• BMB Reports
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• v.41 no.7
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• pp.529-536
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• 2008

Cinnamate-4-hydroxylase (C4H) is a key enzyme in the phenylpropanoid pathway, which is responsible for synthesizing a variety of secondary metabolites that participate in development and adaptation. In this study, we isolated a full-length cDNA of the C4H gene from the Korean black raspberry (Rubus sp.) and found that this gene existed as a single gene. By comparing the deduced amino acid sequence of Rubus sp. C4H with other sequences reported previously we determined that this sequence was highly conserved among widely divergent plant species. In addition, quantitative real time PCR studies indicated that the C4H gene had a differential expression pattern during fruit development, where gene expression was first detected in green fruit and was then remarkably reduced in yellow fruit, followed by an increase in red and black fruit. To investigate the two peaks in expression observed during fruit development and ripening, we measured the flavonoid content. The content of the major flavanol of Korean black raspberry fruits was determined to be highest at the beginning of fruit development, followed by a gradually decrease according to the developmental stages. In contrast, the content of anthocyanins during the progress of ripening was dramatically increased. Our results suggest that the C4H gene in Korean black raspberry plays a role during color development at the late stages of fruit ripening, whereas the expression of C4H gene during the early stages may be related to the accumulation of flavanols.

• BMB Reports
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• v.41 no.11
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• pp.814-819
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• 2008

Interleukin-32 (IL-32) induces a variety of proinflammatory cytokines and chemokines. The IL-32 transcript was reported originally in activated T cells; subsequently, it was demonstrated to be abundantly expressed in epithelial and endothelial cells upon stimulation with inflammatory cytokines. IL-32 is regulated robustly by other major proinflammatory cytokines, thereby suggesting that IL-32 is crucial to inflammation and immune responses. Recently, an IL-32$\alpha$-affinity column was employed in order to isolate an IL-32 binding protein, neutrophil proteinase 3 (PR3). Proteinase 3 processes a variety of inflammatory cytokines, including TNF$\alpha$, IL-$1{\beta}$, IL-8, and IL-32, thereby enhancing their biological activities. In the current study, we designed four PR3-cleaved IL-32 separate domains, identified by potential PR3 cleavage sites in the IL-32$\alpha$ and $\gamma$ polypeptides. The separate domains of the IL-32 isoforms $\alpha$ and $\gamma$ were more active than the intrinsic $\alpha$ and $\gamma$ isoforms. Interestingly, the N-terminal IL-32 isoform $\gamma$ separate domain evidenced the highest levels of biological activity among the IL-32 separate domains.

• BMB Reports
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• v.42 no.8
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• pp.529-534
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• 2009

Marbling score (MS) is the major trait that affects carcass quality in beef cattle. In this study, we investigated the association between genetic polymorphisms of the adipose differentiation-related protein gene (ADFP) and carcass traits in Korean cattle (also known as Hanwoo). Using direct DNA sequencing in 24 unrelated Korean cattle, 25 novel polymorphisms were identified within all exons and their flanking regions of ADFP, including the promoter region (1.5 kb). Among them, 21 polymorphic sites were selected for genotyping in the beef cattle (n = 425). Statistical analyses revealed that one promoter polymorphism (c.-56-18A > G) was associated with MS (P = 0.009). The 'A' allele of c.-56-18A > G exerted a lowering effect on MS, e.g., the lowest MS was found in 'A/A' (MS = 2.09 ${\pm}$ 1.23), intermediate in 'A/G' (MS = 2.11 ${\pm}$ 1.31), and the highest in 'G/G' (MS = 2.47 ${\pm}$ 1.47). Our findings suggest that these polymorphisms in ADFP might be important genetic factors involved in carcass quality in beef cattle.

• BMB Reports
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• v.51 no.1
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• pp.14-20
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• 2018

Biomedical research involving nanoparticles has produced useful products with medical applications. However, the potential toxicity of nanoparticles in biofluids, cells, tissues, and organisms is a major challenge. The '-omics' analyses provide molecular profiles of multifactorial biological systems instead of focusing on a single molecule. The 'omics' approaches are necessary to evaluate nanotoxicity because classical methods for the detection of nanotoxicity have limited ability in detecting miniscule variations within a cell and do not accurately reflect the actual levels of nanotoxicity. In addition, the 'omics' approaches allow analyses of in-depth changes and compensate for the differences associated with high-throughput technologies between actual nanotoxicity and results from traditional cytotoxic evaluations. However, compared with a single omics approach, integrated omics provides precise and sensitive information by integrating complex biological conditions. Thus, these technologies contribute to extended safety evaluations of nanotoxicity and allow the accurate diagnoses of diseases far earlier than was once possible in the nanotechnology era. Here, we review a novel approach for evaluating nanotoxicity by integrating metabolomics with metabolomic profiling and transcriptomics, which is termed "metabotranscriptomics."

• BMB Reports
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• v.52 no.12
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• pp.700-705
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• 2019

The bacterial effector protein RavZ is secreted by the intracellular pathogen Legionella pneumophila and inhibits host autophagy through an irreversible deconjugation of mammalian ATG8 (mATG8) proteins from autophagosome membranes. However, the roles of the LC3 interacting region (LIR) motifs in RavZ function remain unclear. In this study, we show that a membrane-targeting (MT) domain or the LIR motifs of RavZ play major or minor roles in RavZ function. A RavZ mutant that does not bind to mATG8 delipidated all forms of mATG8-phosphatidylethanolamine (PE) as efficiently as did wild-type RavZ. However, a RavZ mutant with a deletion of the MT domain selectively delipidated mATG8-PE less efficiently than did wild-type RavZ. Taken together, our results suggest that the effects of LIR motifs and the MT domain on RavZ activity are complementary and work through independent pathways.

• The Korean Journal of Zoology
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• v.38 no.4
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• pp.557-564
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• 1995

The 90 kDa-heat shock protein (HSP90) is one of the major ubiquitous heat shock proteins induced by a vadety of ceilular stresses. HSP90 Is constitutively synthesized even under nonstressed condidons and found In association with several regulatory and structural proteins such as protein kinases and steroid hormone receptors. In the present study, to facilitate its biochemical characterization, HSP90 was pudfied from chick muscle by sequential column chromatography steps including DEAE- cellulose, hydroxyapatite, and Sephacryl S-300 gel filtration and monoclonal antillodies specific to HSP90 were produced by the inurine hybridomal technique. We report the production of 4 posItive hybridoma clones, named as A204, C112, C302 and A204, C112, C302. Among these MoAbs, Cl 12 strongly reconnized chick HSP90 in Western blot and native immunoprocipitation. In addition, C112 showed the crossreactivitles against HSP90 from human, rabbit, mouse, fish and chick but not from Drosophila and E. coil.

• The Korean Journal of Zoology
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• v.39 no.4
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• pp.410-418
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• 1996

Gangilosides are ubiquitous membrane components in mammalian cells and are suggested to play essential roles in cellular phenomena such as cell-cell interadion, differentiation, and signal transduction. Rat ovary contained GM3 as major gangiloside. Nn order to study GM3 distribution in the atretic follicles and its possible changes during follicular development, frozen sections were stained with spedfic monocional antibodies against eleven gangilo-series gangliosides including GM3. In the atretic follicles, Glf3 was expressed in a spatlo-temporally different manner during foilicular development, but GM1 and other gangliosides were not immunohistochemicaily detected. in atretic follicle from primary follicle stage, GM3 was expressed in all the theca cells and some granulosa cells adjacent to oocyte. In atretic follicle from secondary follicle stage, GM3 were expressed in all theca cells and granulosa cells. in atretic follicles from developing Graaflan follicle stages, GM3 was similarly expressed as in secondary follicle stage.

• The Korean Journal of Zoology
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• v.38 no.4
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• pp.514-522
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• 1995

In order to examine the interaction of albumin with the sperm during capacitation in mouse, proteins of cauda epididymal sperm were extracted under various conditions and analyzed with SDS-PAGE. Sperm surface labeling patterms were also examined using fluorochroin~conjugated wheat germ agglutinin (WGA) and bovine serum albumin (BSA). Albumin was detached from the sperm surface during the incubation and seemed to be constituted the major protein components of the conditioned media in which sperm incubated for 90 mm. Detachment of albumin from the sperm was not affected by the Ca2+ in the medium. WGA-FITC labeling confirmed that Triton X-100 permeabilired plasma membrane overlaying the apical segment of sperm head and detached plasma membrane associated proteins having negatively charged glycoconjugates. BSA-FITC labeling of epididymal sperm occurred on the apical segment of periacrosoinal region and postacrosomal region of the head. BSA-FITC labeling was not observed in periacrosoinal region of the sperm treated with Ca2+-ionophore ~3187 (10 MM)~ whereas the postacrosome region of acrosome-reacted sperm was still labeled after the AR. These results suggest that albumin bound to the surface of epididymal sperm is detached during the capacitation process, and it might be involved In physiological change of sperm plasma membrane accompanying the capacitation.

• Animal cells and systems
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• v.14 no.2
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• pp.83-89
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• 2010

Gangliosides are a ubiquitous component of the membranes of mammalian cells that have been suggested to play important roles in various cell functions such as cell-cell interaction, adhesion, cell differentiation, growth control and signaling. However, the role that gangliosides play in the immune rejection response in xenotransplantation is not yet clearly understood. In this study, differential expression patterns of gangliosides in HEK293 (human embryonic kidney cells), PK15 (porcine kidney cells), NIH-kd (NIH-mini pig kidney cells, primary cultured) and the cortex, medulla and calyx of the NIH-mini pig kidney were investigated by high-performance thin-layer chromatography (HPTLC). The results revealed that HEK293, PK15 and NIH-kd contained GM3, GM2 and GD3 as major gangliosides. Moreover, GM3, which are the gangliosides of NIH-kd, were expressed at higher levels than HEK293 and PK15. Especially, GT1b were expressed in HEK293 and NIH-kd but not in PK15. Finally, GM1 and GD1a were expressed in NIH-kd, but not in HEK293 or PK15. These results suggest that differential expression patterns of gangliosides from HEK293, PK15 and NIH-kd are related to the immune rejection response in xenotransplantation.

• Proceedings of the Botanical Society of Korea Conference
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• 1987.07a
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• pp.149-155
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• 1987

Growth and development of a higher plant, or any living organism for that matter, could be defined as an orderly expression of the genome in time and space in close interaction with the environment. During differentiation and development of a tissue or organ a group of genes must be selectively turned on or turned off mainly by trans-acting regulators. In this general concept of regulation of regulation of gene expression, a DNA molecule is recognized at a specific nucleotide sequence by DNA-binding factors. Molecular biology of the regulatory factors such as hormones, and their receptors, target DNA sequences and DNA-binding proteins are well advanced. What is not clearly understood is the molecular basis of the interactions between DNA and binding factors, expecially of the usages of the dyad symmetry of the target DNA sequences and the dimeric nature of the DNA-binding proteins. A unique 3-dimensional structure of DNA has been proposed that may play an important role in the orderly expression of the gene. A foldback intercoil (FBI) DNA configuration which was originally found by electron microscopy among mtDNA molecules from pearl millet has some unique features. The FBI configuration of DNA is believed to be formed when a flexible double helix folds back and interwines in the widened major grooves resulting in a four stranded, intercoil DNA whose thickness is the same as that of double stranded DNA. More recently, the FBI structure of DNA has been also induced in vitro by a novel enzyme which was purified from pearl millet mitochondria. It has been proposed that the FBI DNA could be utillized in intramolecular recombination which leads to inversion or deletion, and in intermolecular recombination which can lead to either site-specific recombination, genetic recombination via single strand invasion, or cross strand recombination. The structure and function of DNA in 3-dimensional aspect is emphasized for better understanding orderly expression of genes during growth and development.