• Korean journal of applied entomology
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• v.22 no.4 s.57
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• pp.293-299
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• 1983

Experiments were carried out to elucidate the specific interactions between host plant, Phaseolus vulgaris, and symbiotic bacteria, Rhizobium Phaseoli. Purified P. vulgaris lectins and six species of cultured Rhizobium were subjected to agglutination test. Lectins from bean and R. phaseoli showed relatively high agglutination activity indicating that host plant lectins recognize carbohydrate moieties on the compatible Rhizobium cell surface. The specific carbohydrate receptors for binding of the lectins on the cell surface of R. phaseoli were found as mannose and galactose. The minimum concentration of sugars for the inhibition was 6.25mM. The lectin content of cultured plant roots was measured after germination and was maximum in 5-day seedlings. The nodulation was competitively inhibited by lectins for the plants cultured with Rhizobium cells. By immunochemical studies, there was some relationship in antigenic determinants between R. phaseoli and R. japonicum but no relationships were observed with other Rhizobium species. The results suggest that the infection by rhizobia to the roots of leguminous plants may be caused by the specific interaction of lectins with rhizobia.

• Clinical and Experimental Pediatrics
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• v.57 no.11
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• pp.472-478
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• 2014

Kawasaki disease (KD), an acute vasculitis that primarily affects young children, is the most common acquired paediatric cardiovascular disease in developed countries. While sequelae of arterial inflammation in the acute phase of KD are well documented, its late effects on vascular health are increasingly unveiled. Late vascular dysfunction is characterized by structural alterations and functional impairment in term of arterial stiffening and endothelial dysfunction and shown to involve both coronary and systemic arteries. Further evidence suggests that continuous low grade inflammation and ongoing active remodeling of coronary arterial lesions occur late after acute illness and may play a role in structural and functional alterations of the arteries. Potential importance of genetic modulation on vascular health late after KD is implicated by associations between mannose binding lectin and inflammatory gene polymorphisms with severity of peripheral arterial stiffening and carotid intima-media thickening. The changes in cholesterol and lipoproteins levels late after KD further appear similar to those proposed to be atherogenic. While data on adverse vascular health are less controversial in patients with persistent or regressed coronary arterial aneurysms, data appear conflicting in individuals with no coronary arterial involvements or only transient coronary ectasia. Notwithstanding, concerns have been raised with regard to predisposition of KD in childhood to accelerated atherosclerosis in adulthood. Until further evidence-based data are available, however, it remains important to assess and monitor cardiovascular risk factors and to promote cardiovascular health in children with a history of KD in the long term.

• Journal of Life Science
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• v.16 no.6
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• pp.1014-1028
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• 2006

This study attempted to investigate the developmental alterations of the cerebral cortex. The effects of EGEE on the developmental cerebral cortex in the prenatal, postnatal and adults were examined by lectin histochemical methods. To investigate the change of sugar residues of glycoconjugates, biotinylated lectins(DBA, SBA, PNA, BSL-1, RCA-1, sWGA, UEA-1, Con A and LCA) were detected with by IHC using ABC kit. In the case of injection of EGEE, the reactions to Con A and LCA were shown in binding phase in the cerebral cortex commonly, and the reactions to PNA, RCA-1 and LCA were shown partially, the number of lectins to be shown reaction were decreased, and there were no reactions to DBA, SBA, BSL-1, RCA-1 and UEA-1. The reaction to Con A was similar to control group during developmental phases. The reaction to LCA was increased in the fetal, suckling, and weanning phases compared with control group. But there were no reactions to SBA and sWGA, the reaction to PNA was decreased in the frontal and occipital cortex and no reaction to sWGA in the fetal phase. There were no reactions to sWGA and PNA in the suckling phase and, no reaction to PNA and sWGA. The reaction to Con A was decreased in the frontal, parietal and occipital cortexes and, the reaction to LCA was decreased in the frontal and occipital cortexes in adult phase. As the results, the effects of EGEE, environmental hormone on the each part of cerebral cortex have shown differences. But, It had deep effect on the differentiation and growth in the cerebral cortex pathologically. In particular, the effect was severe in suckling phase. $Galactosyl-({\beta}-1,3)-N-acetyl-D-galactosamine$,${\beta}-N-acetyl-D-galactosamine$ and ${\beta}-N-acetyl-D-glucosamine$ were decreased while ${\alpha}-D-mannose$ and ${\alpha}-D-glucose$ were increased. It affected the sugar metabloism, and it was severe in fetal and suckling phases.