• Applied Biological Chemistry
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• v.30 no.4
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• pp.300-304
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• 1987

Effects of benzyladenine (BA) on viability, cell wall regeneration and division of soybean (Glycine max, Var. Acme) protoplasts isolated from suspension cells of cotyledonary callus were investigated. The uptake of BA by the protoplasts was also studied. BA increased protoplast viability, and promoted cell wall regeneration and cell division. The level of BA in protoplasts was increased to a maximum at about 20 hour incubation and 2/3 of the total amount of BA accumulated in protoplast was absorbed within 6 hours.

• Applied Biological Chemistry
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• v.35 no.6
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• pp.507-512
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• 1992

A ${\beta}-1,3-glucanase$ of soybean (Glycine max) was isolated, and the effects of benzyladenine(BA) on celluar levels of the enzyme content and activity were studied. The effects of BA on callose content in cell wall and wall regeneration of protoplasts were also studied to show promoting effect of cytokinin in cell wall regeneration and to elucidate action mode of cytokinin. The polypeptide of 21 kD was identified as ${\beta}-1,3-glucanase$, and the cellular content and activity of this polypeptide were decreased by BA treatment. The callose content in cell wall of callus and the wall regeneration of protoplasts were increased by BA treatment. These results indicate that cytokinin promotes cell wall regeneration by inhibition of callose degradation via decreasing ${\beta}-1,3-glucanase$ level in cell.

• Journal of Environmental Health Sciences
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• v.31 no.4 s.85
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• pp.327-331
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• 2005

Micromonosporas purpurea로부터 효율적 gentamicin 생산을 위해 protoplast fusion와 protoplast mutagenesis 방법이 검토 되었다. $CO^{60}\;irradiation\;(2.3{\times}10^5$ units, UV 3 min) 방법에 의해서 MP3-112, MP3-141, MP3-143을 분리 했다. 특히 MP3-143균주는 최대 gentamicin생산량이 얻어졌다. 개량된 MP3-143균주를 이용해서 탄소원 소비, 균체성장, 그리고 gentamicin 생산량이 batch culture에서 비교되었다. MP3-413와 parent 균주의 glucose 소비는 배양 2일과 3일 후에 각각 완전히 이루어졌다. 그러나 균체성장과 Soybean oil 소비는 비슷한 결과 얻어졌다. Gentamicin최대 생산량은 배양 5일 후 29756 U/ml였다. 이 결과는 parent 균주에 비해 생산량이 5.6배 증가했다.

• Applied Biological Chemistry
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• v.33 no.1
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• pp.93-100
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• 1990

The optimum conditions of electric stimulation for electrofusion of protoplasts of petunia, carrot and soybean, and the effects of calcium, magnesium, protease, trypsin, triton X-100, concanavalin A, dimethyl sulfoxide(DMSO), glycerol monooleate and spermine on fusion frequency and/or viability of petunia protoplast were investigated. The optimum frequencies(Hz)-amplitudes(V/cm) of AC Pulse for protoplast pearl-chain formation were 10 kHz-20 V/cm and 1 MHz-60 V/cm for petunia, 100 kHz-40 V/cm and $1\;MHz-40{\sim}60\;V/cm$ for carrot, and $1\;MHz-40{\sim}80\;V/cm$ for soybean, respectively. The optimum condition of DC pulse treatment at the 1 MHz-60 V/cm-15sec treatment of AC for electrofusion of petunia protoplasts was 2.5 kV/cm-40 sec, and under this condition the fusion frequency and viability of protoplasts were 45 % and 10 %, respectively, Both of the protoplasts of carrot and soybean were not fused under the AC and DC conditions tested in this experiment. The electrofusion of petunia protoplasts was stimulated by calcium, and the fusion frequency and the viability of the protoplasts were 43 % and 11 % , respectively at the calcium concentration of 140 mM. Although fusion frequency was not affected by magnesium only, magnesium stimulated fusion frequency in the presence of calcium, and the viability and fusion frequency of petunia protoplasts were 45 % and 13 %, respectively, at 140 mM of magnesium-140 mM of calcium. The relative fusion frequencies of petunia protoplasts to the controls were increased by 2.4, 2.1, 1.6, 1.4, 1.8, 1.5 and 2.2 folds, respectively, by the treatments of protease, trypsin, triton X-100, concanavalin A, DMSO, glycerol monooleate, and spermine. The viabilities of petunia protoplasts were decreased by these substances.

• Journal of Plant Biology
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• v.25 no.4
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• pp.181-188
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• 1982

Chloroplasts isolated from tobacco (Nicotiana tabacum L. cv. Virginia 115) leaves have been transferred into protoplasts of soybean (Glycine max Merr. cv. Jangyeop) suspension-cultured cells with the help of polyethylene glycol (PEG). The increased yield in protoplasts of chloroplast uptake was depended upon the concentration of both PEG 4,000 and PEG 6,000. The highest yield(36%) occurred at 50% of both PEG, and the yield was decreased above this concentration. The rate of uptake with the incubation time was highest at one hour, then decreased. The process of the chloroplast uptake into the protoplasts was similar with that of a protoplast fusion, except forming invagination during uptake.

• Proceedings of the Korean Society of Crop Science Conference
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• 2022.10a
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• pp.234-234
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• 2022

Gene-editing is currently one of the most popular technologies in recent years. Development of the new crop using the gene editing have advantage of improved accuracy and efficiency compared with conventional breeding. Soybean (Glycine max L.) is one of the most important crops worldwide used as food and forage. We tried to establish a system for breeding improvement of soybean through gene-editing technology. For the gene-editing system of soybean, i) selection of efficiency gRNA of targeted gene, ii) efficient genetic transformation of the selected gRNA, iii) selection of trans-clean mutant is essential. First of all, we investigated the selection conditions of gRNA with high editing efficiency of targeted gene using isolated protoplast of soybean. Furthermore, we performed the Agrobacterium-mediated genetic transformation of various soybean cultivars. We identified the tissue culture ability in 23 soybean cultivars for genetic transformation of soybean. The six cultivars with high tissue culture ability were selected and confirmed the transgenic plants in four cultivars. Finally, we established a speed-breeding system as a powerful tool for the fast selection of trans-clean mutants from transgenic plants. Our laboratory will provide the valuable system for improvement of soybean by the gene-editing technology.

• Korean Journal of Plant Resources
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• v.33 no.5
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• pp.536-549
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• 2020

Soybean (Glycine max (L.) Merrill) is one of the most important crops of the world. With the completion of the soybean genome sequence, the Korean soybean core collection consisted of 430 accessions with genetic and phenotypic diversity was constructed in recent year. The availability of genome sequences and core collection will result in the crop improvement by molecular breeding using the various accessions and genome editing approaches. Efficient tissue culture techniques, such as haploid production, protoplast culture and plant regeneration from various organs are essential for the successful molecular biological approach and crop improvement. However, soybean is still considered to be recalcitrant in tissue culture because of the low frequency of regeneration and limitation of available responsive cultivars. In this study, we discuss the recent studies of tissue culture technology and methodology for efficient tissue culture to genetic improvement and application of molecular biotechnology in soybean.

• Journal of environmental and Sanitary engineering
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• v.23 no.4
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• pp.23-29
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• 2008

This study was performed to develop mutant strain using a combination of UV irradiation procedures with protoplast mutagenesis in order to achieve an effective kasugamycin production from Streptomyceskasugaensis. Whenlessthan 1.0g/lof Linoleic acid was used, the cell growth was not inhibited. On the other hand, the cell growth was greatly inhibited when more than 1.6 g/l of linoleic acid was used. Among the various mutant strains, SK-12 was obtained in medium containing 1.6g/l of linoleic acid, showing the highest rate of both cell growth and kasugamycin production. In order to compare kasugamycin production with the SK-12 and the parent strain using soybean oil, cultures were performed in a flask. The production of kasugamycin was increased with the increase time. The maximum kasugamycin concentration was 1.2g/l after 6 days of culture. The product yield from soybean oil was 0.05g/l/g consumed carbon source, which was roughly 5.0 fold higher than the parent strain. These results show that it was effective method for obtaining a mutant resistant to linoleic acid for the effective production of kasugamycin from soybean oil.

• Applied Biological Chemistry
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• v.38 no.5
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• pp.387-392
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• 1995

To study the regulatory expression mechanism of soybean glycinin gone, Gy2, the 5' upstream region of the gene was searched for the presence of putative regulatory elements by nucleotide sequencing. It revealed various kinds of regulatory sequence elements commonly found in plant storage protein genes. There were canonical promoter sequences, TATA box (TATAAT) and AGGA box (GAAT) which are common in the 5' upstream region of the plant genes. The embryo factor binding sequence, RY repeat, CACA sequences, ${\alpha}$-conglycinin enhancer-like sequences were also found. To delineate the function of these sequences, 5' upstream deletion mutants of Gy2 were prepared and fused to the ${\alpha}$-glucuronidase (GUS) gene. Each chimeric construct was transferred into soybean protoplasts for transient assay, which led to the identification of the sequences between -281 and -223, -170 and -122, of Gy2 promoter as negative regulatory elements, and the sequences between -223 and -170, -122 and -16 as positive regulatory elements. These results are consistent in transformed tobacco plants as well. The serially deleted promoter fragments fused to the GUS were transformed into Nicotiana tabacum by Agrobacterium tumefaciens using the binary vector system. GUS activity of Gy2 promoter deletion constructs was detected only in seeds but not in leaves with different levels of expression as in transient assay. These results suggest that the glycinin Gy2 promoter drives a tissue-specific expression in transgenic tobacco plants.

• Applied Biological Chemistry
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• v.34 no.2
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• pp.134-141
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• 1991

In order to investigate the changes and characteristics of biochemical metabolic substances of soybean tissue culture during the cultural period, immature cotyledons were detached form the plant on 15th days after flowering and cultured in vitro for 3 weeks. The cultures were classified into embryogenic(EC) and non-embryogenic callus(NEC). A part of the EC lines were subcultured for another 3 weeks and classified into root forming(RFC), and shoot forming cultures(SFC). Another part of the EC lines were used for isolation of protoplasts, which were subsequently cultured in vitro for 4 weeks. The cultures were classified into embryogenic(PEC) and non-embryogenic callus(PNEC) derived from the protoplasts. The cultures of EC and PEC lines showed higher phenylalanine content and lower methionine content than those of NEC and PNEC. At organ differentiation stage, both cultures showed the content of aspartic acid decreased, while the other amino acids increased as a whole. The protein pattern analysis of the cultures revealed that EC and NEC lines contained distinctive polypeptides, with mass of ca. 18KD for EC and ca. 22KD for NEC respectively. The EC and PEC lines also showed high activity of peroxidase isozyme A(piA), while the RFC and SFC lines showed that of peroxidase isozyme B(piB).