Your search keyword '"Hsuan-Wei Hsu"' showing total 10 results

1. Preferential cleavage of the coronavirus defective viral genome by cellular endoribonuclease with characteristics of RNase L

Author

Ching-Hung Lin, Hsuan-Yung Lin, Chun-Chun Yang, Hsuan-Wei Hsu, Feng-Cheng Hsieh, Cheng-Yao Yang, and Hung-Yi Wu

Subjects

Coronavirus, Defective viral genome, RNA cleavage, Endoribonuclease, RNase L, Infectious and parasitic diseases, RC109-216

Abstract

Abstract In testing whether coronavirus defective viral genome 12.7 (DVG12.7) with transcription regulating sequence (TRS) can synthesize subgenomic mRNA (sgmRNA) in coronavirus-infected cells, it was unexpectedly found by Northern blot assay that not only sgmRNA (designated sgmDVG 12.7) but also an RNA fragment with a size less than sgmDVG 12.7 was identified. A subsequent study demonstrated that the identified RNA fragment (designated clvDVG) was a cleaved RNA product originating from DVG12.7, and the cleaved sites were located in the loop region of stem‒loop structure and after UU and UA dinucleotides. clvDVG was also identified in mock-infected HRT-18 cells transfected with DVG12.7 transcript, indicating that cellular endoribonuclease is responsible for the cleavage. In addition, the sequence and structure surrounding the cleavage sites can affect the cleavage efficiency of DVG12.7. The cleavage features are therefore consistent with the general criteria for RNA cleavage by cellular RNase L. Furthermore, both the cleavage of rRNA and the synthesis of clvDVG were also identified in A549 cells. Because (i) the cleavage sites occurred predominantly after single-stranded UA and UU dinucleotides, (ii) the sequence and structure surrounding the cleavage sites affected the cleavage efficiency, (iii) the cleavage of rRNA is an index of the activation of RNase L, and (iv) the cleavage of both rRNA and DVG12.7 was identified in A549 cells, the results together indicated that the preferential cleavage of DVG12.7 is correlated with cellular endoribonuclease with the characteristics of RNase L and such cleavage features have not been previously characterized in coronaviruses.

Published

2024

2. Identification of the protein coding capability of coronavirus defective viral genomes by mass spectrometry

Author

Ching-Hung Lin, Feng-Cheng Hsieh, Chien-Chen Lai, Wei-Chen Wang, Cheng-Yu Kuo, Chun-Chun Yang, Hsuan-Wei Hsu, Hon-Man-Herman Tam, Cheng-Yao Yang, and Hung-Yi Wu

Subjects

Coronavirus, Defective viral genome, Protein coding, Gene expression, Pathogenesis, Infectious and parasitic diseases, RC109-216

Abstract

Abstract During coronavirus infection, in addition to the well-known coronavirus genomes and subgenomic mRNAs, an abundance of defective viral genomes (DVGs) can also be synthesized. In this study, we aimed to examine whether DVGs can encode proteins in infected cells. Nanopore direct RNA sequencing and liquid chromatography-tandem mass spectrometry (LC–MS/MS) analysis were employed. With the protein databases generated by nanopore direct RNA sequencing and the cell lysates derived from the RNA–protein pull-down assay, six DVG-encoded proteins were identified by LC–MS/MS based on the featured fusion peptides caused by recombination during DVG synthesis. The results suggest that the coronavirus DVGs have the capability to encode proteins. Consequently, future studies determining the biological function of DVG-encoded proteins may contribute to the understanding of their roles in coronavirus pathogenesis and the development of antiviral strategies.

Published

2023

3. Targeting the conserved coronavirus octamer motif GGAAGAGC is a strategy for the development of coronavirus vaccine

Author

Ching-Hung Lin, Feng-Cheng Hsieh, Yu-Chia Chang, Cheng-Yao Yang, Hsuan-Wei Hsu, Chun-Chun Yang, Hon-Man-Herman Tam, and Hung-Yi Wu

Subjects

Coronavirus, Coronavirus octamer, Vaccine, Translation, Replication, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Coronaviruses are pathogens of humans and animals that cause widespread and costly diseases. The development of effective strategies to combat the threat of coronaviruses is therefore a top priority. The conserved coronavirus octamer motif 5’GGAAGAGC3’ exists in the 3’ untranslated region of all identified coronaviruses. In the current study, we aimed to examine whether targeting the coronavirus octamer motif GGAAGAGC is a promising approach to develop coronavirus vaccine. Methods Plaque assays were used to determine the titers of mouse hepatitis virus (MHV)-A59 octamer mutant (MHVoctm) and wild-type (wt) MHV-A59 (MHVwt). Western blotting was used for the determination of translation efficiency of MHVoctm and MHVwt. Plaque assays and RT-qPCR were employed to examine whether MHVoctm was more sensitive to interferon treatment than MHVwt. Weight loss, clinical signs, survival rate, viral RNA detection and histopathological examination were used to evaluate whether MHVoctm was a vaccine candidate against MHVwt infection in BALB/c mice. Results In this study, we showed that (i) the MHVoctm with mutation of coronavirus octamer was able to grow to high titers but attenuated in mice, (ii) with the reduced multiplicity of infection (MOI), the difference in gene expression between MHVoctm and MHVwt became more evident in cultured cells, (iii) MHVoctm was more sensitive to interferon treatment than MHVwt and (iv) mice inoculated with MHVoctm were protected from MHVwt infection. Conclusions Based on the results obtained from cultured cells, it was suggested that the synergistic effects of octamer mutation, multiplicity of infection and immune response may be a mechanism explaining the distinct phenotypes of octamer-mutated coronavirus in cell culture and mice. In addition, targeting the conserved coronavirus octamer motif is a strategy for development of coronavirus vaccine. Since the conserved octamer exists in all coronaviruses, this strategy of targeting the conserved octamer motif can also be applied to other human and animal coronaviruses for the development of coronavirus vaccines, especially the emergence of novel coronaviruses such as SARS-CoV-2, saving time and cost for vaccine development and disease control.

Published

2023

4. Biological characterization of coronavirus noncanonical transcripts in vitro and in vivo

Author

Ching-Hung Lin, BoJia Chen, Day-Yu Chao, Feng-Cheng Hsieh, Chien-Chen Lai, Wei-Chen Wang, Cheng-Yu Kuo, Chun-Chun Yang, Hsuan-Wei Hsu, Hon-Man-Herman Tam, and Hung-Yi Wu

Subjects

Coronavirus, Noncanonical transcript, Pathogenesis, Gene expression, Coronavirus genome, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background In addition to the well-known coronavirus genomes and subgenomic mRNAs, the existence of other coronavirus RNA species, which are collectively referred to as noncanonical transcripts, has been suggested; however, their biological characteristics have not yet been experimentally validated in vitro and in vivo. Methods To comprehensively determine the amounts, species and structures of noncanonical transcripts for bovine coronavirus in HRT-18 cells and mouse hepatitis virus A59, a mouse coronavirus, in mouse L cells and mice, nanopore direct RNA sequencing was employed. To experimentally validate the synthesis of noncanonical transcripts under regular infection, Northern blotting was performed. Both Northern blotting and nanopore direct RNA sequencing were also applied to examine the reproducibility of noncanonical transcripts. In addition, Northern blotting was also employed to determine the regulatory features of noncanonical transcripts under different infection conditions, including different cells, multiplicities of infection (MOIs) and coronavirus strains. Results In the current study, we (i) experimentally determined that coronavirus noncanonical transcripts were abundantly synthesized, (ii) classified the noncanonical transcripts into seven populations based on their structures and potential synthesis mechanisms, (iii) showed that the species and amounts of the noncanonical transcripts were reproducible during regular infection but regulated in altered infection environments, (iv) revealed that coronaviruses may employ various mechanisms to synthesize noncanonical transcripts, and (v) found that the biological characteristics of coronavirus noncanonical transcripts were similar between in vitro and in vivo conditions. Conclusions The biological characteristics of noncanonical coronavirus transcripts were experimentally validated for the first time. The identified features of noncanonical transcripts in terms of abundance, reproducibility and variety extend the current model for coronavirus gene expression. The capability of coronaviruses to regulate the species and amounts of noncanonical transcripts may contribute to the pathogenesis of coronaviruses during infection, posing potential challenges in disease control. Thus, the biology of noncanonical transcripts both in vitro and in vivo revealed here can provide a database for biological research, contributing to the development of antiviral strategies.

Published

2023

5. Unveiling the biology of defective viral genomes in vitro and in vivo: implications for gene expression and pathogenesis of coronavirus

Author

Ching-Hung Lin, BoJia Chen, Day-Yu Chao, Feng-Cheng Hsieh, Chun-Chun Yang, Hsuan-Wei Hsu, Hon-Man-Herman Tam, and Hung-Yi Wu

Subjects

Coronavirus, Defective viral genome, Gene expression, Pathogenesis, Coronavirus genome structure, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Defective viral genome (DVG) is a truncated version of the full-length virus genome identified in most RNA viruses during infection. The synthesis of DVGs in coronavirus has been suggested; however, the fundamental characteristics of coronavirus DVGs in gene expression and pathogenesis have not been systematically analyzed. Methods Nanopore direct RNA sequencing was used to investigate the characteristics of coronavirus DVGs in gene expression including reproducibility, abundance, species and genome structures for bovine coronavirus in cells, and for mouse hepatitis virus (MHV)-A59 (a mouse coronavirus) in cells and in mice. The MHV-A59 full-length genomic cDNAs (~ 31 kilobases) were in vitro constructed to experimentally validate the origin of coronavirus DVG. The synthesis of DVGs was also experimentally identified by RT-PCR followed by sequencing. In addition, the alterations of DVGs in amounts and species under different infection environments and selection pressures including the treatment of antiviral remdesivir and interferon were evaluated based on the banding patterns by RT-PCR. Results The results are as follows: (i) the structures of DVGs are with diversity, (ii) DVGs are overall synthesized with moderate (MHV-A59 in cells) to high (BCoV in cells and MHV-A59 in mice) reproducibility under regular infection with the same virus inoculum, (iii) DVGs can be synthesized from the full-length coronavirus genome, (iv) the sequences flanking the recombination point of DVGs are AU-rich and thus may contribute to the recombination events during gene expression, (v) the species and amounts of DVG are altered under different infection environments, and (vi) the biological nature of DVGs between in vitro and in vivo is similar. Conclusions The identified biological characteristics of coronavirus DVGs in terms of abundance, reproducibility, and variety extend the current model for coronavirus gene expression. In addition, the biological features of alterations in amounts and species of coronavirus DVGs under different infection environments may assist the coronavirus to adapt to the altered environments for virus fitness and may contribute to the coronavirus pathogenesis. Consequently, the unveiled biological features may assist the community to study the gene expression mechanisms of DVGs and their roles in pathogenesis, contributing to the development of antiviral strategy and public health.

Published

2023

6. Rapid vertical exchange at fronts in the Northern Gulf of Mexico

Author

Lixin Qu, Leif N. Thomas, Aaron F. Wienkers, Robert D. Hetland, Daijiro Kobashi, John R. Taylor, Fucent Hsuan Wei Hsu, Jennifer A. MacKinnon, R. Kipp Shearman, and Jonathan D. Nash

Subjects

Science

Abstract

Vertical exchange in the ocean is an important conduit connecting the surface to the deep and influences the distributions of gases, nutrients, pollutants, and other tracers. Here the authors using high-resolution observations and numerical simulations of the ocean fronts in the Northern Gulf of Mexico reveal that the interaction between the fronts and land-sea breeze creates slantwise pathways for water parcels and induces significant subduction of surface water and upwelling of bottom water.

Published

2022

7. Deepfake Algorithm Using Multiple Noise Modalities with Two-Branch Prediction Network.

Author

Hsuan-Wei Hsu and Jian-Jiun Ding

Published

2021

8. Enabling emission tracking in tool manufacturing : Life cycle assessment of turning insert production

Author

Hsuan-Wei Hsu, Edward and Hsuan-Wei Hsu, Edward

Abstract

Cemented carbide is used as a tool in a variety of manufacturing processes. It provides high temperature and wear resistance, which is suitable for ammunition, cutting, and mining tools. However, the extraction of tungsten ore as well as other materials required for cemented carbide tool production also leads to environmental impacts. It is therefore necessary to investigate cemented carbide tool production and reduce its overall impact. The aim of this thesis is to investigate life cycle environmental and resource impacts of cemented carbide turning insert production at Seco’s factory in Fagersta. A cradle-to-gate life cycle assessment (LCA) is conducted to analyze the impact hotspots and discuss possible improvements applying data from Seco Tool’s factory in Fagersta. The study identifies the raw material of tungsten carbide as the primary contributor to environmental impact, particularly in processes like mining. Besides the main hotspot, other hotspots within the factory such as CVD coating and waste generation are identified, alongside sensitivities to electricity mix in processes like sintering and pressing. Moreover, the analysis underscores the significance of powder production from suppliers in the insert's life cycle impact, emphasizing the need for reduced impacts in these processes. The study also highlights the potential for reducing emissions through renewable energy integration, while recognizing the importance of waste tracking and management for overall environmental sustainability. Lastly, the model design for such analysis is discussed, stressing the importance of functional unit and allocation method in LCA., Cementerad karbid används i en mängd olika metallproduktioner. Det erbjuder hög temperatur- och slitstyrka, vilket är lämpligt för ammunition, skärverktyg och gruvverktyg. Emellertid leder utvinningen av volfram för cementerad karbid också till miljöpåverkan. Det är därför nödvändigt att undersöka användningen av cementerad karbid och minska dess totala påverkan. I samarbete med Seco Tools syftar denna avhandling till att undersöka den livscykelmässiga miljö- och resursmässiga påverkan av produktionen av cementerad karbid skärverktyg vid Secos fabrik i Fagersta. En livscykelanalys från vagga till grav genomförs för att analysera påverkningshotspots och diskutera möjliga förbättringar. Studien identifierar råmaterialet volframkarbid som den främsta bidragande faktorn till miljöpåverkan, särskilt i processer som gruvdrift. Förutom den huvudsakliga hotspotten identifieras andra hotspots inom fabriken, såsom CVD-beläggning och avfall, tillsammans med känslighet för elmix i processer som sintring och pressning. Analysen betonar också betydelsen av pulverproduktion från leverantörer i skärverktygets livscykelpåverkan och understryker behovet av noggranna miljödata. Studien framhäver även potentialen för att minska utsläpp genom integration av förnybar energi, samtidigt som den erkänner vikten av avfallsspårning och hantering för övergripande miljöhållbarhet. Slutligen diskuterar avhandlingen modellens utformning för sådan analys och betonar vikten av funktionell enhet och fördelningsmetod i livscykelanalys.

Published

2024

9. Prominent facial feature and hybrid learning method-based advanced face detector robust to head-up, head-down, and arbitrary rotation cases

Author

Chien-Yu Chen, Jian-Jiun Ding, and Hsuan-Wei Hsu

Subjects

business.industry, Computer science, Feature extraction, Detector, 020206 networking & telecommunications, 02 engineering and technology, Convolutional neural network, Feature (computer vision), Face (geometry), Signal Processing, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, Computer vision, Artificial intelligence, Enhanced Data Rates for GSM Evolution, Electrical and Electronic Engineering, business, Face detection, Rotation (mathematics)

Abstract

Face detection is important for computer vision. Until now, the Viola and Jones algorithm is still the most popular face detector embedded in digital cameras. Although it has good performance in frontal face detection, it may not perform well in detecting rotated, head-up, and head-down faces. In this paper, we propose a more robust face detector based on prominent feature extraction. We find that, in addition to using eyes and mouth, which have been adopted by other algorithms, noses and ears are also important clues for face detection. Particularly, for a profile face, only a single eye can be detected. For head-up or head-down faces, eyes and mouth may not be well detected. However, in these cases, noses and ears can still be detected well and we can apply these features to improve the accuracy of rotated, head-up, and head-down face detection. To well detect these prominent features, in addition to the Viola–Jones detector, we also apply edge and color information and use the refocus algorithm based on the convolutional neural network. Simulations conducted on several popular multi-view face databases show that the proposed face detector can attain higher detection rates and is robust to rotated, head-up, and head-down cases.

Published

2020

10. Polling Mechanism for Video Deepfake

Author

Jian-Jiun Ding, Hsuan-Wei Hsu, and Chien-Wei Huang

Published

2021