Your search keyword '"Heo, Min Jin"' showing total 5 results

1. RNA-seq transcriptome analysis in flounder cells to compare innate immune responses to low- and high-virulence viral hemorrhagic septicemia virus

Author

Hwang, Jee Youn, Lee, Unn Hwa, Heo, Min Jin, Jeong, Ji Min, Kwon, Mun Gyeong, Jee, Bo Young, Park, Chan-Il, and Park, Jeong Woo

Published

2021

2. Molecular Identification and mRNA Expression Profiles of Galectin-9 Gene in Red Sea Bream (Pagrus major) Infected with Pathogens.

Author

Choi, Kwang-Min, Joo, Min-Soo, Cho, Dong-Hee, Woo, Won-Sik, Kang, Gyoungsik, Heo, Min Jin, Kim, Do-Hyung, and Park, Chan-Il

Subjects

PAGRUS auratus, PAGRUS, GENE expression profiling, SPARUS aurata, MESSENGER RNA

Abstract

Simple Summary: We identified the sequence encoding galectin-9 from Pagrus major and subsequently investigated the molecular characteristics and changes in gene expression patterns in response to artificial infection with major pathogens. Overall, our data suggest that galectin-9 plays a pivotal role in the immune system of P. major. The findings of this study can potentially serve as a reference for understanding the function of galectin-9 in the P. major immune system; moreover, galectin-9 has been identified as a potential candidate for use as a disease-related molecular marker. Galectin (Gal) is a member of a family of β-galactoside-binding lectin. The members of this family play important roles in the recognition of carbohydrate ligands and in various other biological processes. In this study, we identified the gene encoding Gal-9 in Pagrus major (PmGal-9) and analyzed its expression in various tissues after pathogen challenge. Alignment analysis revealed that the two galactose-binding lectin domains of the deduced protein were highly conserved among all the teleosts. Phylogenetic analysis revealed that PmGal-9 is most closely related to the Gal-9 gene of gilthead sea bream. PmGal-9 was ubiquitously expressed in all tissues analyzed but was predominantly expressed in the spleen, head kidney, and intestine. After challenges with major microbial pathogens (Edwardsiella piscicida, Streptococcus iniae, or red sea bream iridovirus) of red sea bream, PmGal-9 mRNA expression was significantly regulated in most immune-related tissues. These results suggested that PmGal-9 not only plays an important role in the immune system of red sea bream but is also a possible inflammatory marker for pathogenic diseases. [ABSTRACT FROM AUTHOR]

Published

2021

3. The First Detection of Kudoa hexapunctata in Farmed Pacific Bluefin Tuna in South Korea, Thunnus orientalis (Temminck and Schlegel, 1844).

Author

Kang, Gyoungsik, Choi, Kwang-Min, Cho, Dong-Hee, Joo, Min-Soo, Heo, Min-Jin, Woo, Won-Sik, and Park, Chan-Il

Subjects

BLUEFIN tuna, TUNA, FOODBORNE diseases, BLOOD testing, FOOD poisoning, ABDOMINAL muscles

Abstract

Simple Summary: In this study, we detected Kudoa hexapunctata in Pacific bluefin tuna (Thunnus orientalis) individuals that did not show any gross pathology lesions. Giemsa staining was used to identify clearer lesions than haematoxylin and eosin (H&E) staining that is used in general histological analysis. K. hexapunctata was separated through molecular biological methods, other than haematolocial and histological analysis. Individuals infected with K. hexapunctata showed relatively low haemoglobin (Hb) and haematocrit (Ht) values, and histological analysis revealed clear pseudocysts in the abdominal and dorsal muscles. The consumption of fish and shellfish worldwide is steadily increasing, and tuna is a particularly valuable fish species. However, infection caused by Kudoa spp. is causing problems in many fish including the Pacific bluefin tuna (Thunnus orientalis), and there is much controversy about the association of these infections with foodborne disease. In this study, using haematological and histological analyses of the blood and internal organs (liver, spleen, kidney, heart, stomach, intestine, gill, and muscle) of Pacific bluefin tuna cultured in South Korea, infection with Myxosporea was first identified, and molecular biological analysis was conducted. In this study, Kudoa hexapunctata was finally identified. The Pacific bluefin tunas analysed in this study did not show any gross pathology lesions, such as visible cysts and/or myoliquefaction, of infection with this species. The histological analytical results can provide guidelines for the identification of K. hexapunctata. In the case of K. hexapunctata-induced infection, unlike other countries, such as Japan, there have been no reports in South Korea, and this study is the first to detect K. hexapunctata infection in Pacific bluefin tuna cultured in South Korea. The correlation between K. hexapunctata and food poisoning is not yet clear, however, it is thought that continuous observation of its infection is necessary. [ABSTRACT FROM AUTHOR]

Published

2020

4. Naturally occurring substitution in one amino acid in VHSV phosphoprotein enhances viral virulence in flounder.

Author

Hwang JY, Lee UH, Heo MJ, Kim MS, Jeong JM, Kim SY, Kwon MG, Jee BY, Kim KH, Park CI, and Park JW

Subjects

Amino Acid Sequence, Amino Acid Substitution, Animals, Genome, Viral, Novirhabdovirus metabolism, Novirhabdovirus pathogenicity, Phosphoproteins metabolism, RNA-Seq, Sequence Homology, Transcriptome, Viral Proteins metabolism, Virulence Factors genetics, Virulence Factors metabolism, Fish Diseases virology, Flounder virology, Novirhabdovirus genetics, Phosphoproteins genetics, Rhabdoviridae Infections virology, Viral Proteins genetics, Virulence genetics

Abstract

Viral hemorrhagic septicemia virus (VHSV) is a rhabdovirus that causes high mortality in cultured flounder. Naturally occurring VHSV strains vary greatly in virulence. Until now, little has been known about genetic alterations that affect the virulence of VHSV in flounder. We recently reported the full-genome sequences of 18 VHSV strains. In this study, we determined the virulence of these 18 VHSV strains in flounder and then the assessed relationships between differences in the amino acid sequences of the 18 VHSV strains and their virulence to flounder. We identified one amino acid substitution in the phosphoprotein (P) (Pro55-to-Leu substitution in the P protein; PP55L) that is specific to highly virulent strains. This PP55L substitution was maintained stably after 30 cell passages. To investigate the effects of the PP55L substitution on VHSV virulence in flounder, we generated a recombinant VHSV carrying PP55L (rVHSV-P) from rVHSV carrying P55 in the P protein (rVHSV-wild). The rVHSV-P produced high level of viral RNA in cells and showed increased growth in cultured cells and virulence in flounder compared to the rVHSV-wild. In addition, rVHSV-P significantly inhibited the induction of the IFN1 gene in both cells and fish at 6 h post-infection. An RNA-seq analysis confirmed that rVHSV-P infection blocked the induction of several IFN-related genes in virus-infected cells at 6 h post-infection compared to rVHSV-wild. Ectopic expression of PP55L protein resulted in a decrease in IFN induction and an increase in viral RNA synthesis in rVHSV-wild-infected cells. Taken together, our results are the first to identify that the P55L substitution in the P protein enhances VHSV virulence in flounder. The data from this study add to the knowledge of VHSV virulence in flounder and could benefit VHSV surveillance efforts and the generation of a VHSV vaccine., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

5. Data on molecular characterization and gene expression analysis of secretory carrier-associated membrane protein 5 (SCAMP5) from the red sea bream ( Pagrus major ).

Author

Heo MJ, Kim A, and Park CI

Abstract

Secretory carrier membrane proteins (SCAMPs) are widely distributed integral membrane proteins implicated in membrane trafficking. Secretory carrier membrane protein 5 (SCAMP5) is expected to be involved in regulation of the immune response because it is expressed in a variety of immune tissues and promotes the secretion of cytokines in monocytes and macrophages. In this study, we performed an analysis of the molecular characteristics and phylogenetic of the SCAMP5 gene identified in Pagrus major (PmSCAMP5). In addition, we analysed PmSCAMP5 gene expression levels in the tissues of red sea bream infected with various pathogens [ Edwardsiella piscicida ( E. piscicida ), Streptococcus iniae ( S. iniae ) and Red sea bream iridovirus (RSIV)], and we analysed PmSCAMP5 gene expression levels in the tissues of healthy red sea bream. This study was carried out to provide basic data on the non-specific immune system of the red sea bream.

Published

2019