtain a high-resolution crystal structure. Endo-1,4-β-xylanase from the fungus Hypocrea virens (HviGH11) spontaneously formed microcrystals after affinity purification and concentration; however, most HviGH11 microcrystals showed poor diffraction in the synchrotron X-ray and X-ray free-electron laser, so a complete three-dimensional structure could not be obtained. This study presents a method to improve the crystal quality of spontaneously grown HviGH11 microcrystals. The crystallization screening results revealed that temperature, pH, and salt were not crucial factors in increasing the solubility or preventing the spontaneous crystal growth of HviGH11. Conversely, the addition of polyethylene glycols (PEGs) as a precipitant facilitated the growth of larger HviGH11 crystals. The improved large HviGH11 crystal showed a diffraction of up to 1.95 Å when exposed to synchrotron X-rays, providing a complete three-dimensional structural dataset. Based on the nucleation rate equation, it was suggested that PEG increases the viscosity of the protein solution rather than promoting nucleation. This increase in viscosity reduced nucleation and facilitated the growth of larger HviGH11 crystals. These results provide valuable insights for future experiments aimed at increasing the size of spontaneously grown crystals. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

19. Comparative Analysis of Room Temperature Structures Determined by Macromolecular and Serial Crystallography.

Author

Nam, Ki Hyun

Subjects
CRYSTALLOGRAPHY, MOLECULAR conformation, RADIATION damage, PROTEIN structure, CRYSTAL structure
Abstract

Temperature directly influences the function and structure of proteins. Crystal structures determined at room temperature offer more biologically relevant structural information regarding flexibility, rigidity, and thermal motion than those determined by conventional cryocrystallography. Crystal structures can be determined at room temperature using conventional macromolecular crystallography (MX) or serial crystallography (SX) techniques. Among these, MX may theoretically be affected by radiation damage or X-ray heating, potentially resulting in differences between the room temperature structures determined by MX and SX, but this has not been fully elucidated. In this study, the room temperature structure of xylanase GH11 from Thermoanaerobacterium saccharolyticum was determined by MX (RT-TsaGH11-MX). The RT-TsaGH11-MX exhibited both the open and closed conformations of the substrate-binding cleft within the β-sandwich fold. The RT-TsaGH11-MX showed distinct structural changes and molecular flexibility when compared with the RT-TsaGH11 determined via serial synchrotron crystallography. The notable molecular conformation and flexibility of the RT-TsaGH11-MX may be induced by radiation damage and X-ray heating. These findings will broaden our understanding of the potential limitations of room temperature structures determined by MX. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

27. Structural and Biochemical Analyses of the Butanol Dehydrogenase from Fusobacterium nucleatum

Author

Bai, Xue, primary, Lan, Jing, additional, He, Shanru, additional, Bu, Tingting, additional, Zhang, Jie, additional, Wang, Lulu, additional, Jin, Xiaoling, additional, Mao, Yuanchao, additional, Guan, Wanting, additional, Zhang, Liying, additional, Lu, Ming, additional, Piao, Hailong, additional, Jo, Inseong, additional, Quan, Chunshan, additional, Nam, Ki Hyun, additional, and Xu, Yongbin, additional

Published
2023
Full Text
View/download PDF

30. Structural Basis of the Inhibition of L-Methionine γ-Lyase from Fusobacterium nucleatum

Author

Bu, Tingting, primary, Lan, Jing, additional, Jo, Inseong, additional, Zhang, Jie, additional, Bai, Xue, additional, He, Shanru, additional, Jin, Xiaoling, additional, Wang, Lulu, additional, Jin, Yu, additional, Jin, Xiaoyu, additional, Zhang, Liying, additional, Piao, Hailong, additional, Ha, Nam-Chul, additional, Quan, Chunshan, additional, Nam, Ki Hyun, additional, and Xu, Yongbin, additional

Published
2023
Full Text
View/download PDF

34. Anomaly Detection through Grouping of SMD Machine Sounds Using Hierarchical Clustering.

Author

Song, Young Jong, Nam, Ki Hyun, and Yun, Il Dong

Subjects
HIERARCHICAL clustering (Cluster analysis), ASSEMBLY machines, INTRUSION detection systems (Computer security), PRODUCT attributes, NEW product development
Abstract

Surface-mounted device (SMD) assembly machines refer to production lines that assemble a variety of products that fit their purposes. As the required products become more diverse, models that oversee product anomaly detection are also becoming increasing linearly. In order to efficiently oversee products, the number of models has to be reduced and products with similar characteristics have to be grouped and overseen. In this paper, we show that it is possible to handle a large number of new products using latent vectors obtained from the autoencoder model. By hierarchically clustering latent vectors, the model finds product groups with similar characteristics and oversees them by group. Furthermore, we validate our multi-product operation strategy for anomaly detection with a newly collected SMD dataset. Experimental results show that the anomaly detection method using hierarchical clustering of latent vectors is a practical management method for SMD anomaly detection. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

38. Craspase is a CRISPR RNA-guided, RNA-activated protease

Author

Hu, Chunyi (author), van Beljouw, S.P.B. (author), Nam, Ki Hyun (author), Schuler, Gabriel (author), Rodríguez Molina, A. (author), van Eijkeren-Haagsma, A.C. (author), Valk, M. (author), Pabst, Martin (author), Brouns, S.J.J. (author), Hu, Chunyi (author), van Beljouw, S.P.B. (author), Nam, Ki Hyun (author), Schuler, Gabriel (author), Rodríguez Molina, A. (author), van Eijkeren-Haagsma, A.C. (author), Valk, M. (author), Pabst, Martin (author), and Brouns, S.J.J. (author)

Abstract

The CRISPR-Cas type III-E RNA-targeting effector complex gRAMP/Cas7-11 is associated with a caspase-like protein (TPR-CHAT/Csx29) to form Craspase (CRISPR-guided caspase). Here, we use cryo-electron microscopy snapshots of Craspase to explain its target RNA cleavage and protease activation mechanisms. Target-guide pairing extending into the 5' region of the guide RNA displaces a gating loop in gRAMP, which triggers an extensive conformational relay that allosterically aligns the protease catalytic dyad and opens an amino acid side-chain-binding pocket. We further define Csx30 as the endogenous protein substrate that is site-specifically proteolyzed by RNA-activated Craspase. This protease activity is switched off by target RNA cleavage by gRAMP and is not activated by RNA targets containing a matching protospacer flanking sequence. We thus conclude that Craspase is a target RNA-activated protease with self-regulatory capacity., Green Open Access added to TU Delft Institutional Repository 'You share, we take care!' - Taverne project https://www.openaccess.nl/en/you-share-we-take-care Otherwise as indicated in the copyright section: the publisher is the copyright holder of this work and the author uses the Dutch legislation to make this work public., BN/Stan Brouns Lab, BT/Environmental Biotechnology

Published
2022
Full Text
View/download PDF

39. Fluorescent Protein-Based Metal Biosensors.

Author

Nam, Ki Hyun

Subjects
TRANSITION metal ions, AMINO acid sequence, FLUORESCENCE quenching, FLUORESCENT proteins, COMMODITY futures
Abstract

Fluorescent proteins (FPs) are optical probes that are used to track the functions of genetically encoded target molecules in molecular and cellular biology. FPs have intrinsic photophysical properties generated by the chromophore and its surrounding amino acid sequences. The intensity of the fluorescence emission of FPs can be changed using external factors such as pH or metal ions. Additionally, the fluorescence intensity of FPs can be reduced or quenched using specific transition metal ions, suggesting that they are attractive probes for measuring metal ion levels. A spectroscopical analysis of the metal-induced fluorescence quenching of several FPs revealed that they exhibited intrinsic fluorescence quenching behavior with specific metal ions. The quenchable metal-binding site of FP has been determined using chemical modification, crystal structure, and modeling, providing insights into the molecular mechanism and FP engineering. In this review, studies on the change in the fluorescence activity of FPs mediated by metal ions are comprehensively compared and reviewed, and the requirements for the development of fluorescent protein-based metal biosensors in the future are discussed. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

50. Data of crystal structure of the large Stokes shift fluorescent protein tKeima.

Author

Nam KH and Xu Y

Abstract

Large Stokes shift (LSS) fluorescent proteins (FPs) are important for dual-color fluorescence cross-correlation spectroscopy and multicolor imaging. tKeima is a tetrameric LSS FP from the stony coral Montipora sp. Analyzing the tetrameric interface of tKeima is necessary to understand the oligomeric state of the Keima family and to provide insights into engineering oligomeric FPs to generate monomeric FPs, which are useful for FP-based molecular and cell biology studies. Here, detailed experimental procedures for tKeima were reported, including spontaneous crystal growth, data collection for X-ray diffraction, and structure determination. This information can be used for future experiments to obtain the high-resolution structure of tKeima, providing accurate structural information to comprehensively understand the molecular function of tKeima and the protein engineering of tetrameric FPs., (© 2024 The Authors.)

Published
2024
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results