Your search keyword '"Nam, Ki Hyun"' showing total 10 results

1. Characterization and structural analysis of the endo-1,4-β-xylanase GH11 from the hemicellulose-degrading Thermoanaerobacterium saccharolyticum useful for lignocellulose saccharification.

Author

Kim, In Jung, Kim, Soo Rin, Kim, Kyoung Heon, Bornscheuer, Uwe T., and Nam, Ki Hyun

Subjects

XYLANS, XYLANASES, LIGNOCELLULOSE, ELECTRON density, CRYSTAL structure, OLIGOSACCHARIDES, FUNCTIONAL analysis

Abstract

Xylanases are important for the enzymatic breakdown of lignocellulose-based biomass to produce biofuels and other value-added products. We report functional and structural analyses of TsaGH11, an endo-1,4-β-xylanase from the hemicellulose-degrading bacterium, Thermoanaerobacterium saccharolyticum. TsaGH11 was shown to be a thermophilic enzyme that favors acidic conditions with maximum activity at pH 5.0 and 70 °C. It decomposes xylans from beechwood and oat spelts to xylose-containing oligosaccharides with specific activities of 5622.0 and 3959.3 U mg−1, respectively. The kinetic parameters, Km and kcat towards beechwood xylan, are 12.9 mg mL−1 and 34,015.3 s−1, respectively, resulting in kcat/Km value of 2658.7 mL mg−1 s−1, higher by 102–103 orders of magnitude compared to other reported GH11s investigated with the same substrate, demonstrating its superior catalytic performance. Crystal structures of TsaGH11 revealed a β-jelly roll fold, exhibiting open and close conformations of the substrate-binding site by distinct conformational flexibility to the thumb region of TsaGH11. In the room-temperature structure of TsaGH11 determined by serial synchrotron crystallography, the electron density map of the thumb domain of the TsaGH11 molecule, which does not affect crystal packing, is disordered, indicating that the thumb domain of TsaGH11 has high structural flexibility at room temperature, with the water molecules in the substrate-binding cleft being more disordered than those in the cryogenic structure. These results expand our knowledge of GH11 structural flexibility at room temperature and pave the way for its application in industrial biomass degradation. [ABSTRACT FROM AUTHOR]

Published

2023

2. Beef tallow injection matrix for serial crystallography.

Author

Nam, Ki Hyun

Subjects

*WATER temperature, *CRYSTALLOGRAPHY, *HEAT treatment, *MOLECULAR dynamics, *STREAMFLOW, *LYSOZYMES, *MACROMOLECULAR dynamics

Abstract

Serial crystallography (SX) enables the visualization of the time-resolved molecular dynamics of macromolecular structures at room temperature while minimizing radiation damage. In SX experiments, the delivery of a large number of crystals into an X-ray interaction point in a serial and stable manner is key. Sample delivery using viscous medium maintains the stable injection stream at low flow rates, markedly reducing sample consumption compared with that of a liquid jet injector and is widely applied in SX experiments with low repetition rates. As the sample properties and experimental environment can affect the stability of the injection stream of a viscous medium, it is important to develop sample delivery media with various characteristics to optimize the experimental environment. In this study, a beef tallow injection matrix possessing a higher melting temperature than previously reported fat-based shortening and lard media was introduced as a sample delivery medium and applied to SX. Beef tallow was prepared by heat treating fats from cattle, followed by the removal of soluble impurities from the extract by phase separation. Beef tallow exhibited a very stable injection stream at room temperature and a flow rate of < 10 nL/min. The room-temperature structures of lysozyme and glucose isomerase embedded in beef tallow were successfully determined at 1.55 and 1.60 Å, respectively. The background scattering of beef tallow was higher than that of previously reported fat-based shortening and lard media but negligible for data processing. In conclusion, the beef tallow matrix can be employed for sample delivery in SX experiments conducted at temperatures exceeding room temperature. [ABSTRACT FROM AUTHOR]

Published

2022

3. Mechanism for Cas4-assisted directional spacer acquisition in CRISPR–Cas.

Author

Hu, Chunyi, Almendros, Cristóbal, Nam, Ki Hyun, Costa, Ana Rita, Vink, Jochem N. A., Haagsma, Anna C., Bagde, Saket R., Brouns, Stan J. J., and Ke, Ailong

Abstract

Prokaryotes adapt to challenges from mobile genetic elements by integrating spacers derived from foreign DNA in the CRISPR array1. Spacer insertion is carried out by the Cas1–Cas2 integrase complex2–4. A substantial fraction of CRISPR–Cas systems use a Fe–S cluster containing Cas4 nuclease to ensure that spacers are acquired from DNA flanked by a protospacer adjacent motif (PAM)5,6 and inserted into the CRISPR array unidirectionally, so that the transcribed CRISPR RNA can guide target searching in a PAM-dependent manner. Here we provide a high-resolution mechanistic explanation for the Cas4-assisted PAM selection, spacer biogenesis and directional integration by type I-G CRISPR in Geobacter sulfurreducens, in which Cas4 is naturally fused with Cas1, forming Cas4/Cas1. During biogenesis, only DNA duplexes possessing a PAM-embedded 3′-overhang trigger Cas4/Cas1–Cas2 assembly. During this process, the PAM overhang is specifically recognized and sequestered, but is not cleaved by Cas4. This ‘molecular constipation’ prevents the PAM-side prespacer from participating in integration. Lacking such sequestration, the non-PAM overhang is trimmed by host nucleases and integrated to the leader-side CRISPR repeat. Half-integration subsequently triggers PAM cleavage and Cas4 dissociation, allowing spacer-side integration. Overall, the intricate molecular interaction between Cas4 and Cas1–Cas2 selects PAM-containing prespacers for integration and couples the timing of PAM processing with the stepwise integration to establish directionality.Structures of the Cas4–Cas1–Cas2 complex from Geobacter sulfurreducens show that a 3′-overhang in the protospacer adjacent motif is required for complex assembly and spacer insertion into the CRISPR array. [ABSTRACT FROM AUTHOR]

Published

2021

4. Functional and structural analysis of catabolite control protein C that responds to citrate.

Author

Liu, Wei, Chen, Jinli, Jin, Liming, Liu, Zi-Yong, Lu, Ming, Jiang, Ge, Yang, Qing, Quan, Chunshan, Nam, Ki Hyun, and Xu, Yongbin

Subjects

PROTEIN C, FUNCTIONAL analysis, MOLECULAR rotation, CITRATES, BACILLUS amyloliquefaciens, TRICARBOXYLIC acids

Abstract

Catabolite control protein C (CcpC) belongs to the LysR-type transcriptional regulator (LTTR) family, which regulates the transcription of genes encoding the tricarboxylic acid branch enzymes of the TCA cycle by responding to a pathway-specific metabolite, citrate. The biological function of CcpC has been characterized several times, but the structural basis for the molecular function of CcpC remains elusive. Here, we report the characterization of a full-length CcpC from Bacillus amyloliquefaciens (BaCcpC-FL) and a crystal structure of the C-terminal inducer-binding domain (IBD) complexed with citrate. BaCcpC required both dyad symmetric regions I and II to recognize the citB promoter, and the presence of citrate reduced citB promoter binding. The crystal structure of CcpC-IBD shows two subdomains, IBD-I and IBD-II, and a citrate molecule buried between them. Ile100, two arginines (Arg147 and Arg260), and three serines (Ser129, Ser189, and Ser191) exhibit strong hydrogen-bond interactions with citrate molecules. A structural comparison of BaCcpC-IBD with its homologues showed that they share the same tail-to-tail dimer alignment, but the dimeric interface and the rotation between these molecules exhibit significant differences. Taken together, our results provide a framework for understanding the mechanism underlying the functional divergence of the CcpC protein. [ABSTRACT FROM AUTHOR]

Published

2021

5. Polyimide mesh-based sample holder with irregular crystal mounting holes for fixed-target serial crystallography.

Author

Nam, Ki Hyun, Kim, Jihan, and Cho, Yunje

Subjects

*POLYIMIDES, *CRYSTALLOGRAPHY, *MACROMOLECULES, *MOLECULAR dynamics, *ACQUISITION of data

Abstract

The serial crystallography (SX) technique enables the determination of the room-temperature structure of a macromolecule while causing minimal radiation damage, as well as the visualization of the molecular dynamics by time-resolved studies. The fixed-target (FT) scanning approach is one method for SX sample delivery that minimizes sample consumption and minimizes physical damage to crystals during data collection. Settling of the crystals on the sample holder in random orientation is important for complete three dimensional data collection. To increase the random orientation of crystals on the sample holder, we developed a polyimide mesh-based sample holder with irregular crystal mounting holes for FT-SX. The polyimide mesh was fabricated using a picosecond laser. Each hole in the polyimide mesh has irregularly shaped holes because of laser thermal damage, which may cause more crystals to settle at random orientations compared to regular shaped sample holders. A crystal sample was spread onto a polyimide-mesh, and a polyimide film was added to both sides to prevent dehydration. Using this sample holder, FT-SX was performed at synchrotron and determined the room-temperature lysozyme structure at 1.65 Å. The polyimide mesh with irregularly shaped holes will allow for expanded applications in sample delivery for FT-SX experiments. [ABSTRACT FROM AUTHOR]

Published

2021

6. Shortening injection matrix for serial crystallography.

Author

Nam, Ki Hyun

Subjects

*CRYSTALLOGRAPHY, *CRYSTAL structure, *HYDROPHOBIC interactions, *INFORMATION storage & retrieval systems, *GLUCOSE isomerase

Abstract

Serial crystallography allows crystal structures to be determined at room temperature through the steady delivery of crystals to the X-ray interaction point. Viscous delivery media are advantageous because they afford efficient sample delivery from an injector or syringe at a low flow rate. Hydrophobic delivery media, such as lipidic cubic phase (LCP) or grease, provide a stable injection stream and are widely used. The development of new hydrophobic delivery materials can expand opportunities for future SX studies with various samples. Here, I introduce fat-based shortening as a delivery medium for SX experiments. This material is commercially available at low cost and is straightforward to handle because its phase (i.e., solid or liquid) can be controlled by temperature. Shortening was extruded from a syringe needle in a stable injection stream even below 200 nl/min. X-ray exposed shortening produced several background scattering rings, which have similar or lower intensities than those of LCP and contribute negligibly to data processing. Serial millisecond crystallography was performed using two shortening delivery media, and the room temperature crystal structures of lysozyme and glucose isomerase were successfully determined at resolutions of 1.5–2.0 Å. Therefore, shortening can be used as a sample delivery medium in SX experiments. [ABSTRACT FROM AUTHOR]

Published

2020

7. Current status of the CXI beamline at the PAL-XFEL.

Author

Park, Jaehyun, Kim, Sangsoo, Nam, Ki-Hyun, Kim, Bongsoo, and Ko, In

Published

2016

8. Structures of CRISPR Cas3 offer mechanistic insights into Cascade-activated DNA unwinding and degradation.

Author

Huo, Yanwu, Nam, Ki Hyun, Ding, Fang, Lee, Heejin, Wu, Lijie, Xiao, Yibei, Farchione, M Daniel, Zhou, Sharleen, Rajashankar, Kanagalaghatta, Kurinov, Igor, Zhang, Rongguang, and Ke, Ailong

Subjects

*CRISPRS, *DNA, *PLASMIDS, *CRYSTAL structure, *PROTEINS

Abstract

CRISPR drives prokaryotic adaptation to invasive nucleic acids such as phages and plasmids, using an RNA-mediated interference mechanism. Interference in type I CRISPR-Cas systems requires a targeting Cascade complex and a degradation machine, Cas3, which contains both nuclease and helicase activities. Here we report the crystal structures of Thermobifida fusca Cas3 bound to single-stranded (ss) DNA substrate and show that it is an obligate 3′-to-5′ ssDNase that preferentially accepts substrate directly from the helicase moiety. Conserved residues in the HD-type nuclease coordinate two irons for ssDNA cleavage. We demonstrate ATP coordination and conformational flexibility of the SF2-type helicase domain. Cas3 is specifically guided toward Cascade-bound target DNA by a PAM sequence, through physical interactions with both the nontarget substrate strand and the CasA protein. The sequence of recognition events ensures well-controlled DNA targeting and degradation of foreign DNA by Cascade and Cas3. [ABSTRACT FROM AUTHOR]

Published

2014

9. Nylon mesh-based sample holder for fixed-target serial femtosecond crystallography.

Author

Lee, Donghyeon, Baek, Sangwon, Park, Jaehyun, Lee, Keondo, Kim, Jangwoo, Lee, Sang Jae, Chung, Wan Kyun, Lee, Jong-Lam, Cho, Yunje, and Nam, Ki Hyun

Abstract

Fixed-target serial femtosecond crystallography (FT-SFX) was an important advance in crystallography by dramatically reducing sample consumption, while maintaining the benefits of SFX for obtaining crystal structures at room temperature without radiation damage. Despite a number of advantages, preparation of a sample holder for the sample delivery in FT-SFX with the use of many crystals in a single mount at ambient temperature is challenging as it can be complicated and costly, and thus, development of an efficient sample holder is essential. In this study, we introduced a nylon mesh-based sample holder enclosed by a polyimide film. This sample holder can be rapidly manufactured using a commercially available nylon mesh with pores of a desired size at a low cost without challenging technology. Furthermore, this simple device is highly efficient in data acquisition. We performed FT-SFX using a nylon mesh-based sample holder and collected over 130,000 images on a single sample holder using a 30 Hz X-ray pulse for 1.2 h. We determined the crystal structures of lysozyme and glucose isomerase using the nylon mesh at 1.65 and 1.75 Å, respectively. The nylon mesh exposed to X-rays produced very low levels of background scattering at 3.75 and 4.30 Å, which are negligible for data analysis. Our method provides a simple and rapid but highly efficient way to deliver samples for FT-SFX. [ABSTRACT FROM AUTHOR]

Published

2019

10. Polyacrylamide injection matrix for serial femtosecond crystallography.

Author

Park, Jaehyun, Park, Sehan, Kim, Jangwoo, Park, Gisu, Cho, Yunje, and Nam, Ki Hyun

Abstract

Serial femtosecond crystallography (SFX) provides opportunities to observe the dynamics of macromolecules without causing radiation damage at room temperature. Although SFX provides a biologically more reliable crystal structure than provided by the existing synchrotron sources, there are limitations due to the consumption of many crystal samples. A viscous medium as a carrier matrix reduces the flow rate of the crystal sample from the injector, thereby dramatically reducing sample consumption. However, the currently available media cannot be applied to specific crystal samples owing to reactions between the viscous medium and crystal sample. The discovery and characterisation of a new delivery medium for SFX can further expand its use. Herein, we report the preparation of a polyacrylamide (PAM) injection matrix to determine the crystal structure with an X-ray free-electron laser. We obtained 11,936 and 22,213 indexed images using 0.5 mg lysozyme and 1.0 mg thermolysin, respectively. We determined the crystal structures of lysozyme and thermolysin delivered in PAM at 1.7 Å and 1.8 Å resolutions. The maximum background scattering from PAM was lower than monoolein, a commonly used viscous medium. Our results show that PAM can be used as a sample delivery media in SFX studies. [ABSTRACT FROM AUTHOR]

Published

2019