• Title/Summary/Keyword: Biophysicochemical properties

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Purification and Biophysicochemical Properties of the Virus Causing Necrotic Spot Symptom on Korean Cactus (한국산 접목 선인장에서 분리한 괴사 반점 원인 바이러스의 생물리화학적 특성)

  • 이철호;나용준;한정헌
    • Korean Journal Plant Pathology
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    • v.13 no.2
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    • pp.73-78
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    • 1997
  • A virus was purified from Korean cactus (Chamaeaereus silverstrii f. Variegata Hort) showing necrotic spots and its biophysicochemical properties were examined. The typical necrotic spots were observed on healthy looking cactus inoculated with the purified virus and the various symptoms from necrotic spots to systemic were observed on 17 species of test plats used, which suggests that the purified virus has the normal infectivity and wide host range. Ultraviolet absorption scanning analysis revealed that the viral preparation had the typical curve with shoulder at 290 nm and its ratio of absorbances at 260 nm to 280 nm and extinction coefficient was 1.156 and 2.86, respectively. The virus represented one distinct and homogeneous band and molecular weight of viral coat protein was determined to 17, 000 Dalton by SDS-PAGE. The virus revealed rod-shaped virion (325$\times$20 nm) by electron microscopy. Based on these results, it has been thought that the virus purified in this study is the pathogenic agents causing necrotic spot symptom on Korean cacuts and one of the member of tobamovirus family.

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Lymphocytes Mitogenic and Immunochemical Characteristics of the Immunomodulating Lectins, MLA, from Marine Natural Products (해양 천연물에서 분리한 면역기능 조정제 렉틴 MLA의 림프구 자극분열효과 및 면역화학적 특성)

  • 전경희;김장환;정시련
    • YAKHAK HOEJI
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    • v.39 no.3
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    • pp.252-259
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    • 1995
  • Isolation, purification and characterization of biophysicochemical properties of the three new lectins, MLA-I, MLA-II, MLA-III from the hemolymph of Meretrix lusoria have been reported previously. A series of immunochemical studies were investigated in this work. The three lectins were revealed as having partial identity each other by immunodiffusim and immunoelectrophoresis. These results suggest that MLA lectins are isolectins having similar biophysicochemical properties. Particularly, MLA-I proved to be a potent mitogen for murine splenic as well as human peripheral lymphocytes, and the optimum mitogenic dose were 62.5 and 1.95 $\mu\textrm{g}$/ml, respectively.

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Immunostimulating Lectins from Marine Natural Products: Characteristics of the MLA-I, MLA-II and MLA-III (해양 천연물로부터 면역기능 조정제 렉틴 개발 : MLA-I, MLA-II, MLA-III의 특성)

  • 정시련;김장환;전경희
    • YAKHAK HOEJI
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    • v.39 no.3
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    • pp.243-251
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    • 1995
  • Three new lectins, MLA-I, MLA-II and MLA-III, have been isolatedand purified from the hemolymph of Meretrix lusoria and reported previously. Biophysicochemical characteristics were investigated with these three MLA lectins. The MLA lectins agglutinated human erythrocytes non specifically and proved as D-galactose group carbohydrate specific. Molecular weight of ML.A-I. II and III were estimated to be 330, 500 and 310KD, respectively, by gel filtration on Sepharose CL-6B column. On SDS-polyacrylamide gel electrophoresis, ML.A-I was dissociated into a single subunit of 42KD, MLA-II was into the twelve subunits of 46, 32, 30, 28, 25, 23. 22, 20. 19, 16, 15, and 14KD, and MLA-III was into the two subunits of 72 and 44KD. The pl of MLA-I, II, III were 4.0. 4.9 and 5.0. Amino acid analysis revealed a high contents of acidic and hydroxy amino acids, and a paucity of sulfur containing amino acids. Proline was not contained in MLA-II.

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Assessment of Dredged Soils and Sediments Properties in the Lower Reach of Nakdong River and Coastal Areas of Busan for Beneficial Uses (낙동강 하류 및 부산연안지역의 준설토와 퇴적토 활용을 위한 특성 평가)

  • Yi, Yongmin;Kim, Gukjin;Sung, Kijune
    • Journal of Soil and Groundwater Environment
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    • v.18 no.1
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    • pp.57-66
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    • 2013
  • Although the quantity of dredged soils has increased owing to recent new harbor construction, sea course management, polluted sediment dredging, and four-river project, the reuse or recycling of those dredged soils has not done properly in Korea. To develop measures to utilize them in various ways for reuse or recycling, the biophysicochemical properties of dredged soils and sediment were assessed in this study. Samples were classified according to their sources-river and sea-by location, and as dredged soil and sediment depending on storage time. The results showed that dredged materials from the sea have high clay content and can be used for making bricks, tiles, and lightweight backfill materials, while dredged materials from the river have high sand content and can be used in sand aggregates. Separation procedures, depending on the intended application, should be carried out because all dredged materials are poorly sorted. All dredged soils and sediments have high salinity, and hence, salts should be removed before use for cultivation. Since dredged materials from the sea have adequate concentrations of nutrients, except phosphate, they can be used for creating and restoring coastal habitats without carrying out any additional removal processes. The high overall microbial activities in dredged materials from the river suggested that active degradation of organic matter, circulation of nutrients, and provision of nutrients may occur if these dredged materials are used for cultivation purpose.

Cellulose Nanocrystals as Advanced "Green" Materials for Biological and Biomedical Engineering

  • Sinha, Arvind;Martin, Elizabeth M.;Lim, Ki-Taek;Carrier, Danielle Julie;Han, Haewook;Zharov, Vladimir P.;Kim, Jin-Woo
    • Journal of Biosystems Engineering
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    • v.40 no.4
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    • pp.373-393
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    • 2015
  • Background: Cellulose is a ubiquitous, renewable and environmentally friendly biopolymer, which has high promise to fulfil the rising demand for sustainable and biocompatible materials. Particularly, the recent progress in the synthesis of highly crystalline cellulose-based nanoscale biomaterials, namely cellulose nanocrystals (CNCs), draws significant attention from many research communities, ranging from bioresource engineering, to materials science and engineering, to biological and biomedical engineering to bionanotechnology. The feasibility of harnessing CNCs' unique biophysicochemical properties has inspired their basic and applied research, offering much promise for new biomaterials with diverse advanced functionalities. Purpose: This review focuses on vital issues and topics on the recent advances in CNC-based biomaterials with potential, in particular, for bionanotechnology and biological and biomedical engineering. The challenges and limitations of CNC technology are discussed as well as potential strategies to overcome them, providing an essential source of information in the exploration of possible and futuristic applications of the CNC-based functional "green" nanomaterials. Conclusion: CNCs offer exciting possibilities for advanced "green" nanomaterials, driving innovative research and development in a wide range of fields, including biological and biomedical engineering.