Your search keyword '"Sangsoo Kim"' showing total 368 results

1. UV photochemistry of the L-cystine disulfide bridge in aqueous solution investigated by femtosecond X-ray absorption spectroscopy

Author

Miguel Ochmann, Jessica Harich, Rory Ma, Antonia Freibert, Yujin Kim, Madhusudana Gopannagari, Da Hye Hong, Daewoong Nam, Sangsoo Kim, Minseok Kim, Intae Eom, Jae Hyuk Lee, Briony A. Yorke, Tae Kyu Kim, and Nils Huse

Subjects

Science

Abstract

Abstract The photolysis of disulfide bonds is implicated in denaturation of proteins exposed to ultraviolet light. Despite this biological relevance in stabilizing the structure of many proteins, the mechanisms of disulfide photolysis are still contested after decades of research. Herein, we report new insight into the photochemistry of L-cystine in aqueous solution by femtosecond X-ray absorption spectroscopy at the sulfur K-edge. We observe homolytic bond cleavage upon ultraviolet irradiation and the formation of thiyl radicals as the single primary photoproduct. Ultrafast thiyl decay due to geminate recombination proceeds at a quantum yield of >80 % within 20 ps. These dynamics coincide with the emergence of a secondary product, attributed to the generation of perthiyl radicals. From these findings, we suggest a mechanism of perthiyl radical generation from a vibrationally excited parent molecule that asymmetrically fragments along a carbon-sulfur bond. Our results point toward a dynamic photostability of the disulfide bridge in condensed-phase.

Published

2024

2. Prognostic factors for thyroid-stimulating immunoglobulin normalization in moderate-to-severe Graves’ orbitopathy: a 36-month longitudinal study

Author

Jungyul Park, Yubin Son, Jinmi Kim, Sangsoo Kim, and Hee-young Choi

Subjects

Graves’ orbitopathy, Thyroid-stimulating immunoglobulin, Thyroid-stimulating hormone receptor antibody, Longitudinal study, Success rate, Ophthalmology, RE1-994

Abstract

Abstract Purpose The primary objective of this study was to identify predictive factors linked to the normalization of thyroid-stimulating immunoglobulin (TSI) levels in patients diagnosed with active, moderate-to-severe Graves’ orbitopathy (GO). The study also tracked the longitudinal changes in TSI levels over a 36-month period following treatment. Methods The study population consisted of individuals who were recently diagnosed with active, moderate-to-severe GO and received a 12-week course of intravenous methylprednisolone (IVMP) treatment. A subgroup of patients who did not respond to the initial treatment received an additional 20 Gy of radiation therapy (RTx). TSI levels were monitored at the time of diagnosis, after treatment, and subsequently every 6 months for 36 months. Normalization was defined as a TSI level below 140%. Patients were divdied into two groups with success and failure group depending on whether TSI became normal or not. Results Out of 83 patients, 36 (43.4%) achieved normalized TSI levels within two years post-IVMP treatment. Lower initial TSI levels (

Published

2024

3. Development of the multiplex imaging chamber at PAL-XFEL

Author

Junha Hwang, Sejin Kim, Sung Yun Lee, Eunyoung Park, Jaeyong Shin, Jae Hyuk Lee, Myong-jin Kim, Seonghan Kim, Sang-Youn Park, Dogeun Jang, Intae Eom, Sangsoo Kim, Changyong Song, Kyung Sook Kim, and Daewoong Nam

Subjects

coherent diffraction imaging, wide-angle x-ray diffraction, x-ray emission spectroscopy, xfels, ultrafast dynamics, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798, Crystallography, QD901-999

Abstract

Various X-ray techniques are employed to investigate specimens in diverse fields. Generally, scattering and absorption/emission processes occur due to the interaction of X-rays with matter. The output signals from these processes contain structural information and the electronic structure of specimens, respectively. The combination of complementary X-ray techniques improves the understanding of complex systems holistically. In this context, we introduce a multiplex imaging instrument that can collect small-/wide-angle X-ray diffraction and X-ray emission spectra simultaneously to investigate morphological information with nanoscale resolution, crystal arrangement at the atomic scale and the electronic structure of specimens.

Published

2024

4. Emergence of liquid following laser melting of gold thin films

Author

Ian K. Robinson, Jack P. Griffiths, Robert Koch, Tadesse A. Assefa, Ana F. Suzana, Yue Cao, Sungwon Kim, Dongjin Kim, Heemin Lee, Sunam Kim, Jae Hyuk Lee, Sang-Youn Park, Intae Eom, JaeHyun Park, Daewoong Nam, Sangsoo Kim, Sae Hwan Chun, Hyojung Hyun, Kyung-Sook Kim, Ming Lu, Changyong Song, Hyunjung Kim, Simon J. L. Billinge, and Emil S. Bozin

Subjects

ultrafast x-ray diffraction, laser melting, pair distribution functions, inhomogeneous melting, liquid structure factors, Crystallography, QD901-999

Abstract

X-ray structural science is undergoing a revolution driven by the emergence of X-ray Free-electron Laser (XFEL) facilities. The structures of crystalline solids can now be studied on the picosecond time scale relevant to phonons, atomic vibrations which travel at acoustic velocities. In the work presented here, X-ray diffuse scattering is employed to characterize the time dependence of the liquid phase emerging from femtosecond laser-induced melting of polycrystalline gold thin films using an XFEL. In a previous analysis of Bragg peak profiles, we showed the supersonic disappearance of the solid phase and presented a model of pumped hot electrons carrying energy from the gold surface to scatter at internal grain boundaries. This generates melt fronts propagating relatively slowly into the crystal grains. By conversion of diffuse scattering to a partial X-ray pair distribution function, we demonstrate that it has the characteristic shape obtained by Fourier transformation of the measured F(Q). The diffuse signal fraction increases with a characteristic rise-time of 13 ps, roughly independent of the incident pump fluence and consequent final liquid fraction. This suggests the role of further melt-front nucleation processes beyond grain boundaries.

Published

2023

5. Simultaneous bright- and dark-field X-ray microscopy at X-ray free electron lasers

Author

Leora E. Dresselhaus-Marais, Bernard Kozioziemski, Theodor S. Holstad, Trygve Magnus Ræder, Matthew Seaberg, Daewoong Nam, Sangsoo Kim, Sean Breckling, Sungwook Choi, Matthieu Chollet, Philip K. Cook, Eric Folsom, Eric Galtier, Arnulfo Gonzalez, Tais Gorkhover, Serge Guillet, Kristoffer Haldrup, Marylesa Howard, Kento Katagiri, Seonghan Kim, Sunam Kim, Sungwon Kim, Hyunjung Kim, Erik Bergbäck Knudsen, Stephan Kuschel, Hae Ja Lee, Chuanlong Lin, R. Stewart McWilliams, Bob Nagler, Martin Meedom Nielsen, Norimasa Ozaki, Dayeeta Pal, Ricardo Pablo Pedro, Alison M. Saunders, Frank Schoofs, Toshimori Sekine, Hugh Simons, Tim van Driel, Bihan Wang, Wenge Yang, Can Yildirim, Henning Friis Poulsen, and Jon H. Eggert

Subjects

Medicine, Science

Abstract

Abstract The structures, strain fields, and defect distributions in solid materials underlie the mechanical and physical properties across numerous applications. Many modern microstructural microscopy tools characterize crystal grains, domains and defects required to map lattice distortions or deformation, but are limited to studies of the (near) surface. Generally speaking, such tools cannot probe the structural dynamics in a way that is representative of bulk behavior. Synchrotron X-ray diffraction based imaging has long mapped the deeply embedded structural elements, and with enhanced resolution, dark field X-ray microscopy (DFXM) can now map those features with the requisite nm-resolution. However, these techniques still suffer from the required integration times due to limitations from the source and optics. This work extends DFXM to X-ray free electron lasers, showing how the $$10^{12}$$ 10 12 photons per pulse available at these sources offer structural characterization down to 100 fs resolution (orders of magnitude faster than current synchrotron images). We introduce the XFEL DFXM setup with simultaneous bright field microscopy to probe density changes within the same volume. This work presents a comprehensive guide to the multi-modal ultrafast high-resolution X-ray microscope that we constructed and tested at two XFELs, and shows initial data demonstrating two timing strategies to study associated reversible or irreversible lattice dynamics.

Published

2023

6. Statistical analysis of hard X-ray radiation at the PAL-XFEL facility performed by Hanbury Brown and Twiss interferometry

Author

Young Yong Kim, Ruslan Khubbutdinov, Jerome Carnis, Sangsoo Kim, Daewoong Nam, Inhyuk Nam, Gyujin Kim, Chi Hyun Shim, Haeryong Yang, Myunghoon Cho, Chang-Ki Min, Changbum Kim, Heung-Sik Kang, and Ivan A. Vartanyants

Subjects

hanbury brown and twiss interferometry, second-order correlation functions, x-ray free-electron lasers, statistical properties, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798, Crystallography, QD901-999

Abstract

A Hanbury Brown and Twiss interferometry experiment based on second-order correlations was performed at the PAL-XFEL facility. The statistical properties of the X-ray radiation were studied within this experiment. Measurements were performed at the NCI beamline at 10 keV photon energy under various operation conditions: self-amplified spontaneous emission (SASE), SASE with a monochromator, and self-seeding regimes at 120 pC, 180 pC and 200 pC electron bunch charge. Statistical analysis showed short average pulse duration from 6 fs to 9 fs depending on the operational conditions. A high spatial degree of coherence of about 70–80% was determined in the spatial domain for the SASE beams with the monochromator and self-seeding regime of operation. The obtained values describe the statistical properties of the beams generated at the PAL-XFEL facility.

Published

2022

7. Additive effect of probiotics (Mutaflor) on 5-aminosalicylic acid therapy in patients with ulcerative colitis

Author

Soo-Kyung Park, Sang-Bum Kang, SangSoo Kim, Tae Oh Kim, Jae Myung Cha, Jong Pil Im, Chang Hwan Choi, Eun Soo Kim, Geom Seog Seo, Chang Soo Eun, Dong Soo Han, and Dong Il Park

Subjects

escherichia coli nissle 1917, colitis, ulcerative, quality of life, Medicine

Abstract

Background/Aims In ulcerative colitis (UC) patients, Escherichia coli Nissle 1917 (EcN) is equivalent to mesalazine for preventing disease relapse; however, evidence of the ability of EcN to increase health-related quality of life or induce remission remains scarce. We investigated the efficacy of EcN as an add-on therapy for UC. Methods In this multicentre, double-blind, randomised, placebo-controlled study, a total of 133 UC patients were randomly assigned to receive either EcN or placebo once daily for 8 weeks. Inflammatory bowel disease questionnaire (IBDQ) scores (primary endpoint) and clinical remission and response rates (secondary endpoints) were compared (Clinical trial registration number: NCT04969679). Results In total, 118 patients (EcN, 58; placebo, 60) completed the study. The number of patients reaching the primary endpoint did not differ between the EcN and placebo groups (30 [51.7%] vs. 31 [51.7%]; per-protocol analysis, p = 1.0; intention-to-treat analysis, p = 0.86). However, significantly fewer patients in the EcN group exhibited a decreased IBDQ score (1 [1.7%] vs. 8 [13.3%]; per-protocol analysis, p = 0.03; intention-to-treat analysis, p = 0.02). Moreover, a significantly higher number of patients in the EcN group displayed clinical response at 4 weeks (23 [39.7%] vs. 13 [21.7%], p = 0.04) and endoscopic remission at 8 weeks (26 [46.4%] vs. 16 [27.1%], p = 0.03). Conclusions Although the number of patients reaching the primary endpoint did not differ between the EcN and placebo groups, EcN was found to be safe and effective in preventing the exacerbation of IBDQ scores and achieving clinical responses and endoscopic remission in patients with mild-to-moderate UC.

Published

2022

8. A Machine Learning-Based Diagnostic Model for Crohn’s Disease and Ulcerative Colitis Utilizing Fecal Microbiome Analysis

Author

Hyeonwoo Kim, Ji Eun Na, Sangsoo Kim, Tae-Oh Kim, Soo-Kyung Park, Chil-Woo Lee, Kyeong Ok Kim, Geom-Seog Seo, Min Suk Kim, Jae Myung Cha, Ja Seol Koo, and Dong-Il Park

Subjects

inflammatory bowel disease, Crohn’s disease, ulcerative colitis, fecal microbiome, sparse partial least squares discriminant analysis, machine learning, Biology (General), QH301-705.5

Abstract

Recent research has demonstrated the potential of fecal microbiome analysis using machine learning (ML) in the diagnosis of inflammatory bowel disease (IBD), mainly Crohn’s disease (CD) and ulcerative colitis (UC). This study employed the sparse partial least squares discriminant analysis (sPLS-DA) ML technique to develop a robust prediction model for distinguishing among CD, UC, and healthy controls (HCs) based on fecal microbiome data. Using data from multicenter cohorts, we conducted 16S rRNA gene sequencing of fecal samples from patients with CD (n = 671) and UC (n = 114) while forming an HC cohort of 1462 individuals from the Kangbuk Samsung Hospital Healthcare Screening Center. A streamlined pipeline based on HmmUFOTU was used. After a series of filtering steps, 1517 phylotypes and 1846 samples were retained for subsequent analysis. After 100 rounds of downsampling with age, sex, and sample size matching, and division into training and test sets, we constructed two binary prediction models to distinguish between IBD and HC and CD and UC using the training set. The binary prediction models exhibited high accuracy and area under the curve (for differentiating IBD from HC (mean accuracy, 0.950; AUC, 0.992) and CD from UC (mean accuracy, 0.945; AUC, 0.988)), respectively, in the test set. This study underscores the diagnostic potential of an ML model based on sPLS-DA, utilizing fecal microbiome analysis, highlighting its ability to differentiate between IBD and HC and distinguish CD from UC.

Published

2023

9. Enrichment of Activated Fibroblasts as a Potential Biomarker for a Non-Durable Response to Anti-Tumor Necrosis Factor Therapy in Patients with Crohn’s Disease

Author

Soo-Kyung Park, Gi-Young Lee, Sangsoo Kim, Chil-Woo Lee, Chang-Hwan Choi, Sang-Bum Kang, Tae-Oh Kim, Jaeyoung Chun, Jae-Myung Cha, Jong-Pil Im, Kwang-Sung Ahn, Seon-Young Kim, Min-Suk Kim, Chang-Kyun Lee, and Dong-Il Park

Subjects

anti-tumor necrosis factor therapy, Crohn’s disease, activated fibroblasts, RNA sequencing, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

We investigated whether the response to anti-tumor necrosis factor (anti-TNF) treatment varied according to inflammatory tissue characteristics in Crohn’s disease (CD). Bulk RNA sequencing (RNA-seq) data were obtained from inflamed and non-inflamed tissues from 170 patients with CD. The samples were clustered based on gene expression profiles using principal coordinate analysis (PCA). Cellular heterogeneity was inferred using CiberSortx, with bulk RNA-seq data. The PCA results displayed two clusters of CD-inflamed samples: one close to (Inflamed_1) and the other far away (Inflamed_2) from the non-inflamed samples. Inflamed_1 was rich in anti-TNF durable responders (DRs), and Inflamed_2 was enriched in non-durable responders (NDRs). The CiberSortx results showed that the cell fraction of activated fibroblasts was six times higher in Inflamed_2 than in Inflamed_1. Validation with public gene expression datasets (GSE16879) revealed that the activated fibroblasts were enriched in NDRs over Next, we used DRs by 1.9 times pre-treatment and 7.5 times after treatment. Fibroblast activation protein (FAP) was overexpressed in the Inflamed_2 and was also overexpressed in the NDRs in both the RISK and GSE16879 datasets. The activation of fibroblasts may play a role in resistance to anti-TNF therapy. Characterizing fibroblasts in inflamed tissues at diagnosis may help to identify patients who are likely to respond to anti-TNF therapy.

Published

2023

10. Development of an experimental apparatus to observe ultrafast phenomena by tender X-ray absorption spectroscopy at PAL-XFEL

Author

Yujin Kim, Daewoong Nam, Rory Ma, Sangsoo Kim, Myung-jin Kim, Jinhong Kim, Intae Eom, Jae Hyuk Lee, and Tae Kyu Kim

Subjects

x-ray free-electron lasers, x-ray absorption spectroscopy, tender x-ray, time-resolved x-ray spectroscopy, pal-xfel, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798, Crystallography, QD901-999

Abstract

Understanding the ultrafast dynamics of molecules is of fundamental importance. Time-resolved X-ray absorption spectroscopy (TR-XAS) is a powerful spectroscopic technique for unveiling the time-dependent structural and electronic information of molecules that has been widely applied in various fields. Herein, the design and technical achievement of a newly developed experimental apparatus for TR-XAS measurements in the tender X-ray range with X-ray free-electron lasers (XFELs) at the Pohang Accelerator Laboratory XFEL (PAL-XFEL) are described. Femtosecond TR-XAS measurements were conducted at the Ru L3-edge of well known photosensitizer tris(bipyridine)ruthenium(II) chloride ([Ru(bpy)3]2+) in water. The results indicate ultrafast photoinduced electron transfer from the Ru center to the ligand, which demonstrates that the newly designed setup is applicable for monitoring ultrafast reactions in the femtosecond domain.

Published

2022

11. Potential Oral Microbial Markers for Differential Diagnosis of Crohn’s Disease and Ulcerative Colitis Using Machine Learning Models

Author

Sang-Bum Kang, Hyeonwoo Kim, Sangsoo Kim, Jiwon Kim, Soo-Kyung Park, Chil-Woo Lee, Kyeong Ok Kim, Geom-Seog Seo, Min Suk Kim, Jae Myung Cha, Ja Seol Koo, and Dong-Il Park

Subjects

oral microbiome, dysbiosis, 16S rRNA sequencing, IBD, machine learning, sPLS-DA, Biology (General), QH301-705.5

Abstract

Although gut microbiome dysbiosis has been associated with inflammatory bowel disease (IBD), the relationship between the oral microbiota and IBD remains poorly understood. This study aimed to identify unique microbiome patterns in saliva from IBD patients and explore potential oral microbial markers for differentiating Crohn’s disease (CD) and ulcerative colitis (UC). A prospective cohort study recruited IBD patients (UC: n = 175, CD: n = 127) and healthy controls (HC: n = 100) to analyze their oral microbiota using 16S rRNA gene sequencing. Machine learning models (sparse partial least squares discriminant analysis (sPLS-DA)) were trained with the sequencing data to classify CD and UC. Taxonomic classification resulted in 4041 phylotypes using Kraken2 and the SILVA reference database. After quality filtering, 398 samples (UC: n = 175, CD: n = 124, HC: n = 99) and 2711 phylotypes were included. Alpha diversity analysis revealed significantly reduced richness in the microbiome of IBD patients compared to healthy controls. The sPLS-DA model achieved high accuracy (mean accuracy: 0.908, and AUC: 0.966) in distinguishing IBD vs. HC, as well as good accuracy (0.846) and AUC (0.923) in differentiating CD vs. UC. These findings highlight distinct oral microbiome patterns in IBD and provide insights into potential diagnostic markers.

Published

2023

12. X-ray free electron laser heating of water and gold at high static pressure

Author

Rachel J. Husband, R. Stewart McWilliams, Edward J. Pace, Amy L. Coleman, Huijeong Hwang, Jinhyuk Choi, Taehyun Kim, Gil Chan Hwang, Orianna B. Ball, Sae Hwan Chun, Daewoong Nam, Sangsoo Kim, Hyunchae Cynn, Vitali B. Prakapenka, Sang-Heon Shim, Sven Toleikis, Malcolm I. McMahon, Yongjae Lee, and Hanns-Peter Liermann

Subjects

Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

The study of water at high pressure and temperature is essential for understanding planetary interiors but is hampered by the high reactivity of water at extreme conditions. Here, indirect X-ray laser heating of water in a diamond anvil cell is realized via a gold absorber, showing no evidence of reactivity.

Published

2021

13. Characterization of HIV-1 recombinant and subtype B near full-length genome among men who have sex with men in South Korea

Author

Sangmi Ryou, Myeongsu Yoo, Kisoon Kim, Sangsoo Kim, Sang Il Kim, Youn Jeong Kim, Dae Won Park, Jun Yong Choi, Hyo Youl Kim, Jung Ho Kim, Joon Young Song, Shin-Woo Kim, Hyun-Ha Chang, Bo Youl Choi, and Mee-Kyung Kee

Subjects

Medicine, Science

Abstract

Abstract In Korea, subtype B is the predominant variant of HIV-1, but full genome sequencing and analysis of its viral variants are lacking. We performed near full-length genome (NFLG) sequencing and phylogenetic and recombination analyses of fifty plasma samples from HIV-positive men who have sex with men (MSM) from a Korea HIV/AIDS cohort study. Viral genomes were amplified and the near-full-length sequences were determined using next-generation sequencing (NGS) and Sanger sequencing. We focused on the HIV-1 subtype classification and identification of HIV recombinants. Twelve HIV-1 NFLGs were determined: ten were subtyped as pure HIV-1 subtype B and two recombinant strains as a common subtype CRF07_BC, and a novel subtype CRF43_02G recombined with CRF02_AG again, or a new CRF02_AG and subtype G recombinant. For the ten NFLGs determined by NGS, “the novel recombinant emerged at approximately 2003 and the other nine subtype B about 2004 or 2005”. This is the first report analyzing HIV-1 NFLG, including recombinants and clinical characteristics, by subtype among MSM in Korea. Our results provide novel insights for understanding the recombinants in the HIV-1 epidemic in Korea.

Published

2021

14. Deep Neural Network-Based Prediction of the Risk of Advanced Colorectal Neoplasia

Author

Jun Ki Min, Hyo-Joon Yang, Min Seob Kwak, Chang Woo Cho, Sangsoo Kim, Kwang-Sung Ahn, Soo-Kyung Park, Jae Myung Cha, and Dong Il Park

Subjects

colorectal neoplasms, deep learning, neural networks, prediction, mass screening, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background/Aims: Risk prediction models using a deep neural network (DNN) have not been reported to predict the risk of advanced colorectal neoplasia (ACRN). The aim of this study was to compare DNN models with simple clinical score models to predict the risk of ACRN in colorectal cancer screening. Methods: Databases of screening colonoscopy from Kangbuk Samsung Hospital (n=121,794) and Kyung Hee University Hospital at Gangdong (n=3,728) were used to develop DNN-based prediction models. Two DNN models, the Asian-Pacific Colorectal Screening (APCS) model and the Korean Colorectal Screening (KCS) model, were developed and compared with two simple score models using logistic regression methods to predict the risk of ACRN. The areas under the receiver operating characteristic curves (AUCs) of the models were compared in internal and external validation databases. Results: In the internal validation set, the AUCs of DNN model 1 and the APCS score model were 0.713 and 0.662 (p0.1). Conclusions: Simple score models for the risk prediction of ACRN are as useful as DNN-based models when input variables are limited. However, further studies on this issue are warranted to predict the risk of ACRN in colorectal cancer screening because DNN-based models are currently under improvement.

Published

2021

15. Host-Based Intrusion Detection Model Using Siamese Network

Author

Daekyeong Park, Sangsoo Kim, Hyukjin Kwon, Dongil Shin, and Dongkyoo Shin

Subjects

Machine learning, LID-DS, few-shot learning, siamese network, HIDS, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

As cyberattacks become more intelligent, the difficulty increases for traditional intrusion detection systems to detect advanced attacks that deviate from previously stored patterns. To solve this problem, a deep learning-based intrusion detection system model has emerged that analyzes intelligent attack patterns through data learning. However, deep learning models have the disadvantage of having to re-learn each time a new cyberattack method emerges. The time required to learn a large amount of data is not efficient. In this paper, an experiment was conducted using the Leipzig Intrusion Detection Data Set (LID-DS), which is a host-based intrusion detection data set released in 2018. In addition, in order to evaluate and improve the performance of the system, a host-based intrusion detection model consisting of pre-processing, vector-to-image processing, training and testing steps is proposed. In the training and testing steps, a Siamese Convolutional Neural Network (Siamese-CNN) is constructed using the few-shot learning method, which shows excellent performance by learning a small amount of data. Siamese-CNN determines whether the attack type is the same based on the similarity score of each cyberattack sample converted to an image. The accuracy was calculated using the few-shot learning technique. The performance of the Vanilla Convolutional Neural Network (Vanilla-CNN) and Siamese-CNN are compared to confirm the performance of Siamese-CNN. As a result of measuring the accuracy, precision, recall, and F1-score indicators, it was confirmed that the recall of the Siamese-CNN model proposed in this study increased by about 6% compared to the Vanilla-CNN model.

Published

2021

16. Network Anomaly Detection Using Memory-Augmented Deep Autoencoder

Author

Byeongjun Min, Jihoon Yoo, Sangsoo Kim, Dongil Shin, and Dongkyoo Shin

Subjects

Network intrusion detection, autoencoder, anomaly detection, memory-augmented autoencoder, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

In recent years, attacks on network environments continue to rapidly advance and are increasingly intelligent. Accordingly, it is evident that there are limitations in existing signature-based intrusion detection systems. In particular, for novel attacks such as Advanced Persistent Threat (APT), signature patterns have problems with poor generalization performance. Furthermore, in a network environment, attack samples are rarely collected compared to normal samples, creating the problem of imbalanced data. Anomaly detection using an autoencoder has been widely studied in this environment, and learning is through semi-supervised learning methods to overcome these problems. This approach is based on the assumption that reconstruction errors for samples that are not used for training will be large, but an autoencoder is often over-generalized and this assumption is often broken. In this paper, we propose a network intrusion detection method using a memory-augmented deep auto-encoder (MemAE) that can solve the over-generalization problem of autoencoders. The MemAE model is trained to reconstruct the input of an abnormal sample that is close to a normal sample, which solves the generalization problem for such abnormal samples. Experiments were conducted on the NSL-KDD, UNSW-NB15, and CICIDS 2017 datasets, and it was confirmed that the proposed method is better than other one-class models.

Published

2021

17. Study on Network Intrusion Detection Method Using Discrete Pre-Processing Method and Convolution Neural Network

Author

Jihoon Yoo, Byeongjun Min, Sangsoo Kim, Dongil Shin, and Dongkyoo Shin

Subjects

Convolution neural network (CNN), CSE-CIC-IDS 2018, discretization, NSL-KDD, network intrusion detection system (NIDS), Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The network intrusion detection system is a core technology of network security that detects packets for malicious activities occurring in the network and is an essential element for stable services in extended network environments such as big data and IoT. These network intrusion detection systems have been studied together with machine learning and deep learning, but performance is not guaranteed in the actual environment or the class balance problem has not been solved. Therefore, in this study, we investigate the performance of a discretization preprocessing method with a CNN-based classifier on the class imbalance problem of network traffic data. The preprocessing method adds a discretization algorithm for continuous variables in the commonly used conventional preprocessing method and converts 1D network packet vectors into 2D image vectors to improve relational analysis and generalization performance. Since the convolution neural network has immutability to the input data, it improves statistical efficiency in learning network packets converted into images. To evaluate the proposed model, we compared the computational complexity and generalization performance using NSL-KDD and CSE-CIC-IDS 2018, which is a representative network packet data. As a result of the experiment, it was confirmed that in the case of computational complexity, training time and parameters were reduced compared to the model designed similarly to the proposed model, and accuracy and F1 score improved in generalization performance.

Published

2021

18. The histone H3-lysine 4-methyltransferase Mll4 regulates the development of growth hormone-releasing hormone-producing neurons in the mouse hypothalamus

Author

Christian Huisman, Young A. Kim, Shin Jeon, Bongjin Shin, Jeonghoon Choi, Su Jeong Lim, Sung Min Youn, Younjung Park, Medha K. C., Sangsoo Kim, Soo-Kyung Lee, Seunghee Lee, and Jae W. Lee

Subjects

Science

Abstract

Mutations in the MLL4 gene can cause Kabuki syndrome, whose underlying molecular mechanisms are unclear. Here, the authors show that Mll4 epigenetically regulates the transcriptional program leading to the formation of GHRH-neurons in the developing mouse hypothalamus.

Published

2021

19. Reconstruction of paralyzed arm function in patients with hemiplegia through contralateral seventh cervical nerve cross transfer: a multicenter study and real-world practice guidance

Author

Juntao Feng, Tie Li, Minzhi Lv, Sangsoo Kim, Joon-Ho Shin, Naiqing Zhao, Qingzhong Chen, Yanpei Gong, Yucheng Sun, Zaixing Zhao, Ning Zhu, Jihua Cao, Wen Fang, Bin Chen, Song Zheng, Zhu Xu, Xin Jin, Yundong Shen, Yanqun Qiu, Huawei Yin, Su Jiang, Jie Li, Ying Ying, Liwen Chen, Ying Liu, Jie Jia, Chuntao Zuo, Jianguang Xu, Yudong Gu, and Wendong Xu

Subjects

Contralateral seventh cervical nerve cross transfer, Hemiplegia, Spastic arm paralysis, Real-world observation, Multicenter study, Medicine (General), R5-920

Abstract

Summary: Background: A previous randomized controlled trial showed contralateral seventh cervical nerve (CC7) cross transfer to be safe and effective in restoring the arm function of spastic arm paralysis patients in a specified population. Guidance on indications, safety and expected long-term improvements of the surgery are needed for clinical practice. Methods: This is a retrospective, multicenter, propensity score-matched cohort study. All patients registered between 2013 and 2019 with unilateral spastic arm paralysis over 1 year who were registered at one of five centers in China and South Korea were included. Patients received CC7 cross transfer or rehabilitation treatment in each center. Primary outcome was the change in the upper-extremity Fugl–Meyer (UEFM) score from baseline to 2-year follow-up; larger increase indicated better functional improvements. Findings: The analysis included 425 eligible patients. After propensity score matching, 336 patients who were 1:1 matched into surgery and rehabilitation groups. Compared to previous trial, patient population was expanded on age ( 45 years old), duration of disease (

Published

2022

20. Fully Automated Segmentation Models of Supratentorial Meningiomas Assisted by Inclusion of Normal Brain Images

Author

Kihwan Hwang, Juntae Park, Young-Jae Kwon, Se Jin Cho, Byung Se Choi, Jiwon Kim, Eunchong Kim, Jongha Jang, Kwang-Sung Ahn, Sangsoo Kim, and Chae-Yong Kim

Subjects

meningioma, magnetic resonance imaging, deep learning, U-net, Photography, TR1-1050, Computer applications to medicine. Medical informatics, R858-859.7, Electronic computers. Computer science, QA75.5-76.95

Abstract

To train an automatic brain tumor segmentation model, a large amount of data is required. In this paper, we proposed a strategy to overcome the limited amount of clinically collected magnetic resonance image (MRI) data regarding meningiomas by pre-training a model using a larger public dataset of MRIs of gliomas and augmenting our meningioma training set with normal brain MRIs. Pre-operative MRIs of 91 meningioma patients (171 MRIs) and 10 non-meningioma patients (normal brains) were collected between 2016 and 2019. Three-dimensional (3D) U-Net was used as the base architecture. The model was pre-trained with BraTS 2019 data, then fine-tuned with our datasets consisting of 154 meningioma MRIs and 10 normal brain MRIs. To increase the utility of the normal brain MRIs, a novel balanced Dice loss (BDL) function was used instead of the conventional soft Dice loss function. The model performance was evaluated using the Dice scores across the remaining 17 meningioma MRIs. The segmentation performance of the model was sequentially improved via the pre-training and inclusion of normal brain images. The Dice scores improved from 0.72 to 0.76 when the model was pre-trained. The inclusion of normal brain MRIs to fine-tune the model improved the Dice score; it increased to 0.79. When employing BDL as the loss function, the Dice score reached 0.84. The proposed learning strategy for U-net showed potential for use in segmenting meningioma lesions.

Published

2022

21. Single cell transcriptome analysis of developing arcuate nucleus neurons uncovers their key developmental regulators

Author

Christian Huisman, Hyeyoung Cho, Olivier Brock, Su Jeong Lim, Sung Min Youn, Younjung Park, Sangsoo Kim, Soo-Kyung Lee, Alessio Delogu, and Jae W. Lee

Subjects

Science

Abstract

Despite the crucial physiological processes governed by neurons in the hypothalamic arcuate nucleus (ARC), the developmental pathways and regulators for ARC neurons remain understudied. In this study the authors use single cell RNA-seq analyses of mouse embryonic ARC to identify cell type-specific markers for developing ARC neurons and give key insight into the underlying developmental pathways and regulators.

Published

2019

22. Accuracy of machine learning for differentiation between optic neuropathies and pseudopapilledema

Author

Jin Mo Ahn, Sangsoo Kim, Kwang-Sung Ahn, Sung-Hoon Cho, and Ungsoo S. Kim

Subjects

Machine learning, Pseudopapilledema, Optic neuropathy, Optic disc swelling, Ophthalmology, RE1-994

Abstract

Abstract Background This study is to evaluate the accuracy of machine learning for differentiation between optic neuropathies, pseudopapilledema (PPE) and normals. Methods Two hundred and ninety-five images of optic neuropathies, 295 images of PPE, and 779 control images were used. Pseudopapilledema was defined as follows: cases with elevated optic nerve head and blurred disc margin, with normal visual acuity (> 0.8 Snellen visual acuity), visual field, color vision, and pupillary reflex. The optic neuropathy group included cases of ischemic optic neuropathy (177), optic neuritis (48), diabetic optic neuropathy (17), papilledema (22), and retinal disorders (31). We compared four machine learning classifiers (our model, GoogleNet Inception v3, 19-layer Very Deep Convolution Network from Visual Geometry group (VGG), and 50-layer Deep Residual Learning (ResNet)). Accuracy and area under receiver operating characteristic curve (AUROC) were analyzed. Results The accuracy of machine learning classifiers ranged from 95.89 to 98.63% (our model: 95.89%, Inception V3: 96.45%, ResNet: 98.63%, and VGG: 96.80%). A high AUROC score was noted in both ResNet and VGG (0.999). Conclusions Machine learning techniques can be combined with fundus photography as an effective approach to distinguish between PPE and elevated optic disc associated with optic neuropathies.

Published

2019

23. Direct observation of picosecond melting and disintegration of metallic nanoparticles

Author

Yungok Ihm, Do Hyung Cho, Daeho Sung, Daewoong Nam, Chulho Jung, Takahiro Sato, Sangsoo Kim, Jaehyun Park, Sunam Kim, Marcus Gallagher-Jones, Yoonhee Kim, Rui Xu, Shigeki Owada, Ji Hoon Shim, Kensuke Tono, Makina Yabashi, Tetsuya Ishikawa, Jianwei Miao, Do Young Noh, and Changyong Song

Subjects

Science

Abstract

Laser-matter interaction has been intensively studied in equilibrium states, but irreversible processes in a highly nonequilibrium state at nanoscales remains elusive due to experimental challenges. Here, Ihm et al. image heterogeneous melting of gold nanoparticles with nanometer and picosecond resolution.

Published

2019

24. Retraction Note: Computational Drug Repositioning for Gastric Cancer using Reversal Gene Expression Profiles

Author

In-Wha Kim, Hayoung Jang, Jae Hyun Kim, Myeong Gyu Kim, Sangsoo Kim, and Jung Mi Oh

Subjects

Medicine, Science

Published

2022

25. A semi-automatic cell type annotation method for single-cell RNA sequencing dataset

Author

Wan Kim, Sung Min Yoon, and Sangsoo Kim

Subjects

cell type annotation, co-expression network, regulatory network, single-cell rna sequencing, transcription factor, Genetics, QH426-470

Abstract

Single-cell RNA sequencing (scRNA-seq) has been widely applied to provide insights into the cell-by-cell expression difference in a given bulk sample. Accordingly, numerous analysis methods have been developed. As it involves simultaneous analyses of many cell and genes, efficiency of the methods is crucial. The conventional cell type annotation method is laborious and subjective. Here we propose a semi-automatic method that calculates a normalized score for each cell type based on user-supplied cell type–specific marker gene list. The method was applied to a publicly available scRNA-seq data of mouse cardiac non-myocyte cell pool. Annotating the 35 t-stochastic neighbor embedding clusters into 12 cell types was straightforward, and its accuracy was evaluated by constructing co-expression network for each cell type. Gene Ontology analysis was congruent with the annotated cell type and the corollary regulatory network analysis showed upstream transcription factors that have well supported literature evidences. The source code is available as an R script upon request.

Published

2020

26. Dlx1/2 and Otp coordinate the production of hypothalamic GHRH- and AgRP-neurons

Author

Bora Lee, Janghyun Kim, Taekyeong An, Sangsoo Kim, Esha M. Patel, Jacob Raber, Soo-Kyung Lee, Seunghee Lee, and Jae W. Lee

Subjects

Science

Abstract

In the hypothalamus, the arcuate nucleus (ARC) contains AgRP-neurons that regulate energy balance as well as GHRH-neurons that regulate linear growth. Here, the authors looked at how the transcription factors Dlx1/2 and Otp link development of AgRP- and GHRH-neurons.

Published

2018

27. Development of a Machine Learning Model to Distinguish between Ulcerative Colitis and Crohn’s Disease Using RNA Sequencing Data

Author

Soo-Kyung Park, Sangsoo Kim, Gi-Young Lee, Sung-Yoon Kim, Wan Kim, Chil-Woo Lee, Jong-Lyul Park, Chang-Hwan Choi, Sang-Bum Kang, Tae-Oh Kim, Ki-Bae Bang, Jaeyoung Chun, Jae-Myung Cha, Jong-Pil Im, Kwang-Sung Ahn, Seon-Young Kim, and Dong-Il Park

Subjects

inflammatory bowel disease, Crohn’s disease, ulcerative colitis, RNA sequencing, machine learning, Medicine (General), R5-920

Abstract

Crohn’s disease (CD) and ulcerative colitis (UC) can be difficult to differentiate. As differential diagnosis is important in establishing a long-term treatment plan for patients, we aimed to develop a machine learning model for the differential diagnosis of the two diseases using RNA sequencing (RNA-seq) data from endoscopic biopsy tissue from patients with inflammatory bowel disease (n = 127; CD, 94; UC, 33). Biopsy samples were taken from inflammatory lesions or normal tissues. The RNA-seq dataset was processed via mapping to the human reference genome (GRCh38) and quantifying the corresponding gene models that comprised 19,596 protein-coding genes. An unsupervised learning model showed distinct clusters of four classes: CD inflammatory, CD normal, UC inflammatory, and UC normal. A supervised learning model based on partial least squares discriminant analysis was able to distinguish inflammatory CD from inflammatory UC after pruning the strong classifiers of normal CD vs. normal UC. The error rate was minimal and affected only two components: 20 and 50 genes for the first and second components, respectively. The corresponding overall error rate was 0.147. RNA-seq analysis of tissue and the two components revealed in this study may be helpful for distinguishing CD from UC.

Published

2021

28. misMM: An Integrated Pipeline for Misassembly Detection Using Genotyping-by-Sequencing and Its Validation with BAC End Library Sequences and Gene Synteny

Author

Young-Joon Ko, Jung Sun Kim, and Sangsoo Kim

Subjects

BAC end library, gene synteny, genotyping-by-sequencing, miassembly, next-generation sequencing, reference genome, Genetics, QH426-470

Abstract

As next-generation sequencing technologies have advanced, enormous amounts of whole-genome sequence information in various species have been released. However, it is still difficult to assemble the whole genome precisely, due to inherent limitations of short-read sequencing technologies. In particular, the complexities of plants are incomparable to those of microorganisms or animals because of whole-genome duplications, repeat insertions, and Numt insertions, etc. In this study, we describe a new method for detecting misassembly sequence regions of Brassica rapa with genotyping-by-sequencing, followed by MadMapper clustering. The misassembly candidate regions were cross-checked with BAC clone paired-ends library sequences that have been mapped to the reference genome. The results were further verified with gene synteny relations between Brassica rapa and Arabidopsis thaliana. We conclude that this method will help detect misassembly regions and be applicable to incompletely assembled reference genomes from a variety of species.

Published

2017

29. IVAG: An Integrative Visualization Application for Various Types of Genomic Data Based on R-Shiny and the Docker Platform

Author

Tae-Rim Lee, Jin Mo Ahn, Gyuhee Kim, and Sangsoo Kim

Subjects

docker, genome browser, genome-wide association study, RNA sequencing, Shiny, visualization, Genetics, QH426-470

Abstract

Next-generation sequencing (NGS) technology has become a trend in the genomics research area. There are many software programs and automated pipelines to analyze NGS data, which can ease the pain for traditional scientists who are not familiar with computer programming. However, downstream analyses, such as finding differentially expressed genes or visualizing linkage disequilibrium maps and genome-wide association study (GWAS) data, still remain a challenge. Here, we introduce a dockerized web application written in R using the Shiny platform to visualize pre-analyzed RNA sequencing and GWAS data. In addition, we have integrated a genome browser based on the JBrowse platform and an automated intermediate parsing process required for custom track construction, so that users can easily build and navigate their personal genome tracks with in-house datasets. This application will help scientists perform series of downstream analyses and obtain a more integrative understanding about various types of genomic data by interactively visualizing them with customizable options.

Published

2017

30. Denoising low-intensity diffraction signals using k-space deep learning: Applications to phase recovery

Author

Sung Yun Lee, Do Hyung Cho, Chulho Jung, Daeho Sung, Daewoong Nam, Sangsoo Kim, and Changyong Song

Subjects

Physics, QC1-999

Abstract

Phase recovery is a well-known inverse problem prevalent across science disciplines and attracts active research interests to develop a number of theoretical and experimental methods. Recent developments in artificial intelligence have further prompted research activities in processing the experimentally collected imperfect data, but applications have been limited to slow-varying data such as real images. Experimental noise present in largely fluctuating diffraction data, in particular, adds practical challenges to hamper consistent phase recovery. Here, we introduce a convolutional neural-network assisted k-space denoising method that can directly manage noisy diffraction signals. It showed superior performance on denoising the diffraction data, which promote improved phase recovery from noise-buried single-pulse diffraction signals obtained by the x-ray free-electron laser. Adapting our method to general diffraction data can expand boundaries of interpretable data and enhance observability of faint objects with weak signals.

Published

2021

31. Author Correction: Single cell transcriptome analysis of developing arcuate nucleus neurons uncovers their key developmental regulators

Author

Christian Huisman, Hyeyoung Cho, Olivier Brock, Su Jeong Lim, Sung Min Youn, Younjung Park, Sangsoo Kim, Soo-Kyung Lee, Alessio Delogu, and Jae W. Lee

Subjects

Science

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

32. Investigation of Splicing Quantitative Trait Loci in

Author

Wonseok Yoo, Sungkyu Kyung, Seonggyun Han, and Sangsoo Kim

Subjects

QTL mapping, RNA-seq, sQTLs, Genetics, QH426-470

Abstract

The alteration of alternative splicing patterns has an effect on the quantification of functional proteins, leading to phenotype variation. The splicing quantitative trait locus (sQTL) is one of the main genetic elements affecting splicing patterns. Here, we report the results of genome-wide sQTLs across 141 strains of Arabidopsis thaliana with publicly available next generation sequencing datasets. As a result, we found 1,694 candidate sQTLs in Arabidopsis thaliana at a false discovery rate of 0.01. Furthermore, among the candidate sQTLs, we found 25 sQTLs that overlapped with the list of previously examined trait-associated single nucleotide polymorphisms (SNPs). In summary, this sQTL analysis provides new insight into genetic elements affecting alternative splicing patterns in Arabidopsis thaliana and the mechanism of previously reported trait-associated SNPs.

Published

2016

33. Correction: A deep learning model for the detection of both advanced and early glaucoma using fundus photography.

Author

Jin Mo Ahn, Sangsoo Kim, Kwang-Sung Ahn, Sung-Hoon Cho, Kwan Bok Lee, and Ungsoo Samuel Kim

Subjects

Medicine, Science

Abstract

[This corrects the article DOI: 10.1371/journal.pone.0207982.].

Published

2019

34. Single-Shot Coherent X-ray Imaging Instrument at PAL-XFEL

Author

Daeho Sung, Daewoong Nam, Myong-jin Kim, Seonghan Kim, Kyung Sook Kim, Sang-Youn Park, Sun Min Hwang, Chulho Jung, Heemin Lee, Do Hyung Cho, Minseok Kim, Intae Eom, Su Yong Lee, Changyong Song, and Sangsoo Kim

Subjects

X-ray free electron laser, single-shot coherent X-ray imaging instrument, coherent diffraction imaging, pump–probe imaging, ultrafast dynamic imaging, ultrafast phenomena, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

We developed a single-shot coherent X-ray imaging instrument at the hard X-ray beamline of the Pohang Accelerator Laboratory X-ray Free Electron Laser (PAL-XFEL). This experimental platform was established to conduct a variety of XFEL experiments, including coherent diffraction imaging (CDI), X-ray photon correlation spectroscopy (XPCS), and coherent X-ray scattering (CXS). Based on the forward-scattering geometry, this instrument utilizes a fixed-target method for sample delivery. It is well optimized for single-shot-based experiments in which one expects to observe the ultrafast phenomena of nanoparticles at picosecond temporal and nanometer spatial resolutions. In this paper, we introduce a single-shot coherent X-ray imaging instrument and report pump–probe coherent diffraction imaging (PPCDI) of Ag nanoparticles as an example of its applications.

Published

2021

35. An ethnically relevant consensus Korean reference genome is a step towards personal reference genomes

Author

Yun Sung Cho, Hyunho Kim, Hak-Min Kim, Sungwoong Jho, JeHoon Jun, Yong Joo Lee, Kyun Shik Chae, Chang Geun Kim, Sangsoo Kim, Anders Eriksson, Jeremy S. Edwards, Semin Lee, Byung Chul Kim, Andrea Manica, Tae-Kwang Oh, George M. Church, and Jong Bhak

Subjects

Science

Abstract

The utility of a universal reference sequence for human genome comparisons is dependent on the ethnic origins of the individuals being sequenced. Here the authors report a Korean reference genome and consensus variome, and show that an ethnically-relevant reference can improve variant detection.

Published

2016

36. Analysis of Nuclear Mitochondrial DNA Segments of Nine Plant Species: Size, Distribution, and Insertion Loci

Author

Young-Joon Ko and Sangsoo Kim

Subjects

DNA transfering, nuclear mitochondrial DNA, numt, plant mitochondrial DNA, Genetics, QH426-470

Abstract

Nuclear mitochondrial DNA segment (Numt) insertion describes a well-known phenomenon of mitochondrial DNA transfer into a eukaryotic nuclear genome. However, it has not been well understood, especially in plants. Numt insertion patterns vary from species to species in different kingdoms. In this study, the patterns were surveyed in nine plant species, and we found some tip-offs. First, when the mitochondrial genome size is relatively large, the portion of the longer Numt is also larger than the short one. Second, the whole genome duplication event increases the ratio of the shorter Numt portion in the size distribution. Third, Numt insertions are enriched in exon regions. This analysis may be helpful for understanding plant evolution.

Published

2016

37. Compiling Multicopy Single-Stranded DNA Sequences from Bacterial Genome Sequences

Author

Wonseok Yoo, Dongbin Lim, and Sangsoo Kim

Subjects

msDNA, retron, reverse transcriptase, RNA secondary structure, Genetics, QH426-470

Abstract

A retron is a bacterial retroelement that encodes an RNA gene and a reverse transcriptase (RT). The former, once transcribed, works as a template primer for reverse transcription by the latter. The resulting DNA is covalently linked to the upstream part of the RNA; this chimera is called multicopy single-stranded DNA (msDNA), which is extrachromosomal DNA found in many bacterial species. Based on the conserved features in the eight known msDNA sequences, we developed a detection method and applied it to scan National Center for Biotechnology Information (NCBI) RefSeq bacterial genome sequences. Among 16,844 bacterial sequences possessing a retron-type RT domain, we identified 48 unique types of msDNA. Currently, the biological role of msDNA is not well understood. Our work will be a useful tool in studying the distribution, evolution, and physiological role of msDNA.

Published

2016

38. A deep learning model for the detection of both advanced and early glaucoma using fundus photography.

Author

Jin Mo Ahn, Sangsoo Kim, Kwang-Sung Ahn, Sung-Hoon Cho, Kwan Bok Lee, and Ungsoo Samuel Kim

Subjects

Medicine, Science

Abstract

PURPOSE:To build a deep learning model to diagnose glaucoma using fundus photography. DESIGN:Cross sectional case study Subjects, Participants and Controls: A total of 1,542 photos (786 normal controls, 467 advanced glaucoma and 289 early glaucoma patients) were obtained by fundus photography. METHOD:The whole dataset of 1,542 images were split into 754 training, 324 validation and 464 test datasets. These datasets were used to construct simple logistic classification and convolutional neural network using Tensorflow. The same datasets were used to fine tune pre-trained GoogleNet Inception v3 model. RESULTS:The simple logistic classification model showed a training accuracy of 82.9%, validation accuracy of 79.9% and test accuracy of 77.2%. Convolutional neural network achieved accuracy and area under the receiver operating characteristic curve (AUROC) of 92.2% and 0.98 on the training data, 88.6% and 0.95 on the validation data, and 87.9% and 0.94 on the test data. Transfer-learned GoogleNet Inception v3 model achieved accuracy and AUROC of 99.7% and 0.99 on training data, 87.7% and 0.95 on validation data, and 84.5% and 0.93 on test data. CONCLUSION:Both advanced and early glaucoma could be correctly detected via machine learning, using only fundus photographs. Our new model that is trained using convolutional neural network is more efficient for the diagnosis of early glaucoma than previously published models.

Published

2018

39. The Construction of Regulatory Network for Insulin-Mediated Genes by Integrating Methods Based on Transcription Factor Binding Motifs and Gene Expression Variations

Author

Hyeim Jung, Seonggyun Han, and Sangsoo Kim

Subjects

network, regulation, regulator, sequence motif, Genetics, QH426-470

Abstract

Type 2 diabetes mellitus is a complex metabolic disorder associated with multiple genetic, developmental and environmental factors. The recent advances in gene expression microarray technologies as well as network-based analysis methodologies provide groundbreaking opportunities to study type 2 diabetes mellitus. In the present study, we used previously published gene expression microarray datasets of human skeletal muscle samples collected from 20 insulin sensitive individuals before and after insulin treatment in order to construct insulin-mediated regulatory network. Based on a motif discovery method implemented by iRegulon, a Cytoscape app, we identified 25 candidate regulons, motifs of which were enriched among the promoters of 478 up-regulated genes and 82 down-regulated genes. We then looked for a hierarchical network of the candidate regulators, in such a way that the conditional combination of their expression changes may explain those of their target genes. Using Genomica, a software tool for regulatory network construction, we obtained a hierarchical network of eight regulons that were used to map insulin downstream signaling network. Taken together, the results illustrate the benefits of combining completely different methods such as motif-based regulatory factor discovery and expression level-based construction of regulatory network of their target genes in understanding insulin induced biological processes and signaling pathways.

Published

2015

40. Short Reads Phasing to Construct Haplotypes in Genomic Regions That Are Associated with Body Mass Index in Korean Individuals

Author

Kichan Lee, Seonggyun Han, Yeonjeong Tark, and Sangsoo Kim

Subjects

genome-wide association study, haplotypes, Korea, NGS, phasing, single-nucleotide polymorphism, Genetics, QH426-470

Abstract

Genome-wide association (GWA) studies have found many important genetic variants that affect various traits. Since these studies are useful to investigate untyped but causal variants using linkage disequilibrium (LD), it would be useful to explore the haplotypes of single-nucleotide polymorphisms (SNPs) within the same LD block of significant associations based on high-density variants from population references. Here, we tried to make a haplotype catalog affecting body mass index (BMI) through an integrative analysis of previously published whole-genome next-generation sequencing (NGS) data of 7 representative Korean individuals and previously known Korean GWA signals. We selected 435 SNPs that were significantly associated with BMI from the GWA analysis and searched 53 LD ranges nearby those SNPs. With the NGS data, the haplotypes were phased within the LDs. A total of 44 possible haplotype blocks for Korean BMI were cataloged. Although the current result constitutes little data, this study provides new insights that may help to identify important haplotypes for traits and low variants nearby significant SNPs. Furthermore, we can build a more comprehensive catalog as a larger dataset becomes available.

Published

2014

41. Identification of as a Hypermethylated Gene in Colorectal Cancers

Author

Jongbum Kim and Sangsoo Kim

Subjects

colorectal cancer, DNA Methylation, frizzled related protein-1, survival analysis, Genetics, QH426-470

Abstract

Aberrant DNA methylation, as an epigenetic marker of cancer, influences tumor development and progression. We downloaded publicly available DNA methylation and gene expression datasets of matched cancer and normal pairs from the Cancer Genome Atlas Data Portal and performed a systematic computational analysis. This study has three aims to screen genes that show hypermethylation and downregulated patterns in colorectal cancers, to identify differentially methylated regions in one of these genes, SFRP1, and to test whether the SFRP genes affect survival or not. Our results show that 31 hypermethylated genes had a negative correlation with gene expression. Among them, SFRP1 had a differentially methylated pattern at each methylation site. We also show that SFRP1 may be a potential biomarker for colorectal cancer survival.

Published

2014

42. Gene Set Analyses of Genome-Wide Association Studies on 49 Quantitative Traits Measured in a Single Genetic Epidemiology Dataset

Author

Jihye Kim, Ji-sun Kwon, and Sangsoo Kim

Subjects

Gene Ontology, gene set analysis, genome-wide association study, quantitative traits, semantic similarity, Genetics, QH426-470

Abstract

Gene set analysis is a powerful tool for interpreting a genome-wide association study result and is gaining popularity these days. Comparison of the gene sets obtained for a variety of traits measured from a single genetic epidemiology dataset may give insights into the biological mechanisms underlying these traits. Based on the previously published single nucleotide polymorphism (SNP) genotype data on 8,842 individuals enrolled in the Korea Association Resource project, we performed a series of systematic genome-wide association analyses for 49 quantitative traits of basic epidemiological, anthropometric, or blood chemistry parameters. Each analysis result was subjected to subsequent gene set analyses based on Gene Ontology (GO) terms using gene set analysis software, GSA-SNP, identifying a set of GO terms significantly associated to each trait (pcorr < 0.05). Pairwise comparison of the traits in terms of the semantic similarity in their GO sets revealed surprising cases where phenotypically uncorrelated traits showed high similarity in terms of biological pathways. For example, the pH level was related to 7 other traits that showed low phenotypic correlations with it. A literature survey implies that these traits may be regulated partly by common pathways that involve neuronal or nerve systems.

Published

2013

43. Partial AUC maximization for essential gene prediction using genetic algorithms

Author

Kyu-Baek Hwang, Beom-Yong Ha, Sanghun Ju, and Sangsoo Kim

Subjects

AUC, Classification, Essential genes, Genetic algorithms, Partial AUC, Biology (General), QH301-705.5, Biochemistry, QD415-436

Abstract

Identifying genes indispensable for an organism‘s life and theircharacteristics is one of the central questions in currentbiological research, and hence it would be helpful to developcomputational approaches towards the prediction of essentialgenes. The performance of a predictor is usually measured bythe area under the receiver operating characteristic curve(AUC). We propose a novel method by implementing geneticalgorithms to maximize the partial AUC that is restricted to aspecific interval of lower false positive rate (FPR), the regionrelevant to follow-up experimental validation. Our predictoruses various features based on sequence information, proteinproteininteraction network topology, and gene expressionprofiles. A feature selection wrapper was developed toalleviate the over-fitting problem and to weigh each feature’srelevance to prediction. We evaluated our method using theproteome of budding yeast. Our implementation of geneticalgorithms maximizing the partial AUC below 0.05 or 0.10 ofFPR outperformed other popular classification methods. [BMBReports 2013; 46(1): 41-46]

Published

2013

44. Understanding Disease Susceptibility through Population Genomics

Author

Seonggyun Han, Junnam Lee, and Sangsoo Kim

Subjects

cis-acting, co-expression network, disease susceptibility, expression quantitative trait loci, trans-acting, Genetics, QH426-470

Abstract

Genetic epidemiology studies have established that the natural variation of gene expression profiles is heritable and has genetic bases. A number of proximal and remote DNA variations, known as expression quantitative trait loci (eQTLs), that are associated with the expression phenotypes have been identified, first in Epstein-Barr virus-transformed lymphoblastoid cell lines and later expanded to other cell and tissue types. Integration of the eQTL information and the network analysis of transcription modules may lead to a better understanding of gene expression regulation. As these network modules have relevance to biological or disease pathways, these findings may be useful in predicting disease susceptibility.

Published

2012

45. Performance Comparison of Two Gene Set Analysis Methods for Genome-wide Association Study Results: GSA-SNP vs i-GSEA4GWAS

Author

Ji-sun Kwon, Jihye Kim, Dougu Nam, and Sangsoo Kim

Subjects

gene set analysis, genome-wide association study, GSA-SNP, i-GSEA4GWAS, imputation, Genetics, QH426-470

Abstract

Gene set analysis (GSA) is useful in interpreting a genome-wide association study (GWAS) result in terms of biological mechanism. We compared the performance of two different GSA implementations that accept GWAS p-values of single nucleotide polymorphisms (SNPs) or gene-by-gene summaries thereof, GSA-SNP and i-GSEA4GWAS, under the same settings of inputs and parameters. GSA runs were made with two sets of p-values from a Korean type 2 diabetes mellitus GWAS study: 259,188 and 1,152,947 SNPs of the original and imputed genotype datasets, respectively. When Gene Ontology terms were used as gene sets, i-GSEA4GWAS produced 283 and 1,070 hits for the unimputed and imputed datasets, respectively. On the other hand, GSA-SNP reported 94 and 38 hits, respectively, for both datasets. Similar, but to a lesser degree, trends were observed with Kyoto Encyclopedia of Genes and Genomes (KEGG) gene sets as well. The huge number of hits by i-GSEA4GWAS for the imputed dataset was probably an artifact due to the scaling step in the algorithm. The decrease in hits by GSA-SNP for the imputed dataset may be due to the fact that it relies on Z-statistics, which is sensitive to variations in the background level of associations. Judicious evaluation of the GSA outcomes, perhaps based on multiple programs, is recommended.

Published

2012

46. CysQ of , a Protozoa, May Have Been Acquired from Bacteria by Horizontal Gene Transfer

Author

Ji Young Lee and Sangsoo Kim

Subjects

conserved domain, CysQ, horizontal gene transfer, phylogenetic tree, sulfur assimilation, Genetics, QH426-470

Abstract

Horizontal gene transfer (HGT) is the movement of genetic material between kingdoms and is considered to play a positive role in adaptation. Cryptosporidium parvum is a parasitic protozoan that causes an infectious disease. Its genome sequencing reported 14 bacteria-like proteins in the nuclear genome. Among them, cgd2_1810, which has been annotated as CysQ, a sulfite synthesis pathway protein, is listed as one of the candidates of genes horizontally transferred from bacterial origin. In this report, we examined this issue using phylogenetic analysis. Our BLAST search showed that C. parvum CysQ protein had the highest similarity with that of proteobacteria. Analysis with NCBI's Conserved Domain Tree showed phylogenetic incongruence, in that C. parvum CysQ protein was located within a branch of proteobacteria in the cd01638 domain, a bacterial member of the inositol monophosphatase family. According to Kyoto Encyclopedia of Genes and Genomes (KEGG) pathway, the sulfate assimilation pathway, where CysQ plays an important role, is well conserved in most eukaryotes as well as prokaryotes. However, the Apicomplexa, including C. parvum, largely lack orthologous genes of the pathway, suggesting its loss in those protozoan lineages. Therefore, we conclude that C. parvum regained cysQ from proteobacteria by HGT, although its functional role is elusive.

Published

2012

47. Correction: Corrigendum: An ethnically relevant consensus Korean reference genome is a step towards personal reference genomes

Author

Yun Sung Cho, Hyunho Kim, Hak-Min Kim, Sungwoong Jho, JeHoon Jun, Yong Joo Lee, Kyun Shik Chae, Chang Geun Kim, Sangsoo Kim, Anders Eriksson, Jeremy S. Edwards, Semin Lee, Byung Chul Kim, Andrea Manica, Tae-Kwang Oh, George M. Church, and Jong Bhak

Subjects

Science

Abstract

Nature Communications 7: Article number: 13637 (2016): Published 24 November 2016; Updated 9 October 2017. The original version of this Article contained an error in the email address of the corresponding author George Church. The correct email is gchurch@genetics.med.harvard.edu. The error has beencorrected in the HTML and PDF versions of the Article.

Published

2017

48. Construction and Commissioning of PAL-XFEL Facility

Author

In Soo Ko, Heung-Sik Kang, Hoon Heo, Changbum Kim, Gyujin Kim, Chang-Ki Min, Haeryong Yang, Soung Youl Baek, Hyo-Jin Choi, Geonyeong Mun, Byoung Ryul Park, Young Jin Suh, Dong Cheol Shin, Jinyul Hu, Juho Hong, Seonghoon Jung, Sang-Hee Kim, KwangHoon Kim, Donghyun Na, Soung Soo Park, Yong Jung Park, Young Gyu Jung, Seong Hun Jeong, Hong Gi Lee, Sangbong Lee, Sojeong Lee, Bonggi Oh, Hyung Suck Suh, Jang-Hui Han, Min Ho Kim, Nam-Suk Jung, Young-Chan Kim, Mong-Soo Lee, Bong-Ho Lee, Chi-Won Sung, Ik-Su Mok, Jung-Moo Yang, Yong Woon Parc, Woul-Woo Lee, Chae-Soon Lee, Hocheol Shin, Ji Hwa Kim, Yongsam Kim, Jae Hyuk Lee, Sang-Youn Park, Jangwoo Kim, Jaeku Park, Intae Eom, Seungyu Rah, Sunam Kim, Ki Hyun Nam, Jaehyun Park, Jaehun Park, Sangsoo Kim, Soonnam Kwon, Ran An, Sang Han Park, Kyung Sook Kim, Hyojung Hyun, Seung Nam Kim, Seonghan Kim, Chung-Jong Yu, Bong-Soo Kim, Tai-Hee Kang, Kwang-Woo Kim, Seung-Hwan Kim, Hee-Seock Lee, Heung-Soo Lee, Ki-Hyeon Park, Tae-Yeong Koo, Dong-Eon Kim, and Ki Bong Lee

Subjects

FEL, free electron laser, PAL, PAL-XFEL, construction, commissioning, LINAC, beamline, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The construction of Pohang Accelerator Laboratory X-ray Free-Electron Laser (PAL-XFEL), a 0.1-nm hard X-ray free-electron laser (FEL) facility based on a 10-GeV S-band linear accelerator (LINAC), is achieved in Pohang, Korea by the end of 2016. The construction of the 1.11 km-long building was completed by the end of 2014, and the installation of the 10-GeV LINAC and undulators started in January 2015. The installation of the 10-GeV LINAC, together with the undulators and beamlines, was completed by the end of 2015. The commissioning began in April 2016, and the first lasing of the hard X-ray FEL line was achieved on 14 June 2016. The progress of the PAL-XFEL construction and its commission are reported here.

Published

2017

49. Integrative annotation of 21,037 human genes validated by full-length cDNA clones.

Author

Tadashi Imanishi, Takeshi Itoh, Yutaka Suzuki, Claire O'Donovan, Satoshi Fukuchi, Kanako O Koyanagi, Roberto A Barrero, Takuro Tamura, Yumi Yamaguchi-Kabata, Motohiko Tanino, Kei Yura, Satoru Miyazaki, Kazuho Ikeo, Keiichi Homma, Arek Kasprzyk, Tetsuo Nishikawa, Mika Hirakawa, Jean Thierry-Mieg, Danielle Thierry-Mieg, Jennifer Ashurst, Libin Jia, Mitsuteru Nakao, Michael A Thomas, Nicola Mulder, Youla Karavidopoulou, Lihua Jin, Sangsoo Kim, Tomohiro Yasuda, Boris Lenhard, Eric Eveno, Yoshiyuki Suzuki, Chisato Yamasaki, Jun-ichi Takeda, Craig Gough, Phillip Hilton, Yasuyuki Fujii, Hiroaki Sakai, Susumu Tanaka, Clara Amid, Matthew Bellgard, Maria de Fatima Bonaldo, Hidemasa Bono, Susan K Bromberg, Anthony J Brookes, Elspeth Bruford, Piero Carninci, Claude Chelala, Christine Couillault, Sandro J de Souza, Marie-Anne Debily, Marie-Dominique Devignes, Inna Dubchak, Toshinori Endo, Anne Estreicher, Eduardo Eyras, Kaoru Fukami-Kobayashi, Gopal R Gopinath, Esther Graudens, Yoonsoo Hahn, Michael Han, Ze-Guang Han, Kousuke Hanada, Hideki Hanaoka, Erimi Harada, Katsuyuki Hashimoto, Ursula Hinz, Momoki Hirai, Teruyoshi Hishiki, Ian Hopkinson, Sandrine Imbeaud, Hidetoshi Inoko, Alexander Kanapin, Yayoi Kaneko, Takeya Kasukawa, Janet Kelso, Paul Kersey, Reiko Kikuno, Kouichi Kimura, Bernhard Korn, Vladimir Kuryshev, Izabela Makalowska, Takashi Makino, Shuhei Mano, Regine Mariage-Samson, Jun Mashima, Hideo Matsuda, Hans-Werner Mewes, Shinsei Minoshima, Keiichi Nagai, Hideki Nagasaki, Naoki Nagata, Rajni Nigam, Osamu Ogasawara, Osamu Ohara, Masafumi Ohtsubo, Norihiro Okada, Toshihisa Okido, Satoshi Oota, Motonori Ota, Toshio Ota, Tetsuji Otsuki, Dominique Piatier-Tonneau, Annemarie Poustka, Shuang-Xi Ren, Naruya Saitou, Katsunaga Sakai, Shigetaka Sakamoto, Ryuichi Sakate, Ingo Schupp, Florence Servant, Stephen Sherry, Rie Shiba, Nobuyoshi Shimizu, Mary Shimoyama, Andrew J Simpson, Bento Soares, Charles Steward, Makiko Suwa, Mami Suzuki, Aiko Takahashi, Gen Tamiya, Hiroshi Tanaka, Todd Taylor, Joseph D Terwilliger, Per Unneberg, Vamsi Veeramachaneni, Shinya Watanabe, Laurens Wilming, Norikazu Yasuda, Hyang-Sook Yoo, Marvin Stodolsky, Wojciech Makalowski, Mitiko Go, Kenta Nakai, Toshihisa Takagi, Minoru Kanehisa, Yoshiyuki Sakaki, John Quackenbush, Yasushi Okazaki, Yoshihide Hayashizaki, Winston Hide, Ranajit Chakraborty, Ken Nishikawa, Hideaki Sugawara, Yoshio Tateno, Zhu Chen, Michio Oishi, Peter Tonellato, Rolf Apweiler, Kousaku Okubo, Lukas Wagner, Stefan Wiemann, Robert L Strausberg, Takao Isogai, Charles Auffray, Nobuo Nomura, Takashi Gojobori, and Sumio Sugano

Subjects

Biology (General), QH301-705.5

Abstract

The human genome sequence defines our inherent biological potential; the realization of the biology encoded therein requires knowledge of the function of each gene. Currently, our knowledge in this area is still limited. Several lines of investigation have been used to elucidate the structure and function of the genes in the human genome. Even so, gene prediction remains a difficult task, as the varieties of transcripts of a gene may vary to a great extent. We thus performed an exhaustive integrative characterization of 41,118 full-length cDNAs that capture the gene transcripts as complete functional cassettes, providing an unequivocal report of structural and functional diversity at the gene level. Our international collaboration has validated 21,037 human gene candidates by analysis of high-quality full-length cDNA clones through curation using unified criteria. This led to the identification of 5,155 new gene candidates. It also manifested the most reliable way to control the quality of the cDNA clones. We have developed a human gene database, called the H-Invitational Database (H-InvDB; http://www.h-invitational.jp/). It provides the following: integrative annotation of human genes, description of gene structures, details of novel alternative splicing isoforms, non-protein-coding RNAs, functional domains, subcellular localizations, metabolic pathways, predictions of protein three-dimensional structure, mapping of known single nucleotide polymorphisms (SNPs), identification of polymorphic microsatellite repeats within human genes, and comparative results with mouse full-length cDNAs. The H-InvDB analysis has shown that up to 4% of the human genome sequence (National Center for Biotechnology Information build 34 assembly) may contain misassembled or missing regions. We found that 6.5% of the human gene candidates (1,377 loci) did not have a good protein-coding open reading frame, of which 296 loci are strong candidates for non-protein-coding RNA genes. In addition, among 72,027 uniquely mapped SNPs and insertions/deletions localized within human genes, 13,215 nonsynonymous SNPs, 315 nonsense SNPs, and 452 indels occurred in coding regions. Together with 25 polymorphic microsatellite repeats present in coding regions, they may alter protein structure, causing phenotypic effects or resulting in disease. The H-InvDB platform represents a substantial contribution to resources needed for the exploration of human biology and pathology.

Published

2004

50. Editor's Introduction to This Issue

Author

Sangsoo Kim

Subjects

Genetics, QH426-470

Published

2013