• Korean Journal of Veterinary Research
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• v.33 no.2
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• pp.241-247
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• 1993

Forty day old piglets were intranasally inoculated with 2ml of Aujeszky's disease virus (NYJ-1-87 strain, $10^{7.0}$ $TCID_{50/0.2}ml$), and the viral antigens were detected in nasal and circulating white blood cells for 20 days after inoculation by immunocytochemical method. Antibody titers in the blood were also detected by neutralizing test and Aujeszky's disease serodiagnostic kit(Choong Ang) in this periods. 1. Viral antigens were detected by the immunocytochemical technigue, and positive reactions were observated in nasal cells from the 2nd to the l0th days after inoculation and circulated white blood cells from the 4th to the 12th days after inoculation. 2. In neutralization test antibodies levels showed titers of 2 on the 8th day, 8 on the l5th day, 16 on the 18th day and 32 on the 20th day after inoculation. In serodiagnostic kit test positive reactions were observed after the 15th day after inoculation.

• The Korean Journal of Cytopathology
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• v.8 no.1
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• pp.27-34
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• 1997

Pneumocystis carinli is an established cause of pulmonary infections in immuno-compromised hosts. Several cytoiogical stains, such as Papanicolaou, Gomori methenamine sliver(GMS) and Diff-Quik have been used for detection of the organism, but occasionally can be laborious and, due to a degree of nonspecificity, may be misleading. We evaluated the diagnostic utility of immunocytochenmical stains that recognize P. carinii in bornchoalveolar lavage from experimentally Induced P. carinii pneumonia rats(n=15). In audition to routine stains for diagnosis by morphologic recognition of P. carinii on Papanicolaou, GMS and Diff-Quik stains, bronchoalveolar lavage samples were reacted with immunocytochemical stains using monoclonal antibodies(MAB) 092 and 902. In bronchoalveolar lavage P. carinii organisms were detected In 9 of 10 cases(90%) using each MAB 092 and 902, whereas GMS and Diff-Quik stains demonstrated P. carinii in 13(86%) and 11(73%) of 15 cases respectively. In lung tissue specimens(n=15) P. carinii organisms were well identified on GMS stain and immunohistochemical stains using MAB 092 and 902 in ail cases. We believe that the immunocytochemical staining using MAB 092 and/or 902 is a very useful and diagnostic tool In addition to GMS and Diff-Qulk stain to detect P. carinii organisms in bronchoalveolar lavage.

• Biomedical Science Letters
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• v.29 no.3
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• pp.144-151
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• 2023

A Pap smear is the most important screening test for the diagnosis of cervical cancer. However, subjective judgment by the operator cannot be excluded, and replicability may greatly be reduced if uncertain specimens are examined. Examiners often experience difficulties in differentiating atrophy with inflammatory changes and ASCUS when diagnosing squamous epithelial lesions from a pap smear. Reports often vary between cytologists and pathologists, and misdiagnosis may result in delayed follow-ups and advanced diseases. Hence, auxiliary examinations are necessary when confusing results between atrophy and ASCUS are obtained. The importance of p16^INK4a activation due to HPV infection, which is an important factor in the outbreak of cervical cancer, has been highlighted. Recent studies have reported that p16^INK4a immunocytochemical staining and HPV high-risk type tests using liquid-based cervical specimens are effective to detect the presence of lesions of grade HSIL or higher in patients with ASC-H. However, no research exists on the utility of HPV and p16^INK4a tests on the differential diagnosis of atrophy and ASCUS. This study focused on whether p16^INK4a immunocytochemical staining and HPV tests can help diagnose borderline lesions between atrophy and ASCUS. The results reported that p16^INK4a activation can significantly (P<0.001) differentiate atrophy from ASCUS in atrophic lesions infected with High risk-HPV. Therefore, it may be concluded that p16^INK4a immunocytochemical staining is an effective auxiliary test in lesions infected with HR-HPV when atrophic lesions are difficult to differentiate by morphology. Such results are expected to help decide on adequate follow-up and treatment.

• The Korean Journal of Cytopathology
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• v.15 no.1
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• pp.28-32
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• 2004

It was reported that the main cause of intraepithelial neoplasm and squamous cell carcinoma of the uterine cervix is human papilloma virus infection, and that the expression of p16 is increased in cells infected by human papilloma virus. We performed an immunocytochemical staining for protein p16 in 17 cases of cervocovaginal smears initially diagnosed as atypical squamous cells of undetermined significance, to know whether the staining could help the differentiation of neoplastic cells from reactive atypical cells. Of 17 smears, 6 were diagnosed finally as high grade intraepithelial neoplasm or invasive squamous cell carcinoma by follow-up biopsy and smear, and 5 of the 6 were positive for p16. Three were diagnosed as koilocytosis, and one of them was weakly positive for p16. Eight were diagnosed as reactive atypical cells, and all of them were negative for p16. We thought that immunocytochemical staining of p16 in cervocovaginal smears could help the differentiation of neoplastic cells from reactive atypical cells.

• Proceedings of the Korean Society of Developmental Biology Conference
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• 1998.07a
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• pp.29-29
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• 1998

• Proceedings of the Zoological Society Korea Conference
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• 1997.04a
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• pp.72.1-72
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• 1997

No Abstract, See Full Text

• Korean Journal of Veterinary Research
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• v.33 no.1
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• pp.119-123
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• 1993

The present study was intended to use the avidin-biotin-peroxidase-antiperoxidase complex (ABPAP) method for the identification of Mycobacterium bovis in the tissue sections of infected cattle. Antibodies and linksera for ABPAP procedure used in incubated order were rabbit anti-Mycobacterium polyvalent antibodies, goat anti-rabbit IgG, rabbit peroxidase-antiperoxidase complex, biotinyl-horse anti-rabbit IgG, and avidin-biotin-peroxidase complex. Where the bacterial antigen was localized by ABPAP, a dark brown deposit occurred in the cytoplasms of macrophages and Langerhans' giant cells of the granulomatous lesions. The method approved to be highly specific for the identification of the bacteria and allowed a precise localization of the bacterial antigen in infected cells.

• Journal of Plant Biology
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• v.39 no.2
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• pp.123-126
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• 1996

The pattern of seed storage protein, vicilin, deposition and site of intracellular localization was examined in cotyledon cells of pea (Pisum sativum) seed using the immunocytochemical methods. The vicilin was confined to the cisternae fo the rough endoplasmic reticulum and dictyosome as well as protein granules newly formed in rough endoplasmic reticulum. Vacuolar protein deposites and protein bodies were also labelled by gold particles. After small protein bodies were formed in the rough endoplasmic reticulum, they were transported to large protein bodies and then fused together. Electron dense protein granule, elaborated in the dictyosome, appears to be transported from dictyosome to protein body. A few unlabelled protein granules seem to be accumulated in other type of proteins than vicilin.

• The Korean Journal of Malacology
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• v.15 no.2
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• pp.81-92
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• 1999

The histochemical, cytochemical, and immunocytochemical investigations were conducted to find out the cellulase activity in the accessory glands of the digestive system of the oriental land snail Nesiohelix samarangae under the LM, SEM, and TEM. The cellulase activity was shown in the epithelium of th digestive gland by labelling with the immunogold (protein-A gold) particles. The epithelial cells showing the cellulase activity were Type 1 and Type 3 cells out of five types of the epithelial cells of the digestive gland. None of epithelial cells of the mucus gland and the salivary gland and the salivary gland were not labeled with the immunogold particles.

• Applied Microscopy
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• v.25 no.1
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• pp.15-29
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• 1995

Legumin was purified from the endosperm cells of the ginseng seed and analyzed its characteristics. Distributional patterns of the legumin in the endosperm cells were identified using the immunocytochemical method. Legumin was glycoprotein composed of two subunits, molecular weights about 33,000 and 25,000 respectively. The molecular shape of purified legumin stained negatively seems to have hexagonal structure about 10 nm in size. It was localized at the rER, dictyosomes, and in the vacuoles at the early developing stage. Legumin was glycosylated in the dictyosomes and transported from the dictyosomes to the vacuoles. Legumin was accumulated into the central vacuole via the dictyosomes while the endosperm cells were developing. The armorphous proteins containing legumin were scattered randomly within the central vacuoles, which were aggregated together and became gradually spherical shape. Legumin was distributed within the globular protein bodies in the endosperm cells of matured seed. However legumin was not found in the globoids located in the protein bodies.