Your search keyword '"Enoch Y. Park"' showing total 325 results

1. Involvement of a flavoprotein, acetohydroxyacid synthase, in growth and riboflavin production in riboflavin-overproducing Ashbya gossypii mutant

Author

Tatsuya Kato, Mai Kano, Ami Yokomori, Junya Azegami, Hesham A. El Enshasy, and Enoch Y. Park

Subjects

Ashbya gossypii, Riboflavin, Flavoprotein, Acetohydroxyacid synthase, Microbiology, QR1-502

Abstract

Abstract Background Previously, we isolated a riboflavin-overproducing Ashbya gossypii mutant (MT strain) and discovered some mutations in genes encoding flavoproteins. Here, we analyzed the riboflavin production in the MT strain, in view of flavoproteins, which are localized in the mitochondria. Results In the MT strain, mitochondrial membrane potential was decreased compared with that in the wild type (WT) strain, resulting in increased reactive oxygen species. Additionally, diphenyleneiodonium (DPI), a universal flavoprotein inhibitor, inhibited riboflavin production in the WT and MT strains at 50 µM, indicating that some flavoproteins may be involved in riboflavin production. The specific activities of NADH and succinate dehydrogenases were significantly reduced in the MT strain, but those of glutathione reductase and acetohydroxyacid synthase were increased by 4.9- and 25-fold, respectively. By contrast, the expression of AgGLR1 gene encoding glutathione reductase was increased by 32-fold in the MT strain. However, that of AgILV2 gene encoding the catalytic subunit of acetohydroxyacid synthase was increased by only 2.1-fold. These results suggest that in the MT strain, acetohydroxyacid synthase, which catalyzes the first reaction of branched-chain amino acid biosynthesis, is vital for riboflavin production. The addition of valine, which is a feedback inhibitor of acetohydroxyacid synthase, to a minimal medium inhibited the growth of the MT strain and its riboflavin production. In addition, the addition of branched-chain amino acids enhanced the growth and riboflavin production in the MT strain. Conclusion The significance of branched-chain amino acids for riboflavin production in A. gossypii is reported and this study opens a novel approach for the effective production of riboflavin in A. gossypii.

Published

2023

2. Ultrasensitive Raman Spectroscopy-Based Virus Detection Using Glycan-Coated Plasmonic Substrates

Author

Ojodomo J. Achadu and Enoch Y. Park

Subjects

Raman spectroscopy, diagnostic biosensor, hepatitis virus, glycans, plasmonic quantum dots, Engineering machinery, tools, and implements, TA213-215

Abstract

Hepatitis viral infections are the most common cause of hepatitis liver disease, which eventually leads to cancer and fibrosis if not detected early. Therefore, early detection would allow for preventive and therapeutic actions. Here, a surface-enhanced Raman spectroscopy (SERS)-based biosensor was developed using plasmonic molybdenum trioxide quantum dots (MoO3-QDs) as the SERS substrates. The nanostructured substrate of MoO3-QDs was functionalized with a proteoglycan (syndecan-1) as a novel bioreceptor for the target hepatitis E virus (HEV). The innovative biodetection system achieved a detection limit of 1.05 fg/mL for the tested HEV target (ORF2), indicating superb clinically relevant sensitivity and performance. The designed biosensing system incorporating a glycan motif as a bioreceptor instead of the conventional antibodies or aptamers presents new insights for the ultrasensitive detection of HEV and other infectious viruses.

Published

2023

3. Humoral immune response induced with dengue virus-like particles serotypes 1 and 4 produced in silkworm

Author

Doddy Irawan Setyo Utomo, Sabar Pambudi, and Enoch Y. Park

Subjects

Dengue virus, Capsid, Premembrane, Envelope, Dengue virus-like particle, Silkworm, Biotechnology, TP248.13-248.65, Microbiology, QR1-502

Abstract

Highlights Dengue virus-like particles for serotype 1 and serotype 4 (DENV-LPs/1 and DENV-LPs/4) were produced in silkworm. Heparin-binding assay by ELISA and ITC showed that DENV-LPs/1 and DENV-LPs/4 contain Envelope Domain III. DENV-LPs/1 and DENV-LPs/4 showed affinity to sera from human dengue patients and immunized mice.

Published

2022

4. Display of multiple proteins on engineered canine parvovirus-like particles expressed in cultured silkworm cells and silkworm larvae

Author

Jian Xu, Tomofumi Sekiguchi, Jirayu Boonyakida, Tatsuya Kato, and Enoch Y. Park

Subjects

canine parvovirus, protein display, silkworm, SnoopTag, SpyTag, vaccine conceptualization, Biotechnology, TP248.13-248.65

Abstract

Recent progress has been made dramatically in decorating virus-like particles (VLPs) on the surface or inside with functional molecules, such as antigens or nucleic acids. However, it is still challenging to display multiple antigens on the surface of VLP to meet the requirement as a practical vaccine candidate. Herein this study, we focus on the expression and engineering of the capsid protein VP2 of canine parvovirus for VLP display in the silkworm-expression system. The chemistry of the SpyTag/SpyCatcher (SpT/SpC) and SnoopTag/SnoopCatcher (SnT/SnC) are efficient protein covalent ligation systems to modify VP2 genetically, where SpyTag/SnoopTag are inserted into the N-terminus or two distinct loop regions (Lx and L2) of VP2. The SpC-EGFP and SnC-mCherry are employed as model proteins to evaluate their binding and display on six SnT/SnC-modified VP2 variants. From a series of protein binding assays between indicated protein partners, we showed that the VP2 variant with SpT inserted at the L2 region significantly enhanced VLP display to 80% compared to 5.4% from N-terminal SpT-fused VP2-derived VLPs. In contrast, the VP2 variant with SpT at the Lx region failed to form VLPs. Moreover, the SpT (Lx)/SnT (L2) double-engineered chimeric VP2 variants showed covalent conjugation capacity to both SpC/SnC protein partners. The orthogonal ligations between those binding partners were confirmed by both mixing purified proteins and co-infecting cultured silkworm cells or larvae with desired recombinant viruses. Our results indicate that a convenient VLP display platform was successfully developed for multiple antigen displays on demand. Further verifications can be performed to assess its capacity for displaying desirable antigens and inducing a robust immune response to targeted pathogens.

Published

2023

5. Identification of antigenic domains and peptides from VP15 of white spot syndrome virus and their antiviral effects in Marsupenaeus japonicus

Author

Jirayu Boonyakida, Jian Xu, Jun Satoh, Takafumi Nakanishi, Tohru Mekata, Tatsuya Kato, and Enoch Y. Park

Subjects

Medicine, Science

Abstract

Abstract White spot syndrome virus (WSSV) is one of the most devastating pathogens in penaeid shrimp and can cause massive damage in shrimp aquaculture industries. Previously, the WSSV structural protein VP15 was identified as an antigenic reagent against WSSV infections. In this study, we truncated this protein into VP15(1–25), VP15(26–57), VP15(58–80), and VP15(1–25,58–80). The purified proteins from the E. coli expression system were assayed as potential protective agents in Kuruma shrimp (Marsupenaeus japonicus) using the prime-and-boost strategy. Among the four truncated constructs, VP15(26–57) provided a significant improvement in the shrimp survival rate after 20 days of viral infection. Subsequently, four peptides (KR11, SR11, SK10, and KK13) from VP15(26–57) were synthesized and applied in an in vivo assay. Our results showed that SR11 could significantly enhance the shrimp survival rate, as determined from the accumulated survival rate. Moreover, a multiligand binding protein with a role in the host immune response and a possible VP15-binding partner, MjgC1qR, from the host M. japonicus were employed to test its binding with the VP15 protein. GST pull-down assays revealed that MjgC1qR binds with VP15, VP15(26–57), and SR11. Taken together, we conclude that SR11 is a determinant antigenic peptide of VP15 conferring antiviral activity against WSSV.

Published

2021

6. Ni-modified magnetic nanoparticles for affinity purification of His-tagged proteins from the complex matrix of the silkworm fat body

Author

Robert Minkner, Jian Xu, Kenshin Takemura, Jirayu Boonyakida, Hermann Wätzig, and Enoch Y. Park

Subjects

Magnetic nanoparticles, Affinity purification, Recombinant protein, Silkworm, Magnetic separation, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Purification of recombinant proteins is often a challenging matter because high purity and high recovery are desired. If the expressed recombinant protein is also in a complex matrix, such as from the silkworm expression system, purification becomes more challenging. Even if purification from the silkworm expression system is troublesome, it benefits from a high capacity for the production of recombinant proteins. In this study, magnetic nanoparticles (MNPs) were investigated as a suitable tool for the purification of proteins from the complex matrix of the silkworm fat body. The MNPs were modified with nickel so that they have an affinity for His-tagged proteins, as the MNP purification protocol itself does not need special equipment except for a magnet. Among the three different kinds of investigated MNPs, MNPs with sizes of 100 nm to 200 nm and approximately 20 nm-thick nickel shells were the most suitable for our purpose. With them, the total protein amount was reduced by up to at least approximately 77.7%, with a protein recovery of around 50.8% from the silkworm fat body. The minimum binding capacity was estimated to be 83.3 µg protein/mg MNP. Therefore, these MNPs are a promising tool as a purification pretreatment of complex sample matrices.

Published

2020

7. Electrochemical detection of white spot syndrome virus with a silicone rubber disposable electrode composed of graphene quantum dots and gold nanoparticle-embedded polyaniline nanowires

Author

Kenshin Takemura, Jun Satoh, Jirayu Boonyakida, Sungjo Park, Ankan Dutta Chowdhury, and Enoch Y. Park

Subjects

White spot syndrome virus, Electrochemical virus detection, Disposable electrode, Polyaniline, Gold nanoparticle, Graphene quantum dots, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Background With the enormous increment of globalization and global warming, it is expected that the number of newly evolved infectious diseases will continue to increase. To prevent damage due to these infections, the development of a diagnostic method for detecting a virus with high sensitivity in a short time is highly desired. In this study, we have developed a disposable electrode with high-sensitivity and accuracy to evaluate its performances for several target viruses. Results Conductive silicon rubber (CSR) was used to fabricate a disposable sensing matrix composed of nitrogen and sulfur-co-doped graphene quantum dots (N,S-GQDs) and a gold-polyaniline nanocomposite (AuNP-PAni). A specific anti-white spot syndrome virus (WSSV) antibody was conjugated to the surface of this nanocomposite, which was successfully applied for the detection of WSSV over a wide linear range of concentration from 1.45 × 102 to 1.45 × 105 DNA copies/ml, with a detection limit as low as 48.4 DNA copies/ml. Conclusion The engineered sensor electrode can retain the detection activity up to 5 weeks, to confirm its long-term stability, required for disposable sensing applications. This is the first demonstration of the detection of WSSV by a nanofabricated sensing electrode with high sensitivity, selectivity, and stability, providing as a potential diagnostic tool to monitor WSSV in the aquaculture industry.

Published

2020

8. Agglutination of Human Polyomaviruses by Using a Tetravalent Glycocluster as a Cross-Linker

Author

Makoto Ogata, Takashi Onoda, Ami Koizumi, Yuhei Tokunaga, Isao Ohta, Souichi Nukuzuma, Enoch Y. Park, Taichi Usui, and Tetsuro Suzuki

Subjects

Chemistry, QD1-999

Published

2020

9. Production of dengue virus-like particles serotype-3 in silkworm larvae and their ability to elicit a humoral immune response in mice

Author

Doddy Irawan Setyo Utomo, Sabar Pambudi, Fithriyah Sjatha, Tatsuya Kato, and Enoch Y. Park

Subjects

Dengue virus, Capsid, Premembrane, Envelope, Dengue virus-like particle, Silkworm, Biotechnology, TP248.13-248.65, Microbiology, QR1-502

Abstract

Abstract To develop monovalent dengue virus-like particle for serotype 3 (DENV-LP/3), we prepared and expressed two structural polyprotein constructs using silkworm and Bm5 cells: DENV-3 Capsid-premembrane-envelope (DENV-3CprME) and premembrane-envelope (DENV-3prME). The expressed PA-tagged 3CprME and 3prME polypeptides were partially purified by PA-tag affinity chromatography and had molecular weights of 85 and 75 kDa, respectively. Expressed proteins were separately verified using the following primary antibodies: the anti-PA tag antibody, DENV premembrane polyclonal antibody, and DENV envelope polyclonal antibody. Transmission electron microscopy revealed that these DENV-3CprME and 3prME formed rough, spherical DENV-LPs (DENV-LP/3CprME and DENV-LP/3prME), respectively, with a diameter of 30–55 nm. The heparin-binding assay demonstrated that these DENV-LPs contained the envelope protein domain III on their surfaces. Both DENV-LPs showed an affinity to sera from human dengue patients and immunized mice. Immunization of mice with DENV-LP/3prME significantly induced the level of antibodies compared with DENV-LP/3CprME. These results indicate that DENV-LP/3prME is suitable as a vaccine candidate compared with DENV-LP/3CprME.

Published

2020

10. Genomic analysis of a riboflavin-overproducing Ashbya gossypii mutant isolated by disparity mutagenesis

Author

Tatsuya Kato, Junya Azegami, Ami Yokomori, Hideo Dohra, Hesham A. El Enshasy, and Enoch Y. Park

Subjects

Ashbya gossypii, Riboflavin production, Disparity mutagenesis, Homozygous mutation, Heterozygous mutation, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Ashbya gossypii naturally overproduces riboflavin and has been utilized for industrial riboflavin production. To improve riboflavin production, various approaches have been developed. In this study, to investigate the change in metabolism of a riboflavin-overproducing mutant, namely, the W122032 strain (MT strain) that was isolated by disparity mutagenesis, genomic analysis was carried out. Results In the genomic analysis, 33 homozygous and 1377 heterozygous mutations in the coding sequences of the genome of MT strain were detected. Among these heterozygous mutations, the proportion of mutated reads in each gene was different, ranging from 21 to 75%. These results suggest that the MT strain may contain multiple nuclei containing different mutations. We tried to isolate haploid spores from the MT strain to prove its ploidy, but this strain did not sporulate under the conditions tested. Heterozygous mutations detected in genes which are important for sporulation likely contribute to the sporulation deficiency of the MT strain. Homozygous and heterozygous mutations were found in genes encoding enzymes involved in amino acid metabolism, the TCA cycle, purine and pyrimidine nucleotide metabolism and the DNA mismatch repair system. One homozygous mutation in AgILV2 gene encoding acetohydroxyacid synthase, which is also a flavoprotein in mitochondria, was found. Gene ontology (GO) enrichment analysis showed heterozygous mutations in all 22 DNA helicase genes and genes involved in oxidation-reduction process. Conclusion This study suggests that oxidative stress and the aging of cells were involved in the riboflavin over-production in A. gossypii riboflavin over-producing mutant and provides new insights into riboflavin production in A. gossypii and the usefulness of disparity mutagenesis for the creation of new types of mutants for metabolic engineering.

Published

2020

11. Nanosphere Structures Using Various Materials: A Strategy for Signal Amplification for Virus Sensing

Author

Sjaikhurrizal El Muttaqien, Indra Memdi Khoris, Sabar Pambudi, and Enoch Y. Park

Subjects

nanobiosensor, virus detection, signal amplification, nanosphere, polymeric nanosphere, carbon-based nanosphere, Chemical technology, TP1-1185

Abstract

Nanomaterials have been explored in the sensing research field in the last decades. Mainly, 3D nanomaterials have played a vital role in advancing biomedical applications, and less attention was given to their application in the field of biosensors for pathogenic virus detection. The versatility and tunability of a wide range of nanomaterials contributed to the development of a rapid, portable biosensor platform. In this review, we discuss 3D nanospheres, one of the classes of nanostructured materials with a homogeneous and dense matrix wherein a guest substance is carried within the matrix or on its surface. This review is segmented based on the type of nanosphere and their elaborative application in various sensing techniques. We emphasize the concept of signal amplification strategies using different nanosphere structures constructed from a polymer, carbon, silica, and metal–organic framework (MOF) for rendering high-level sensitivity of virus detection. We also briefly elaborate on some challenges related to the further development of nanosphere-based biosensors, including the toxicity issue of the used nanomaterial and the commercialization hurdle.

Published

2022

12. Electrical pulse-induced electrochemical biosensor for hepatitis E virus detection

Author

Ankan Dutta Chowdhury, Kenshin Takemura, Tian-Cheng Li, Tetsuro Suzuki, and Enoch Y. Park

Subjects

Science

Abstract

Detection of viral biomarkers is important for disease treatment and prevention. Here, the authors report on a system that uses an electrical pulse-induced electrochemical sensor for the detection of hepatitis E virus, and demonstrate potential application of the device.

Published

2019

13. Streptomyces sp. ADR1, Strain Producing β- and γ-Rubromycin Antibiotics, Isolated from Algerian Sahara Desert

Author

Ali Zineddine Boumehira, Bronywn Kirby, Marla Trindade, Hocine Hacène, Enoch Y. Park, and Hesham A. El Enshasy

Subjects

Streptomyces sp. ADR1, cytotoxic, anticancer agent, rubromycin, Algerian Sahara Desert, telomerase inhibitor, Fermentation industries. Beverages. Alcohol, TP500-660

Abstract

A Gram-positive strain, ADR1, was isolated from soil collected from the Algerian Sahara Desert. The ethyl acetate extract of the fermentation broth showed cytotoxic activity against the PANC-1 cell line (37.1 ± 1.3% viability when applied at a concentration of 100 µg/mL). Fractionation and NMR analysis of two peaks absorbing at 490 nm revealed that they represented β- and γ-rubromycin, anticancer antibiotic compounds. The ADR1 strain contained LL-diaminopimelic acid in the whole-cell hydrolysate, and the partial 16S ribosomal RNA gene sequence (1392 bp, Accession No. KF947515) showed 99% sequence similarity to Streptomyces species. Therefore, the name Streptomyces sp. ADR1 was proposed and deposited in the Wellness Industries Culture Collection (WICC) of the Institute of Bioproduct Development, UTM, Malaysia, under the number (WICC- B86). In a 16 L stirred-tank bioreactor, the stain was adapted to submerged culture conditions and produced rubromycins at a relatively high concentration, with maximums of 24.58 mg/L and 356 mg/L for β- and γ-rubromycins, respectively.

Published

2022

14. Plasmonic Oleylamine-Capped Gold and Silver Nanoparticle-Assisted Synthesis of Luminescent Alloyed CdZnSeS Quantum Dots

Author

Oluwasesan Adegoke, Kenshin Takemura, and Enoch Y. Park

Subjects

Chemistry, QD1-999

Published

2018

15. Design and Analysis of a Single System of Impedimetric Biosensors for the Detection of Mosquito-Borne Viruses

Author

Fahmida Nasrin, Kenta Tsuruga, Doddy Irawan Setyo Utomo, Ankan Dutta Chowdhury, and Enoch Y. Park

Subjects

dengue virus, dengue serotype, mosquito-borne viral disease, virus detection, electrochemical impedance spectroscopy, Biotechnology, TP248.13-248.65

Abstract

The treatment for mosquito-borne viral diseases such as dengue virus (DENV), zika virus (ZIKV), and chikungunya virus (CHIKV) has become difficult due to delayed diagnosis processes. In addition, sharing the same transmission media and similar symptoms at the early stage of infection of these diseases has become more critical for early diagnosis. To overcome this, a common platform that can identify the virus with high sensitivity and selectivity, even for the different serotypes, is in high demand. In this study, we have attempted an electrochemical impedimetric method to detect the ZIKV, DENV, and CHIKV using their corresponding antibody-conjugated sensor electrodes. The significance of this method is emphasized on the fabrication of a common matrix of gold–polyaniline and sulfur, nitrogen-doped graphene quantum dot nanocomposites (Au-PAni-N,S-GQDs), which have a strong impedimetric response based only on the conjugated antibody, resulting in minimum cross-reactivity for the detection of various mosquito-borne viruses, separately. As a result, four serotypes of DENV and ZIKV, and CHIKV have been detected successfully with an LOD of femtogram mL−1.

Published

2021

16. N-Glycan Modification of a Recombinant Protein via Coexpression of Human Glycosyltransferases in Silkworm Pupae

Author

Tatsuya Kato, Natsumi Kako, Kotaro Kikuta, Takatsugu Miyazaki, Sachiko Kondo, Hirokazu Yagi, Koichi Kato, and Enoch Y. Park

Subjects

Medicine, Science

Abstract

Abstract Recombinant proteins produced in insect cells and insects, unlike those produced in mammalian cells, have pauci-mannose-type N-glycans. In this study, we examined complex-type N-glycans on recombinant proteins via coexpression of human β-1,2-N-acetylglucosaminyltransferase II (hGnT II) and human β1,4-galactosyltransferase (hGalT I) in silkworm pupae, by using the Bombyx mori nucleopolyhedrovirus (BmNPV) bacmid system. The actin A3 promoter from B. mori and the polyhedrin promoter from Autographa californica multiple nucleopolyhedroviruses (AcMNPVs) were used to coexpress hGnT II and hGalT I. These recombinant BmNPVs were coexpressed with human IgG (hIgG), hGnT II and hGalT I in silkworm pupae. When hIgG was coexpressed with hGnT II, approximately 15% of all N-glycans were biantennary, with both arms terminally modified with N-acetylglucosamine (GlcNAc). In contrast, when hIgG was coexpressed with both hGnT II and hGalT I under the control of the polyhedrin promoter, 27% of all N-glycans were biantennary and terminally modified with GlcNAc, with up to 5% carrying one galactose and 11% carrying two. The obtained N-glycan structure was dependent on the promoters used for coexpression of hGnT II or hGalT I. This is the first report of silkworm pupae producing a biantennary, terminally galactosylated N-glycan in a recombinant protein. These results suggest that silkworms can be used as alternatives to insect and mammalian hosts to produce recombinant glycoproteins with complex N-glycans.

Published

2017

17. Metabolic comparison of aerial and submerged mycelia formed in the liquid surface culture of Cordyceps militaris

Author

Ahmad Suparmin, Tatsuya Kato, Hiroyuki Takemoto, and Enoch Y. Park

Subjects

aerial mycelia, Cordyceps militaris, heme biosynthesis, hypoxia, liquid surface culture, submerged mycelia, Microbiology, QR1-502

Abstract

Abstract An entomopathogenic fungus, Cordyceps sp. has been known to produce cordycepin which is a purine nucleoside antimetabolite and antibiotic with potential anticancer, antioxidant and anti‐inflammatory activities. Interestingly, Cordyceps militaris produces significantly higher amount in a liquid surface culture than in a submerged culture. The liquid surface culture consists of mycelia growing into the air (aerial mycelia) and mycelia growing toward the bottom into the medium (submerged mycelia). In this study, to clarify roles of aerial and submerged mycelia of C. militaris in the cordycepin production the difference in metabolism between these mycelia was investigated. From transcriptomic analyses of the aerial and submerged mycelia at the culture of 5, 12 and 19 days, the metabolism of the submerged mycelia switched from the oxidative phosphorylation to the fermentation pathway. This activated the pentose phosphate pathway to provide building block materials for the nucleotide biosynthetic pathway. Under hypoxic conditions, the 5‐aminolevulinic acid synthase (CCM_01504), delta‐aminolevulinic acid dehydratase (CCM_00935), coproporphyrinogen III oxidase (CCM_07483) and cytochrome c oxidase 15 (CCM_05057) genes of heme biosynthesis were significantly upregulated. In addition, the liquid surface culture revealed that metabolite coproporhyrinogen III and glycine, the product and precursor of heme, were increased at 12th day and decreased at 19th day, respectively. These results indicate that the submerged mycelia induce the activation of iron acquisition, the ergosterol biosynthetic pathway, and the iron cluster genes of cordycepin biosynthesis in a hypoxic condition. Even though, the expression of the cluster genes of cordycepin biosynthesis was not significantly different in both types of mycelia.

Published

2019

18. Effects of Cordycepin in Cordyceps militaris during Its Infection to Silkworm Larvae

Author

Tatsuya Kato, Konomi Nishimura, Ahmad Suparmin, Kazuho Ikeo, and Enoch Y. Park

Subjects

Cordyceps militaris, cordycepin, entomopathogenic fungi, silkworm larvae, Biology (General), QH301-705.5

Abstract

Cordyceps militaris produces cordycepin, a secondary metabolite that exhibits numerous bioactive properties. However, cordycepin pharmacology in vivo is not yet understood. In this study, the roles of cordycepin in C. militaris during its infection were investigated. After the injection of conidia, C. militaris NBRC100741 killed silkworm larvae more rapidly than NBRC103752. At 96 and 120 h, Cmcns genes (Cmcns1–4), which are part of the cordycepin biosynthesis gene cluster, were expressed in fat bodies and cuticles. Thus, cordycepin may be produced in the infection of silkworm larvae. Further, cordycepin enhanced pathogenicity toward silkworm larvae of Metarhizium anisopliae and Beauveria bassiana, that are also entomopathogenic fungi and do not produce cordycepin. In addition, by RNA-seq analysis, the increased expression of the gene encoding a lipoprotein 30K-8 (Bmlp20, KWMTBOMO11934) and decreased expression of genes encoding cuticular proteins (KWMTBOMO13140, KWMTBOMO13167) and a serine protease inhibitor (serpin29, KWMTBOMO08927) were observed when cordycepin was injected into silkworm larvae. This result suggests that cordycepin may aid the in vivo growth of C. militaris in silkworm larvae by the influence of the expression of some genes in silkworm larvae.

Published

2021

19. Silkworm Pupae Function as Efficient Producers of Recombinant Glycoproteins with Stable-Isotope Labeling

Author

Hirokazu Yagi, Saeko Yanaka, Rina Yogo, Akari Ikeda, Masayoshi Onitsuka, Toshio Yamazaki, Tatsuya Kato, Enoch Y. Park, Jun Yokoyama, and Koichi Kato

Subjects

silkworm pupa, isotope labeling, recombinant glycoprotein, artificial diet, immunoglobulin G, Microbiology, QR1-502

Abstract

Baculovirus-infected silkworms are promising bioreactors for producing recombinant glycoproteins, including antibodies. Previously, we developed a method for isotope labeling of glycoproteins for nuclear magnetic resonance (NMR) studies using silkworm larvae reared on an artificial diet containing 15N-labeled yeast crude protein extract. Here, we further develop this method by introducing a technique for the expression of isotope-labeled glycoproteins by silkworm pupae, which has several potential advantages relative to larvae-based techniques in terms of production yield, ease of handling, and storage. Here, we fed fifth instar larvae an artificial diet with an optimized composition containing [methyl-13C]methionine, leading to pupation. Nine-day-old pupae were then injected with recombinant Bombyx mori nucleopolyhedrovirus (BmNPV) bacmid for expression of recombinant human immunoglobulin G (IgG). From the whole-body homogenates of pupae, 0.35 mg/pupa of IgG was harvested, which is a yield that is five times higher than can be obtained from larvae. Recombinant IgG, thus prepared, exhibited mainly three kinds of pauci-mannose-type oligosaccharides and had a 13C-enrichment ratio of approximately 80%. This enabled selective observation of NMR signals originating from the methionyl methyl group of IgG, confirming its conformational integrity. These data demonstrate the utility of silkworm pupae as factories for producing recombinant glycoproteins with amino-acid-selective isotope labeling.

Published

2020

20. Secretory Nanoparticles of Neospora caninum Profilin-Fused with the Transmembrane Domain of GP64 from Silkworm Hemolymph

Author

Hamizah Suhaimi, Rikito Hiramatsu, Jian Xu, Tatsuya Kato, and Enoch Y. Park

Subjects

BmNPV bacmid, nanobiomaterials, Neospora caninum, Neospora caninum profilin, neosporosis, silkworm expression system, Chemistry, QD1-999

Abstract

Neosporosis, which is caused by Neospora caninum, is a well-known disease in the veterinary field. Infections in pregnant cattle lead to abortion via transplacental (congenitally from mother to fetus) transmission. In this study, a N. caninum profilin (NcPROF), was expressed in silkworm larvae by recombinant Bombyx mori nucleopolyhedrovirus (BmNPV) bacmid and was purified from the hemolymph. Three NcPROF constructs were investigated, native NcPROF fused with an N-terminal PA tag (PA-NcPROF), PA-NcPROF fused with the signal sequence of bombyxin from B. mori (bx-PA-NcPROF), and bx-PA-NcPROF with additional C-terminal transmembrane and cytoplasmic domains of GP64 from BmNPV (bx-PA-NcPROF-GP64TM). All recombinant proteins were observed extra- and intracellularly in cultured Bm5 cells and silkworm larvae. The bx-PA-NcPROF-GP64TM was partly abnormally secreted, even though it has the transmembrane domain, and only it was pelleted by ultracentrifugation, but PA-NcPROF and bx-PA-NcPROF were not. Additionally, bx-PA-NcPROF-GP64TM was successfully purified from silkworm hemolymph by anti-PA agarose beads while PA-NcPROF and bx-PA-NcPROF were not. The purified bx-PA-NcPROF-GP64TM protein bound to its receptor, mouse Toll-like receptor 11 (TLR-11), and formed unique nanoparticles. These results suggest that profilin fused with GP64TM was secreted as a nanoparticle with binding affinity to its receptor and this nanoparticle formation is advantageous for the development of vaccines to N. caninum.

Published

2019

21. Improvement of Riboflavin Production Using Mineral Support in the Culture of Ashbya gossypii

Author

Sung Han Lim, Hwa Ming, Jong Soo Choi, and Enoch Y. Park

Subjects

riboflavin, vegetable oil, mineral support, Ashbya gossypii, Biotechnology, TP248.13-248.65, Food processing and manufacture, TP368-456

Abstract

Riboflavin production in a culture of Ashbya gossypii was enhanced by adding mineral support with adsorbed soybean oil. When the support in an amount of 1 % to the amount of medium was added into the culture at agitation intensity corresponding to impeller rotation rate of 600 rpm, the attained riboflavin concentration was 2.5 g/L at the culture time of 4 days, i.e. 1.6 times higher than that in the culture without adding mineral support. Riboflavin yield coefficient based on consumed substrate was also 1.6-fold higher than that in the culture without mineral support. In order to investigate the effect of mineral support on the riboflavin production and mycelial morphology variation, intracellular oil droplets were investigated by staining mycelia with Nile red. The A. gossypii cells, growing in submerged culture using soybean oil as a carbon source, were found to form intracellular micro-lipid bodies. The oil droplets became bigger as the culture time increased, and then the riboflavin leakage began, whereas lipid bodies gradually disappeared. When the soybean oil adsorbed on mineral support was added to the culture, the diameter of A. gossypii mycelia was much thicker and more riboflavin crystals were accumulated than in the pool of culture without mineral support; and what is more, mycelial autolysis was delayed for 2 days due to the presence of mineral support.

Published

2003

22. Plasmonic Nanomaterial-Based Optical Biosensing Platforms for Virus Detection

Author

Jaewook Lee, Kenshin Takemura, and Enoch Y. Park

Subjects

plasmonic nanomaterial, metal nanoparticle, nanoparticles, decorated carbon nanomaterial, optical biosensing system, virus detection, Chemical technology, TP1-1185

Abstract

Plasmonic nanomaterials (P-NM) are receiving attention due to their excellent properties, which include surface-enhanced Raman scattering (SERS), localized surface plasmon resonance (LSPR) effects, plasmonic resonance energy transfer (PRET), and magneto optical (MO) effects. To obtain such plasmonic properties, many nanomaterials have been developed, including metal nanoparticles (MNP), bimetallic nanoparticles (bMNP), MNP-decorated carbon nanotubes, (MNP-CNT), and MNP-modified graphene (MNP-GRP). These P-NMs may eventually be applied to optical biosensing systems due to their unique properties. Here, probe biomolecules, such as antibodies (Ab), probe DNA, and probe aptamers, were modified on the surface of plasmonic materials by chemical conjugation and thiol chemistry. The optical property change in the plasmonic nanomaterials was monitored based on the interaction between the probe biomolecules and target virus. After bioconjugation, several optical properties, including fluorescence, plasmonic absorbance, and diffraction angle, were changed to detect the target biomolecules. This review describes several P-NMs as potential candidates of optical sensing platforms and introduces various applications in the optical biosensing field.

Published

2017

23. Nanosphere Structures Using Various Materials: A Strategy for Signal Amplification for Virus Sensing.

Author

Sjaikhurrizal El Muttaqien, Indra Memdi Khoris, Sabar Pambudi, and Enoch Y. Park

Published

2023

24. Crystal structure and sugar-binding ability of the C-terminal domain of N-acetylglucosaminyltransferase IV establish a new carbohydrate-binding module family

Author

Nozomi Oka, Sota Mori, Marina Ikegaya, Enoch Y Park, and Takatsugu Miyazaki

Subjects

Glycosyltransferases, N-Acetylglucosaminyltransferases, Biochemistry, glycosyltransferase, Acetylglucosamine, Isoenzymes, Polysaccharides, N-glycan, Animals, Humans, lectin, Mannose, Phylogeny, carbohydrate-binding module, X-ray crystallography

Abstract

N-glycans are modified by glycosyltransferases in the endoplasmic reticulum and Golgi apparatus. N-acetylglucosaminyltransferase IV (GnT-IV) is a Golgi-localized glycosyltransferase that synthesizes complex-type N-glycans in vertebrates. This enzyme attaches N-acetylglucosamine (GlcNAc) to the α-1,3-linked mannose branch of the N-glycan core structure via a β-1,4 linkage. Deficiency of this enzyme is known to cause abnormal cellular functions, making it a vital enzyme for living organisms. However, there has been no report on its 3-dimensional structure to date. Here, we demonstrated that the C-terminal regions (named CBML) of human GnT-IVa and Bombyx mori ortholog have the ability to bind β-N-acetylglucosamine. In addition, we determined the crystal structures of human CBML, B. mori CBML, and its complex with β-GlcNAc at 1.97, 1.47, and 1.15 Å resolutions, respectively, and showed that they adopt a β-sandwich fold, similar to carbohydrate-binding module family 32 (CBM32) proteins. The regions homologous to CBML (≥24% identity) were found in GnT-IV isozymes, GnT-IVb, and GnT-IVc (known as GnT-VI), and the structure of B. mori CBML in complex with β-GlcNAc indicated that the GlcNAc-binding residues were highly conserved among these isozymes. These residues are also conserved with the GlcNAc-binding CBM32 domain of β-N-acetylhexosaminidase NagH from Clostridium perfringens despite the low sequence identity (

Published

2022

25. Expression and Purification of Porcine Rotavirus Structural Proteins in Silkworm Larvae as a Vaccine Candidate

Author

Tatsuya Kato, Tatsuki Kakuta, Ami Yonezuka, Tomofumi Sekiguchi, Yuki Machida, Jian Xu, Tohru Suzuki, and Enoch Y. Park

Subjects

VP7, Porcine rotavirus, VP6, Bioengineering, Molecular Biology, Applied Microbiology and Biotechnology, Biochemistry, Vaccine, Silkworm larvae, Biotechnology

Abstract

In this study, silkworm larvae were used for expression of porcine rotavirus A (KS14 strain) inner capsid protein, VP6, and outer capsid protein, VP7. Initially, VP6 was fused with Strep-tag II and FLAG-tag (T-VP6), and T-VP6 was fused further with the signal peptide of Bombyx mori 30k6G protein (30k-T-VP6). T-VP6 and 30 k-T-VP6 were then expressed in the fat body and hemolymph of silkworm larvae, respectively, with respective amounts of 330 μg and 50 μg per larva of purified protein. Unlike T-VP6, 30k-T-VP6 was N-glycosylated due to attached signal peptide. Also, VP7 was fused with PA-tag (VP7-PA). Additionally, VP7 was fused with Strep-tag II, FLAG-tag, and the signal peptide of Bombyx mori 30k6G protein (30k-T-ΔVP7). Both VP7-PA and 30k-T-ΔVP7 were expressed in the hemolymph of silkworm larvae, with respective amounts of 26 μg and 49 μg per larva of purified protein, respectively. The results from our study demonstrated that T-VP6 formed nanoparticles of greater diameter compared with the ones formed by 30k-T-VP6. Also, higher amount of VP6 expressed in silkworm larvae reveal that VP6 holds the potential for its use in vaccine development against porcine rotavirus with silkworm larvae as a promising host for the production of such multi-subunit vaccines.

Published

2022

26. Immunostimulation of shrimp through oral administration of silkworm pupae expressing VP15 against WSSV

Author

Jirayu Boonyakida, Takafumi Nakanishi, Jun Satoh, Yoshiko Shimahara, Tohru Mekata, and Enoch Y. Park

Subjects

Marsupenaeus japonicus, Pupa, Administration, Oral, General Medicine, Aquatic Science, Bombyx, Antiviral Agents, DNA-Binding Proteins, Oral administration, Silkworm pupa, White spot syndrome virus 1, Penaeidae, White spot syndrome virus, Animals, Environmental Chemistry, Immunization, RNA, Messenger, Peptides, VP15

Abstract

White spot syndrome virus (WSSV) is one of the most concerning pathogens in penaeid shrimp and can cause severe loss in shrimp aquaculture worldwide. Among the WSSV structural proteins, VP15, a DNA-binding protein located in the WSSV nucleocapsid, is an antiviral protein candidate to protect kuruma shrimp (Marsupenaeus japonicus) from WSSV infection. We identified that the truncated VP15, VP15

Published

2022

27. Development of disposable electrode for the detection of mosquito‐borne viruses

Author

Fahmida Nasrin, Indra Memdi Khoris, Ankan Dutta Chowdhury, Sjakurrizal El Muttaqein, and Enoch Y. Park

Subjects

biotinylated antibody, streptavidin, Molecular Medicine, electrochemical sensing, General Medicine, Applied Microbiology and Biotechnology, Biosensor, mosquito-borne virus, virus detection

Published

2023

28. Improvement of Modular Protein Display Efficiency in SpyTag-Implemented Norovirus-like Particles

Author

Jirayu Boonyakida, Indra Memdi Khoris, Fahmida Nasrin, and Enoch Y. Park

Subjects

Biomaterials, Polymers and Plastics, Materials Chemistry, Bioengineering

Abstract

Genetic fusion and chemical conjugation are the most common approaches for displaying a foreign protein on the surface of virus-like particles (VLPs); however, these methods may negatively affect the formation and stability of VLPs. Here, we aimed to develop a modular display platform for protein decoration on norovirus-like particles (NoV-LPs) by combining the NoV-LP scaffold with the SpyTag/SpyCatcher bioconjugation system, as the NoV-LP is an attractive protein nanoparticle to carry foreign proteins for various applications. The SpyTagged-NoV-LPs were prepared by introducing SpyTag peptide into the C-terminus of the norovirus VP1 protein. To increase surface exposure of the SpyTag peptide on the NoV-LPs, two or three repeated extension linkers (EAAAK) were inserted between the SpyTag peptide and VP1 protein. Fluorescence proteins, EGFP and mCherry, were fused to SpyCatcher and employed as SpyTag conjugation partners. These VP1-SpyTag variants and SpyCatcher-fused EGFP and mCherry were separately expressed in silkworm fat bodies and purified. This study reveals that adding an extension linker did not disrupt the VLP formation; instead, it increased the particle size by 4-6 nm. The conjugation efficiency of the VP1-SpyTag variants with the extended linker improved from ∼15-35 to ∼50-63% based on the densitometric analysis, while it was up to 77% based on an optical quantification of EGFP and mCherry. Results indicate that the linker causes the SpyTag peptides to be positioned further away from the C-termini of VP1 and potentially increases the exposure of the SpyTag to the outer surface of the NoV-LPs, allowing more SpyTag/SpyCatcher complex formation on the VLP surface. Our study provides a strategy for enhancing the conjugation efficiency of NoV-LP and demonstrates the platform's utility for developing vaccines or functional nanoparticles.

Published

2022

29. CdSe-Co

Author

Akhilesh Babu, Ganganboina, Indra Memdi, Khoris, Akinori, Konno, Tian-Cheng, Li, Akihiro, Okamoto, and Enoch Y, Park

Subjects

Light, SARS-CoV-2, Cadmium Compounds, Humans, COVID-19, Selenium Compounds

Abstract

The design and construction of a visible light-driven photoelectrochemical (PEC) device is described based on a CdSe-Co

Published

2022

30. Effects of sirtuins on the riboflavin production in Ashbya gossypii

Author

Tatsuya Kato, Junya Azegami, Hesham El Enshasy, Mai Kano, and Enoch Y. Park

Subjects

DNA damage, Riboflavin, Eremothecium, Applied Microbiology and Biotechnology, chemistry.chemical_compound, Ashbya gossypii, medicine, Sirtuin, Sirtuins, heterocyclic compounds, biology, Nicotinamide, Chemistry, food and beverages, General Medicine, Histone acetylation, Biochemistry, Acetylation, biology.protein, Protein deacetylase, Camptothecin, NAD+ kinase, DNA Damage, Biotechnology, medicine.drug

Abstract

This study focuses on sirtuins, which catalyze the reaction of NAD+-dependent protein deacetylase, for riboflavin production in A. gossypii. Nicotinamide, a known inhibitor of sirtuin, made the color of A. gossypii colonies appear a deeper yellow at 5 mM. A. gossypii has 4 sirtuin genes (AgHST1, AgHST2, AgHST3, AgHST4) and these were disrupted to investigate the role of sirtuins in riboflavin production in A. gossypii. AgHST1∆, AgHST3∆, and AgHST4∆ strains were obtained, but AgHST2∆ was not. The AgHST1∆ and AgHST3∆ strains produced approximately 4.3- and 2.9-fold higher amounts of riboflavin than the WT strain. The AgHST3∆ strain showed a lower human sirtuin 6 (SIRT6)-like activity than the WT strain and only in the AgHST3∆ strain was a higher amount of acetylation of histone H3 K9 and K56 (H3K9ac and H3K56ac) observed compared to the WT strain. These results indicate that AgHst3 is SIRT6-like sirtuin in A. gossypii and the activity has an influence on the riboflavin production in A. gossypii. In the presence of 5 mM hydroxyurea and 50 µM camptothecin, which causes DNA damage, especially double-strand DNA breaks, the color of the WT strain colonies turned a deeper yellow. Additionally, hydroxyurea significantly led to the production of approximately 1.5 higher amounts of riboflavin and camptothecin also enhanced the riboflavin production even through the significant difference was not detected. Camptothecin tended to increase the amount of H3K56ac, but the amount of H3K56ac was not increased by hydroxyurea treatment. This study revealed that AgHst1 and AgHst3 are involved in the riboflavin production in A. gossypii through NAD metabolism and the acetylation of H3, respectively. This new finding is a step toward clarifying the role of sirtuins in riboflavin over-production by A. gossypii. Key points • Nicotinamide enhanced the riboflavin production in Ashbya gossypii. • Disruption of AgHST1 or AgHST3 gene also enhanced the riboflavin production in Ashbya gossypii. • Acetylation of H3K56 led to the enhancement of the riboflavin production in Ashbya gossypii.

Published

2021

31. Self-Assembled Chromogenic Polymeric Nanoparticle-Laden Nanocarrier as a Signal Carrier for Derivative Binary Responsive Virus Detection

Author

Enoch Y. Park, Indra Memdi Khoris, and Akhilesh Babu Ganganboina

Subjects

Materials science, Biosensing Techniques, Phenolphthalein, Conjugated system, chemistry.chemical_compound, Influenza A Virus, H1N1 Subtype, Limit of Detection, Humans, General Materials Science, Thymolphthalein, Drug Carriers, Immunomagnetic Separation, Chromogenic, Dimethyl sulfoxide, Influenza A Virus, H3N2 Subtype, Viral Load, Drug Liberation, Blood, Chromogenic Compounds, chemistry, Dimethylformamide, Colorimetry, Magnetic Iron Oxide Nanoparticles, Nanocarriers, Antibodies, Immobilized, Biosensor, Nuclear chemistry

Abstract

In the current biosensor, the signal generation is limited to single virus detection in the reaction chamber. An adaptive strategy is required to enable the recognition of multiple viruses for diagnostics and surveillance. In this work, a nanocarrier is deployed to bring specific signal amplification into the biosensor, depending on the target viruses. The nanocarrier is designed using pH-sensitive polymeric nanoparticle-laden nanocarriers (PNLNs) prepared by sequential nanoprecipitation. The nanoprecipitation of two chromogens, phenolphthalein (PP) and thymolphthalein (TP), is investigated in three different solvent systems in which PNLNs demonstrate a high loading of the chromogen up to 59.75% in dimethylformamide (DMF)/dimethyl sulfoxide (DMSO)/ethanol attributing to the coprecipitation degree of the chromogens and the polymer. The PP-encapsulated PNLNs (PP@PNLNs) and TP-encapsulated PNLNs (TP@PNLNs) are conjugated to antibodies specific to target viruses, influenza virus A subtype H1N1 (IV/A/H1N1) and H3N2 (IV/A/H3N2), respectively. After the addition of anti-IV/A antibody-conjugated magnetic nanoparticles (MNPs) and magnetic separation, the enriched PNLNs/virus/MNPs sandwich structure is treated in an alkaline solution. It demonstrates a synergy reaction in which the degradation of the polymeric boundary and the pH-induced colorimetric development of the chromogen occurred. The derivative binary biosensor shows feasible detection on IV/A with excellent specificities of PP@PNLNs on IV/A/H1N1 and TP@PNLNs on IV/A/H3N2 with LODs of 27.56 and 28.38 fg mL-1, respectively. It intrigues the distinguished analytical signal in human serum with a variance coefficient of 25.8% and a recovery of 93.6-110.6% for one-step subtype influenza virus detection.

Published

2021

32. Oligonucleotide separation techniques for purification and analysis: What can we learn for today's tasks?

Author

Robert Minkner, Jirayu Boonyakida, Enoch Y. Park, and Hermann Wätzig

Subjects

Pharmaceutical Preparations, Nucleic Acids, Clinical Biochemistry, Oligonucleotides, Chromatography, Ion Exchange, Biochemistry, Chromatography, High Pressure Liquid, Analytical Chemistry

Abstract

Nucleic acids are the blueprint of life. They are not only the construction plan of the single cell or higher associations of them, but also necessary for function, communication and regulation. Due to the pandemic, the attention shifted in particular to their therapeutic potential as a vaccine. As pharmaceutical oligonucleotides are unique in terms of their stability and application, special delivery systems were also considered. Oligonucleotide production systems can vary and depend on the feasibility, availability, price and intended application. To achieve good purity, reliable results and match the strict specifications in the pharmaceutical industry, the separation of oligonucleotides is always essential. Besides the separation required for production, additional and specifically different separation techniques are needed for analysis to determine if the product complies with the designated specifications. After a short introduction to ribonucleic acids (RNAs), messenger RNA vaccines, and their production and delivery systems, an overview regarding separation techniques will be provided. This not only emphasises electrophoretic separations but also includes spin columns, extractions, precipitations, magnetic nanoparticles and several chromatographic separation principles, such as ion exchange chromatography, ion-pair reversed-phase, size exclusion and affinity.

Published

2022

33. Plasmon Nanocomposite-Enhanced Optical and Electrochemical Signals for Sensitive Virus Detection

Author

Ankan Dutta Chowdhury, Enoch Y. Park, Kenshin Takemura, Indra Memdi Khoris, and Akhilesh Babu Ganganboina

Subjects

Materials science, viruses, Metal Nanoparticles, Nanoparticle, Bioengineering, Biosensing Techniques, 02 engineering and technology, 01 natural sciences, Virus, Nanocomposites, Nanomaterials, Humans, Surface plasmon resonance, Instrumentation, Plasmon, Fluid Flow and Transfer Processes, Detection limit, Nanocomposite, business.industry, Process Chemistry and Technology, 010401 analytical chemistry, Surface Plasmon Resonance, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Quantum dot, Optoelectronics, Gold, 0210 nano-technology, business

Abstract

The social impact of virus spread is immeasurable. Vaccine prophylaxes take considerable time to develop because clinical trials are required. The best initial response to an emerging virus is establishing a virus detection technology adapted by simply preparing virus-specific antibodies. A virus detection system that detects two signals from one analyte has been developed to detect the target virus more sensitively and reliably. Plasmon regions on the surface of nanoparticles are effective in enhancing optical and electrochemical signals. Thus, CdSeTeS quantum dots (QDs) have been used as optical and electrochemical signal-generating materials. In contrast, gold nanoparticle-magnetic nanoparticle-carbon nanotube (AuNP-MNP-CNT) nanocomposites are used for the magnetic separation of the virus from interferences and for signal enhancement. In the presence of the target virus, the QDs optically show a virus concentration-dependent fluorescence enhancement effect due to the localized surface plasmon resonance (LSPR) of AuNPs. Regarding the electrochemical signal, Cd ions eluted by acid degradation of the QDs in solution show a virus concentration-dependent increase in the current peak on an electrode whose electrochemical properties are improved by the deposition of these nanocomposites. Both nanomaterials are conjugated with antibodies specific to influenza virus A (IFV/A), binding this target in a sandwich structure. We are successfully detecting the virus from these two signals during actual virus detection, even when the virus particles are in a human serum matrix. The limit of detection is 2.16 fg/mL for optical detection and 13.66 fg/mL for electrochemical detection.

Published

2021

34. Biochemical characterization of Bombyx mori α‐N‐acetylgalactosaminidase belonging to the glycoside hydrolase family 31

Author

Marina Ikegaya, Enoch Y. Park, and T Miyazaki

Subjects

0106 biological sciences, 0301 basic medicine, glycoside hydrolase family 31, Gene Transfer, Horizontal, Glycoside Hydrolases, Mutant, Random hexamer, medicine.disease_cause, α‐N‐acetylgalactosaminidase, 01 natural sciences, Enterococcus faecalis, alpha-N-Acetylgalactosaminidase, 03 medical and health sciences, Bombyx mori, Glycoside hydrolase family 31, Escherichia coli, Genetics, medicine, Animals, Molecular Biology, Gene, biology, fungi, Native Polyacrylamide Gel Electrophoresis, Bombyx, biology.organism_classification, Biological Evolution, Recombinant Proteins, 010602 entomology, 030104 developmental biology, Biochemistry, Genes, Bacterial, Insect Science, hexamer, horizontal gene transfer, Enterococcus

Abstract

Horizontal gene transfer is an important evolutionary mechanism not only for bacteria but also for eukaryotes. In the domestic silkworm Bombyx mori, a model species of lepidopteran insects, some enzymes are known to have been acquired by horizontal transfer; however, the enzymatic features of protein BmNag31, belonging to glycoside hydrolase family 31 (GH31) and whose gene was predicted to be transferred from Enterococcus sp. are unknown. In this study, we reveal that the transcription of BmNag31 increases significantly during the prepupal to pupal stage, and decreases in the adult stage. The full-length BmNag31 and its truncated mutants were heterologously expressed in Escherichia coli and characterized. Its catalytic domain exhibits α-N-acetylgalactosaminidase activity and the carbohydrate-binding module family 32 domain shows binding activity towards N-acetylgalactosamine, similar to the Enterococcus faecalis homolog, EfNag31A. Gel filtration chromatography and blue native polyacrylamide gel electrophoresis analyses indicate that BmNag31 forms a hexamer whereas EfNag31A is monomeric. These results provide insights into the function of lepidopteran GH31 α-N-acetylgalactosaminidase.

Published

2021

35. In vivo enzymatic digestion of HRV 3C protease cleavage sites-containing proteins produced in a silkworm-baculovirus expression system

Author

Jian Xu, Takafumi Nakanishi, Tatsuya Kato, and Enoch Y. Park

Subjects

3C proteinase, Biophysics, 3C Viral Proteases, Cell Biology, Bombyx, Biochemistry, Cysteine Endopeptidases, Viral Proteins, co-infection, Heart Rate, Tag-free, Escherichia coli, Animals, Humans, Digestion, silkworm, baculovirus expression system, Molecular Biology, Baculoviridae

Abstract

Baculovirus expression vector system (BEVS) has been recognized as a potent protein expression system in engineering valuable enzymes and vaccines. Various fusion tags facilitate protein purification, leaving the potential risk to influence the target protein's biological activity negatively. It is of great interest to consider removing the additional tags using site-specific proteases, such as human rhinoviruses (HRV) 3C protease. The current study validated the cleavage activity of 3C protease in Escherichia coli and silkworm-BEVS systems by mixing the cell or fat body lysates of 3C protein and 3C site containing target protein in vitro. Further verification has been performed in the fat body lysate from co-expression of both constructs, showing remarkable cleavage efficiency in vivo silkworm larvae. We also achieved the glutathione-S-transferase (GST) tag-cleaved product of the VP15 protein from the White spot syndrome virus after purification, suggesting that we successfully established a coinfection-based recognition-and-reaction BEVS platform for the tag-free protein engineering.

Published

2022

36. Preparation of divalent antigen-displaying enveloped virus-like particles using a single recombinant Bombyx mori nucleopolyhedrovirus bacmid in silkworms

Author

Yuki Machida, Enoch Y. Park, Tatsuya Kato, Kenshin Takemura, and Jian Xu

Subjects

0106 biological sciences, 0301 basic medicine, Gibson assembly, viruses, Protozoan Proteins, Neospora caninum, Bioengineering, Antigens, Protozoan, 01 natural sciences, Applied Microbiology and Biotechnology, law.invention, 03 medical and health sciences, chemistry.chemical_compound, Viral envelope, Affinity chromatography, Antigen, law, 010608 biotechnology, Hemolymph, parasitic diseases, Animals, Coexpression, Rous sarcoma virus, Vaccines, Synthetic, BmNPV, biology, fungi, Neospora, Virion, General Medicine, Group-specific antigen, biology.organism_classification, Bombyx, Virology, Nucleopolyhedroviruses, Recombinant Proteins, 030104 developmental biology, chemistry, Larva, Antigens, Surface, Recombinant DNA, Polycistronic, Virus-like particle, DNA, Biotechnology

Abstract

Silkworms have been used as a host for the production of recombinant proteins in a baculovirus expression system using Bombyx mori nucleopolyhedrovirus (BmNPV). To coexpress several recombinant proteins, a silkworm must be coinfected with several recombinant BmNPVs, which requires a difficult DNA manipulation procedure. In this study, we constructed recombinant BmNPVs containing three expression cassettes, Rous sarcoma virus (RSV) Gag protein, surface antigen 1 of Neospora caninum (NcSAG1) and SAG1-related sequence 2 of N. caninum (NcSRS2), by Gibson assembly and the Bac-to-Bac system, designated BmNPV/SAG-SRS-Gag and BmNPV/SAG-Gag-SRS. BmNPV/SAG-SRS-Gag was expressed in silkworms and characterized. NcSAG1 and NcSRS2 were purified with RSV Gag proteins using sucrose density gradient centrifugation and affinity chromatography. RSV Gag formed virus-like particles (RSV-LPs) at a diameter of 20–30 nm based on transmission electron microscopy (TEM). Immuno-TEM analysis showed that both NcSAG1 and NcSRS2 were displayed on the surface of the RSV-LPs. These results indicate that RSV-LPs displaying two different kinds of proteins were produced in the hemolymph of silkworm larvae by the single polycistronic strategy. This expression platform is efficient for generating multiantigen-displaying VLPs and facilitates the development of vaccines against infectious diseases.

Published

2020

37. Ultrasensitive Detection of the Hepatitis E Virus by Electrocatalytic Water Oxidation Using Pt-Co3O4 Hollow Cages

Author

Akhilesh Babu Ganganboina, Ankan Dutta Chowdhury, Tian-Cheng Li, Enoch Y. Park, and Indra Memdi Khoris

Subjects

Detection limit, Materials science, 010401 analytical chemistry, chemistry.chemical_element, 02 engineering and technology, Chronoamperometry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, law.invention, chemistry, law, Magnetic nanoparticles, General Materials Science, Calcination, 0210 nano-technology, Platinum, Voltammetry, Cobalt, Biosensor, Nuclear chemistry

Abstract

A sensitive virus detection method applicable for an early stage increases the probability of survival. Here, we develop a simple and rapid detection strategy for the detection of the hepatitis E virus (HEV) by an electrocatalytic water oxidation reaction (WOR) using a platinum (Pt)-incorporated cobalt (Co)-based zeolite imidazole framework (ZIF-67). The surface cavity of ZIF-67 enables the rich loading of Pt NPs, and subsequent calcination etches the cavity, promoting the electrocatalytic activity of Pt-Co3O4 HCs. The Pt-Co3O4 HCs show excellent behavior for the WOR due to the synergistic interaction of Pt and Co3O4, evaluated by voltammetry and chronoamperometry. The synthesized Pt-Co3O4 HCs are conjugated with anti-HEV antibody (Ab@Pt-Co3O4 HCs); the electrocatalytic activity of Ab@Pt-Co3O4 HCs is combined with that of antibody-conjugated magnetic nanoparticles (MNPs) for HEV detection by a magneto-and-nanocomposite sandwich immunoassay. The sensor is challenged to detect the HEV in spiked serum samples and HEV G7 genotypes collected from the cell culture supernatant, reaching a low limit of detection down to 61 RNA copies mL-1. This work establishes a free-indicator one-step approach with the controlled design of Pt-Co3O4 HCs, which presents an effective WOR technique for virus detection in a neutral pH solution, which can be extended to electrocatalytic studies in the future integrated biosensing systems.

Published

2020

38. Agglutination of Human Polyomaviruses by Using a Tetravalent Glycocluster as a Cross-Linker

Author

Ami Koizumi, Souichi Nukuzuma, Takashi Onoda, Isao Ohta, Makoto Ogata, Taichi Usui, Tetsuro Suzuki, Yuhei Tokunaga, and Enoch Y. Park

Subjects

Chemistry, Agglutination (biology), EGTA, chemistry.chemical_compound, stomatognathic system, General Chemical Engineering, Polymer chemistry, General Chemistry, Cross linker, QD1-999, Ethylene Glycol Tetraacetic Acid, Article

Abstract

Two kinds of tetravalent double-headed sialo-glycosides with short/long spacers between the Neu5Acα2,6Galβ1,4GlcNAc unit and ethylene glycol tetraacetic acid (EGTA) scaffold were found to be capable of binding to virus-like particles of Merkel cell polyomavirus (MCPyV-LP). The binding process and time course of interaction between the tetravalent ligand and MCPyV-LP were assessed by dynamic light scattering (DLS). On the addition of increasing concentrations of ligand to MCPyV-LP, larger cross-linked aggregates formed until a maximum size was reached. The binding was stronger for the tetravalent ligand with a short spacer than for that with a long spacer. The binding of the former ligand to the virus was observed to proceed in two stages during agglutination. The first step was the spontaneous formation of small aggregates comprising the cross-linked ligand-virus complex. In the second step, the aggregates grew successively larger by cooperative binding among the initially produced small aggregates. In transmission electron microscopy, the resulting complex was observed to form aggregates in which the ligands were closely packed with the virus particles. The cross-linked interaction was further confirmed by a simple membrane filtration assay in which the virus-like particles were retained on the membrane when complexed with a ligand. The assay also showed the effective capture of particles of pathogenic, infectious human polyomavirus JCPyV when complexed with a ligand, suggesting its possible application as a method for trapping viruses by filtration under conditions of virus aggregation. Collectively, these results show that the tetravalent glycocluster serves as a ligand not only for agglutinating MCPyV-LP but also for trapping the pathogenic virus.

Published

2020

39. Structure–function analysis of silkworm sucrose hydrolase uncovers the mechanism of substrate specificity in GH13 subfamily 17 exo-α-glucosidases

Author

Takatsugu Miyazaki and Enoch Y. Park

Subjects

Models, Molecular, 0301 basic medicine, glycoside, Conformational change, crystal structure, Subfamily, Glycoside Hydrolases, Protein Conformation, Stereochemistry, Crystallography, X-Ray, Biochemistry, Substrate Specificity, 03 medical and health sciences, Hydrolysis, Bombyx mori, enzyme kinetics, Hydrolase, Animals, Glycoside hydrolase, carbohydrate metabolism, Enzyme kinetics, Molecular Biology, chemistry.chemical_classification, 030102 biochemistry & molecular biology, biology, alpha-Glucosidases, sucrose, Cell Biology, Bombyx, biology.organism_classification, BmSUH, 030104 developmental biology, Enzyme, chemistry, Enzymology, phylogenetic, BmSUC1, hydrolase, glycoside hydrolase family 13 subfamily 17(GH13_17)

Abstract

The domestic silkworm Bombyx mori expresses two sucrose-hydrolyzing enzymes, BmSUH and BmSUC1, belonging to glycoside hydrolase family 13 subfamily 17 (GH13_17) and GH32, respectively. BmSUH has little activity on maltooligosaccharides, whereas other insect GH13_17 α-glucosidases are active on sucrose and maltooligosaccharides. Little is currently known about the structural mechanisms and substrate specificity of GH13_17 enzymes. In this study, we examined the crystal structures of BmSUH without ligands; in complexes with substrates, products, and inhibitors; and complexed with its covalent intermediate at 1.60–1.85 Å resolutions. These structures revealed that the conformations of amino acid residues around subsite −1 are notably different at each step of the hydrolytic reaction. Such changes have not been previously reported among GH13 enzymes, including exo- and endo-acting hydrolases, such as α-glucosidases and α-amylases. Amino acid residues at subsite +1 are not conserved in BmSUH and other GH13_17 α-glucosidases, but subsite −1 residues are absolutely conserved. Substitutions in three subsite +1 residues, Gln(191), Tyr(251), and Glu(440), decreased sucrose hydrolysis and increased maltase activity of BmSUH, indicating that these residues are key for determining its substrate specificity. These results provide detailed insights into structure–function relationships in GH13 enzymes and into the molecular evolution of insect GH13_17 α-glucosidases.

Published

2020

40. Antigenic properties of VP15 from white spot syndrome virus in kuruma shrimp Marsupenaeus japonicus

Author

Tatsuya Kato, Jun Satoh, Jirayu Boonyakida, Enoch Y. Park, Jian Xu, Takafumi Nakanishi, and Toru Mekata

Subjects

0301 basic medicine, animal structures, Shrimp aquaculture, White spot syndrome, Marsupenaeus, Aquatic Science, Protective Agents, Virus, law.invention, 03 medical and health sciences, White spot syndrome virus 1, Penaeidae, Antigen, In vivo, law, Escherichia coli, Animals, Environmental Chemistry, biology, fungi, 04 agricultural and veterinary sciences, General Medicine, Nucleocapsid Proteins, Bombyx, biology.organism_classification, Virology, Shrimp, 030104 developmental biology, Larva, Host-Pathogen Interactions, 040102 fisheries, Recombinant DNA, 0401 agriculture, forestry, and fisheries

Abstract

White spot syndrome virus (WSSV) is known as one of the most lethal pathogenic viruses in shrimp causing massive damage to shrimp aquaculture industries. To date, no effective treatment or prevention has been found. In this study, five recombinant viral proteins VP15, VP19, VP24, VP26, and VP28 were expressed and purified in E. coli, which were employed as candidates against WSSV in Kuruma shrimp Marsupenaeus japonicus. In vivo antiviral assay in this study newly revealed that VP15 of major nucleocapsid protein, being known as a DNA-binding protein provided the substantial protection against the viral infection when pre-injected into shrimps. Furthermore, we also verified the immunogenic effects of purified VP15 and VP19 proteins produced in a silkworm-bacmid expression system. Taken together, our study identified VP15 as an effective candidate against WSSV infection in the Kuruma shrimp. It is interesting to uncover why and how VP15 is involved in the immune memory in shrimp in the future study.

Published

2020

41. Advancement of capture immunoassay for real-time monitoring of hepatitis E virus-infected monkey

Author

Enoch Y. Park, Tian-Cheng Li, Tetsuro Suzuki, Ankan Dutta Chowdhury, and Indra Memdi Khoris

Subjects

Silver, Time Factors, Gold nanoparticle, Metal Nanoparticles, Biosensing Techniques, Virus sensing, medicine.disease_cause, Real-Time Polymerase Chain Reaction, Biochemistry, Analytical Chemistry, Hepatitis E virus, Silver deposition, medicine, Environmental Chemistry, Animals, Spectroscopy, Detection limit, Immunoassay, Chromatography, medicine.diagnostic_test, Chemistry, Nanozyme, Monitoring system, Haplorhini, Colloidal gold, Gold, Signal amplification, Colorimetric detection

Abstract

Rapid increasing outbreak of Hepatitis E virus (HEV) shows an urgent need of HEV detection. Instead of time consuming and expensive RT-qPCR, an efficient and quick monitoring system is in utmost demand which can be comparable with the RT-qPCR in term of reliability and detection limit. An advanced platform for immunoassay has been constructed in this study by a nanozyme that constitutes anti-HEV IgG antibody-conjugated gold nanoparticles (Ab-AuNPs) as core and in situ silver deposition on the surface of Ab-AuNPs as outer shell. The virus has been entrapped on the nanocomposites while the silver-shell has decomposed back to the silver ions (Ag+) by adding a tetramethylbenzidine (TMBZ) and hydrogen peroxide (H2O2) which indirectly quantifies the target virus concentration. Counterpart to only applying nanozyme, by incorporation of the enhanced effect of Ag shell on the AuNP-based nanozyme, the advance deposition has been confirmed to prove the signal amplification mechanism in the proposed immunoassay. Most importantly, the sensor performances have examined on the HEV, collected from the HEV-infected monkey over a period of 45 days. It was successfully correlated with the standard RT-qPCR data, showing the applicability of this immunoassay as a real-time monitoring on the HEV infection. The in situ formation of AuNPs@Ag as nanozyme in this capture immunoassay leads to a promising advancement over the conventional methods and nanozyme-based immunoassay in real application which can be a good substitute of RT-qPCR in near future.

Published

2020

42. Identification of secretion domain of Neospora caninum profilin

Author

Doddy Irawan Setyo Utumo, Enoch Y. Park, Tatsuya Kato, Tomofumi Sekiguchi, Hamizah Suhaimi, and Jian Xu

Subjects

0301 basic medicine, Signal peptide, animal structures, Recombinant Fusion Proteins, Protozoan Proteins, Biophysics, Protein Sorting Signals, Biochemistry, Chromatography, Affinity, Truncation, Profilins, 03 medical and health sciences, 0302 clinical medicine, Protein Domains, Affinity chromatography, Hemolymph, parasitic diseases, Animals, Secretion, Molecular Biology, biology, Chemistry, fungi, Neospora, Neospora caninum profilin, Cell Biology, Bombyx, biology.organism_classification, Fusion protein, Neospora caninum, 030104 developmental biology, Profilin, 030220 oncology & carcinogenesis, biology.protein, Protein expression, Secretion domain, mCherry, Baculoviridae, Protein Binding

Abstract

Profilin (PROF) is a small actin-binding protein presented in apicomplexan protozoa. It was previously reported that Neospora caninum profilin (NcPROF) is secreted into the hemolymph of silkworm larvae regardless of the lack of an identified regular secretion signal peptide. To date, which domain is required for its secretion still remains unknown. To this end, we express a fluorescent protein (mCherry) fused with NcPROF at its N-terminus or C-terminus. Both fusion proteins were expressed and secreted into the culture supernatant from Bm5 cells or hemolymph from silkworm larvae, respectively. To further narrow down the C-terminal minimal domain required for its secretion, we constructed three truncated C-terminal domain constructions, ΔN (aa41-163), ΔN1 (aa50-163), and ΔN2 (aa144-163) respectively. All three fusion proteins were detected in the culture supernatant of Bm5 cells and silkworm hemolymph. Surprisingly, a 20-aa C-terminal α-helix domain facilitates the secretion of mCherry, allowing purification of ΔN2-mCherry from silkworm larval hemolymph by affinity chromatography. Taken together, the secretion domain from NcPROF was identified, indicating that can be utilized for the secretory expression of recombinant proteins in the future.

Published

2020

43. Boosting the energy storage performance of V2O5 nanosheets by intercalating conductive graphene quantum dots

Author

Enoch Y. Park, Ruey-an Doong, and Akhilesh Babu Ganganboina

Subjects

Supercapacitor, Materials science, business.industry, Graphene, Electrochemical kinetics, Capacitance, Pseudocapacitance, Energy storage, law.invention, Quantum dot, law, Optoelectronics, General Materials Science, business, Power density

Abstract

2-Dimensional (2D) transition metal oxides are an emerging class of energy materials that offer a wide spectrum of potential applications in electrochemical energy storage. In this study, V2O5 nanosheets have been nano-engineered with 0D graphene quantum dots (GQDs) via a solvothermal treatment process, and they serve as an anode material to boost electrochemical energy storage properties. The interlayer embedded GQD endows V2O5 (VNS-GQD) with structural and compositional advantages for high-performance energy storage, including expanded interlayer distances between layers, fast electrochemical kinetics, and additional stability to buffer the volume variation. Moreover, the strong coupling effect between GQDs and VNS, an ultra-large interfacial area and enhanced electrical conductivity promote the intercalation pseudocapacitance. VNS-GQD exhibits the specific capacitance of 572 F g−1 at a current density of 1 A g−1 and retains 92% of the initial capacitance after 10 000 charge–discharge cycles. The asymmetric supercapacitor exhibits superior electrochemical performance at a voltage window of 1.5 V. The energy density is 31.25 W h kg−1 at the power density of 2.25 kW kg−1, and maintains a superior energy density of 20.62 W h kg−1 at the high power density of 14.86 kW kg−1. The results of this study can provide an avenue for fabricating nano-sandwiched composites by embedding GQDs into interlayers of 2D transition metal oxide for ultra-high performance applications of energy storage devices.

Published

2020

44. Dual display hemagglutinin 1 and 5 on the surface of enveloped virus-like particles in silkworm expression system

Author

Muzajjad Gozal Goffar, Vipin Kumar Deo, Tatsuya Kato, and Enoch Y. Park

Subjects

Lipopolysaccharides, Sheep, Influenza A Virus, H5N1 Subtype, Bivalent, Gene Products, gag, Rous sarcoma virus, Bombyx, Hemagglutinins, Influenza A Virus, H1N1 Subtype, Influenza Vaccines, Larva, Silkworm, Display, Animals, Rabbits, Vaccines, Virus-Like Particle, Virus-like particle, Hemagglutinin, Biotechnology

Abstract

Rous sarcoma virus-like particles (RSV-LPs) displaying hemagglutinins of H1N1 (A/New Caledonia/20/99) (H1) and H5N1 (A/Vietnam/1194/2004) (H5) of the influenza A virus were produced. The H1 has its transmembrane domain, but the H5 was fused with the transmembrane domain of glycoprotein 64 (BmGP64) from Bombyx mori nucleopolyhedrovirus (BmNPV). H1 and RSV Gag protein were coexpressed in the hemolymph of silkworm larvae, copurified, and confirmed RSV-LP displaying H1 (VLP/H1). Similarly, the RSV-LP displaying H5 (VLP/H5) production was also achieved. Using fetuin agarose column chromatography, RSV Gag protein-coexpressed H1 and H5 in silkworms were copurified from the hemolymph. By immuno-TEM, H1 and H5 were observed on the surface of an RSV-LP, indicating the formation of bivalent RSV-LP displaying two HAs (VLP/BivHA) in the hemolymph of silkworm larvae. VLP/H1 induced the hemagglutination of red blood cells (RBCs) of chicken and rabbit but not sheep, while VLP/H5 induced the hemagglutination of RBCs of chicken and sheep but not rabbit. Additionally, VLP/BivHA allowed the hemagglutination of RBCs of all three animals. Silkworm larvae can produce RSV-LPs displaying two HAs and is a promising tool to produce the bivalent enveloped VLPs for the vaccine platform.

Published

2022

45. 3D hierarchically porous magnetic molybdenum trioxide@gold nanospheres as a nanogap-enhanced Raman scattering biosensor for SARS-CoV-2

Author

Ojodomo J. Achadu, Njemuwa Nwaji, Dongkyu Lee, Jaebeom Lee, Eser M. Akinoglu, Michael Giersig, and Enoch Y. Park

Subjects

TA, TK, General Engineering, General Materials Science, Bioengineering, QD, General Chemistry, R1, RA, Atomic and Molecular Physics, and Optics, QR

Abstract

The global pandemic of COVID-19 is an example of how quickly a disease-causing virus can take root and threaten our civilization. Nowadays, ultrasensitive and rapid detection of contagious pathogens is in high demand. Here, we present a novel hierarchically porous 3-dimensional magnetic molybdenum trioxide-polydopamine-gold functionalized nanosphere (3D mag-MoO

Published

2022

46. Application of Novel Sialoglyco Particulates Enhances the Detection Sensitivity of the Equine Influenza Virus by Real-Time Reverse Transcriptase Polymerase Chain Reaction

Author

Noriko Yamauchi, Kiyoshi Ikeda, Tadamune Otsubo, Hiroyuki Endo, Tatsuya Kato, Ami Koizumi, Makoto Ogata, Takehiro Yachi, Takashi Yamanaka, Kazuya I.P.J. Hidari, Enoch Y. Park, Rena Aita, Manabu Nemoto, Mao Sakamoto, and Hiroyuki Kono

Subjects

Chemistry, Biochemistry (medical), Biomedical Engineering, Late stage, General Chemistry, Particulates, Molecular biology, Reverse transcriptase, Highly sensitive, law.invention, Biomaterials, Equine influenza virus, law, Polymerase chain reaction

Abstract

Sialoglyco particulates carrying an N-glycolylneuraminyl-α-(2 → 3)-N-acetyllactosamine (Neu5Gcα2,3LacNAc) residue that displays a high level of affinity for the equine influenza virus (EIV) were generated using sialoglycopolypeptide and hexyl-containing hybrid silica particulates. The particulates were spherical with a diameter of approximately 950 nm and found to have good dispersibility in aqueous solution. Interaction between the sialoglyco particulates and the EIV was investigated by real-time reverse transcriptase polymerase chain reaction (rRT-PCR) of the EIV genome captured on the particulates. The number of EIV-specific genes detected by rRT-PCR on a nasal swab obtained from infected horses clearly increased when the sample was treated with sialoglyco particulates. Our results show these novel sialoglyco particulates can be used as a highly sensitive tool for detecting low levels of EIV that were previously undetectable in the early or late stage of infection.

Published

2022

47. Use of Target-Specific Liposome and Magnetic Nanoparticle Conjugation for the Amplified Detection of Norovirus

Author

Sabrina Sharmin, Enoch Y. Park, Tetsuro Suzuki, Fahmida Nasrin, Masahito Yamazaki, Fuyuki Abe, and Ankan Dutta Chowdhury

Subjects

Liposome, Chemistry, Confocal, Biochemistry (medical), Biomedical Engineering, food and beverages, Nanoparticle, General Chemistry, medicine.disease_cause, Fluorescence, Virus, Biomaterials, Calcein, chemistry.chemical_compound, Norovirus, medicine, Biophysics, Biosensor

Abstract

Viral diseases are one of the most life-threatening diseases as they can erupt unpredictably and spread rapidly in any medium with a very small number of particles. Therefore, the key for lethal virus detection should be highly sensitive in the early-stage detection, which can help increase the chance of survival. Amplification of the detecting signal is one of the most promising mechanisms for the detection of low-concentration analytes. A proper amplification can develop such a kind of system where a small number of particles can produce intense signals for a prominent detection. Keeping this in mind, in this report, we have presented a fluorometric method to detect norovirus (NoV) by a newly developed fluorophore-labeled liposome and a magnetically modified Fe

Published

2022

48. 'Plug and Play' diagnostic systems with optoelectronic nanosensors

Author

Ojodomo J. Achadu, Chaoying Wan, and Enoch Y. Park

Published

2022

49. Visible Light-Driven Photoelectrochemical Platform Probing Highly Sensitive Virus Detection

Author

Akhilesh Babu Ganganboina, Indra Memdi Khoris, Akinori Konno, Tian-Cheng Li, Akihiro Okamoto, and Enoch Y. Park

Subjects

History, Polymers and Plastics, Business and International Management, Industrial and Manufacturing Engineering

Published

2022

50. Green synthesis of carbon dots using expired agar for a label-free fluorescence signal-amplified detection of ferric ion utilizing oxalate functionalization

Author

Ojodomo J. Achadu, Gideon L. Elizur, ThankGod E. Boye, and Enoch Y. Park

Subjects

TP, Chemistry (miscellaneous), General Materials Science, QD, TD

Abstract

Surface passivation strategies for functional carbon-based nanoparticles can provide unrivalled performance whilst fine-tuning their optical properties in addition to giving routes for large-scale syntheses. Herein, the synthesis of highly fluorescent agar-derived and oxalate-functionalized carbon dots (ag-oxCDs) is presented. We deployed a facile hydrothermal protocol, using expired potato dextrose agar and oxalate as "green" precursors to prepare fluorescent ag-oxCDs with a relative fluorescence (FL) quantum yield of ∼32% (emission/excitation wavelengths: 445/340 nm). The switchable fluorescence properties of the prepared ag-oxCDs was used for developing a sensitive nanosensor for ferric ion [Fe(iii)] detection. Through Fe(iii) coordination to the oxalate passivated surface of ag-oxCDs, the FL of ag-oxCDs was enhanced by an aggregation-induced emission enhancement mechanism. The tested and optimized concentration of Fe(iii) was within a broad linear range of 0.5-1500 μM, with a detection limit of 75 nM (s/N = 3). The practical application of the ag-oxCDs-based FL nanosensor for real-time quantitative monitoring of Fe(iii) was demonstrated by detecting up to 0.15 μM of Fe(iii) in spiked human serum and water samples.

Published

2022