• Title/Summary/Keyword: SWPA2 promoter

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A Novel Oxidative Stress-inducible Peroxidase Promoter and Its Applications to Production of Pharmaceutical Proteins in Transgenic Cell Cultures

  • Lee, Ok-Sun;Park, Sun-Mi;Kwon, Suk-Yoon;Lee, Haeng-Soon;Kim, Kee-Yeun;Kim, Jae-Whune;Kwak, Sang-Soo
    • Journal of Plant Biotechnology
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    • v.4 no.4
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    • pp.143-150
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    • 2002
  • A strong oxidative stress-inducible peroxidase promoter (referred to as SWPA2 promoter) was cloned from tell cultures of sweetpotato (Ipomoea batatas) and characterized in transgenic tobacco cultured cells in terms of biotechnological applications. Employing a transient expression assay in tobacco protoplasts, with five different 5'-deletion mutants of the SWPA2 promoter fused to the $\beta$-glucuronidase (GUS) reporter gene, the 1314 bp deletion mutant showed approximately 30 times higher GUS expression than the CaMV 35S promoter. The expression of GUS activity in suspension cultures of transgenic cells derived from transgenic tobacco leaves containing the -1314 bp SWPA2 promoter-GUS fusion was strongly expressed following 15 days of subculture compared to other deletion mutants, suggesting that the 1314 bp SWPA2 promoter will be biotechnologically useful for the development of transgenic cell lines engineered to produce key pharmaceutical proteins. In this respect, we developed transgenic cell lines such as tobacco (Nicotiana tabacum L. BY-2), ginseng (Panax ginseng) and Siberian ginseng (Acanthopanax senticosus) using a SWPA2 promoter to produce a human lactoferrin (hLf) and characterized the hLf production in cultured cells. The hLf production monitored by ELISA analysis in transgenic BY-2 cells was directly increased proportional to cell growth and reached a maximal level (up to 4.3% of total soluble protein) at the stationary phase in suspension cultures. The SWPA2 promoter should result in higher productivity and increased applications of plant cultured cells for the production of high-value recombinant proteins.

Expression of a Human Histone H1.5 in Transgenic Tobacco Cultured Cells (담배 배양세포에서 인간 히스톤 단백질 H1.5의 발현)

  • Kim, Kee-Yeun;Kwon, Suk-Yoon;Song, Jae-Young;Lee, Haeng-Soon;Kwak, Sang-Soo
    • Journal of Plant Biotechnology
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    • v.31 no.2
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    • pp.175-178
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    • 2004
  • Transgenic tobacco (Nicotiana tabacum L. cv Bright Yellow-2) cell lines expressing a human histone H1.5 (referred to as hH1.5), which suppress collagen-induced rheumatoid arthritis, were developed under the oxidative stress-inducible peroxidase (SWPA2) promoter. Tobacco BY-2 cells were transformed by Agrobacterium-mediated method. The kanamycin-resistant calli were selected on the modified MS medium containing 150mg/L kanamycin and 300mg/L claforan. Transgenic cell lines were confirmed by PCR and northern blot analysis. Recombinant hH1.5 (rhH1.5) protein (42 kDa) was also detected by Western blot analysis, showing a different molecular weight of human hH1.5 (32 kDa). These results suggested that a hH1.5 gene was properly introduced in tobacco cultured cells under the control of SWPA2 promoter. The further characterization of rhH1.5 protein remains to be studied.

Development of transgenic potato with improved anthocyanin contents using sweet potato IbMYB1 gene (고구마의 IbMYB1 유전자를 이용한 안토시아닌 고함유 형질전환 감자의 개발)

  • Kim, Yun-Hee;Han, Eun-Hee;Kwak, Sang-Soo;Lee, Shin-Woo
    • Journal of Plant Biotechnology
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    • v.45 no.4
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    • pp.364-368
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    • 2018
  • The R2R3-type protein IbMYB1 transcription factor is a key regulator for anthocyanin biosynthesis in the storage roots of sweet potatoes. It was previously demonstrated that the IbMYB1 expression stimulates anthocyanin pigmentation in tobacco leaves, arabidopsis and storage roots of sweet potatoes. In this study, we generated the transgenic potato plants that express the IbMYB1 genes, which accumulated high levels of anthocyanins under the control of either the tuber-specific patatin (PAT) promoter or oxidative stress-inducible peroxidase anionic 2 (SWPA2) promoter. The PAT-MYB1 transgenic lines exhibited higher anthocyanin levels in the tuber than the empty vector control (EV) or SWPA2-MYB1 plants. When combined, our results indicated that overexpression of the IbMYB1 is a highly promising strategy for the generation of transgenic plants with enhanced tissue specific anthocyanin production.

Production of Transgenic Birdsfoot trefoil Plants by Introduction of 'SWPA2 Promoter + AtNDPK2 Gene' ('SWPA2프로모터+AtNDPK2유전자' 도입에 의한 버즈풋 트레포일 형질전환체 생산)

  • Kim Ki-Yong;Jang Yo-Soon;Kim Meing Jooung;Lim Keun Bal;Kim Won Ho;Seo Sung;Lee Sang Jin;Kwak Sang-Soo
    • Journal of The Korean Society of Grassland and Forage Science
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    • v.25 no.4
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    • pp.281-286
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    • 2005
  • To develop transgenic birdsfoot trefoil (Lotus corniculatus L.) plants tolerant to environmental stress, Arabidopsis NDPK gene (AtNDPK) was introduced into birdsfoot trefoil plants using Agrobacterium-mediated transformation and expressed powerfully under the control of the SWPA2 promoter. The expression vector, pCAMBIA2300 was used for introduction of AtNDPK gene into birdsfoot trefoil plants. The transformed calli were selected on kanamycin containing medium and then regenerated. The transformed birdsfoot trefoil plants were cultivated fur 4 months on BOi2Y medium. Genomic DNA PCR and Southern blot analysis confirmed the incorporation of AtNDPK into the birdsfoot trefoil genome.

Development of Industrial Transgenic Plants Using Antioxidant Enzyme Genes (항산화효소 유전자를 이용한 산업용 형질전환식물체 개발)

  • Lee, Haeng-Soon;Kim, Kee-Yeun;Kwon, Suk-Yoon;Kwak, Sang-Soo
    • Journal of Plant Biotechnology
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    • v.29 no.2
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    • pp.69-77
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    • 2002
  • Oxidative stress derived from reactive oxygen species (ROS) is one of the major damaging factors in plants exposed to environmental stress. In order to develop the platform technology to solve the global food and environmental problems in the 21st century, we focus on the understanding of the antioxidative mechanism in plant cells, the development of oxidative stress-inducible antioxidant genes, and the development of transgenic plants with enhanced tolerance to stress. In this report, we describe our recent results on industrial transgenic plants by the gene manipulation of antioxidant enzymes. Transgenic tobacco plants expressing both superoxide dismutase (SOD) and ascorbate peroxidase (APX) in chloroplasts were developed and were evaluated their protection effects against stresses, suggesting that simultaneous overexpression of both SOD and APX in chloroplasts has synergistic effects to overcome the oxidative stress under unfavorable environments. Transgenic tobacco plants expressing a human dehydroascorbate reductase gene in chloroplasts were showed the protection against the oxidative stress in plants. Transgenic cucumber plants expressing high level of SOD in fruits were successfully generated to use the functional cosmetic purpose as a plant bioreactor. In addition, we developed a strong oxidative stress-inducible peroxidase promoter, SWPA2 from sweetpotato (lpomoea batatas). We anticipate that SWPA2 promoter will be biotechnologically useful for the development of transgenic plants with enhanced tolerance to environmental stress and particularly transgenic cell lines engineered to produce key pharmaceutical proteins.

Transgenic Siberian Ginseng Cultured Cells That Produce High Levels of Human Lactoferrin (인체 락토페린 생산 형질전환 가시오갈피 배양세포)

  • Jo Seung-Hyun;Kwon Suk-Yoon;Kim Jae-Whune;Lee Ki-Teak;Kwak Sang-Soo;Lee Haeng-Soon
    • Journal of Plant Biotechnology
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    • v.32 no.3
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    • pp.209-215
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    • 2005
  • Lactoferrin is an iron-binding glycoprotein with many biological roles, including the protection against microbial and virus infection, stimulation of the immune system. We developed the transgenic Siberian ginseng (Acanthopanax senticosus) cell cultures producing the human lactoferrin (hLf) protein following Agrobacterium tumefaciens-mediated transformation. A construct containing a targeting signal peptide from tobacco endoplasmic reticulum fused to hLf cDNA under the control of an oxidative stress-inducible SWPA2 promoter was engineered. Transgenic Siberian ginseng cultured cells to produce a recombinant hLf protein were successfully generated and confirmed by PCR and Southern blot analysis. ELISA and western blot analysis showed that full length-hLf protein was synthesized in the transgenic cells. The production of hLf increased proportionally to cell growth and reached a maximal (up to 3% of total soluble proteins) at the stationary phase. These results suggest that the transgenic Siberian ginseng cultured cells in this study will be biotechnologically useful for the commercial production of medicinal plant cell cultures to produce hLf protein.

Development of Industrial Transgenic Plants Using Antioxidant Enzyme Genes (항산화효소 유전자를 이용한 산업용 형질전환식물체 개발)

  • LEE Haeng-Soon;KIM Kee-Yeun;KWON Suk-Yoon;KWAK Sang-Soo
    • Proceedings of the Korean Society of Plant Biotechnology Conference
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    • 2002.04a
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    • pp.49-58
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    • 2002
  • Oxidative stress derived from reactive oxygen species (ROS) is one of the major damaging factors in plants exposed to environmental stress. In order to develop the platform technology to solve the global food and environmental problems in the 21s1 century, we focus on the understanding of the antioxidative mechanism in plant cells, the development of oxidative stress-inducible antioxidant genes, and the development of transgenic plants with enhanced tolerance to stress. In this report, we describe our recent results on industrial transgenic plants by the gene manipulation of antioxidant enzymes. Transgenic tobacco plants expressing both superoxide dismutase (SOD) and ascorbate peroxidase (APX) in chloroplasts were developed and were evaluated their protection effects against stresses, suggesting that simultaneous overexpression of both SOD and APX in chloroplasts has synergistic effects to overcome the oxidative stress under unfavorable environments. Transgenic tobacco plants expressing a human dehydroascorbate reductase gene in chloroplasts were showed the protection against the oxidative stress in plants. Transgenic cucumber plants expressing high level of SOD in fruits were successfully generated to use the functional cosmetic purpose as a plant bioreactor. In addition, we developed a strong oxidative stress-inducible peroxidase promoter, SWPA2 from sweetpotato (Ipomoea batatas). We anticipate that SWPA2 promoter will be biotechnologically useful for the development of transgenic plants with enhanced tolerance to environmental stress and particularly transgenic cell lines engineered to produce key pharmaceutical proteins.

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Selection of Transgenic Potato Plants Expressing NDP Kinase 2 Gene with Enhanced Tolerance to Oxidative Stress (NDP Kinase 2 유전자를 도입한 산화스트레스 내성 형질전환 감자의 선발)

  • Li, Tang;Kwon, Suk-Yoon;Yun, Dae-Jin;Kwak, Sang-Soo;Lee, Haeug-Soon
    • Journal of Plant Biotechnology
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    • v.31 no.3
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    • pp.191-195
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    • 2004
  • Arabidopsis NDPK2 (AtNDPK2) is a key singaling component that regulate cellular redox state and known to enhance multiple stress tolerance when over-expressed in Arabidopsis plant (Moon et al. 2003). In order to develop transgenic potato plants with enhanced tolerance to multiple stresses, we placed an AtNDPK2 cDNA under the control of a stress-inducible SWPA2 promoter or enhanced CaMV 35S promoter. Transgenic potato plants (cv. Superior and Atlantic) were generated using an Agrobacterium-mediated transformation system and selected on MS medium containing 100 mg/L kanamycin. Genomic Southern blot analysis confirmed the incorporation of AtNDPK2 cDNA into the potato genome. When potato leaf discs were treated with methyl viologen (MV) at 10 $\mu$M, transgenic plants showed higher tolerance to MV than non-transgenic or vector-transformed plants. The NDPK2 transgenic potato plants will be further used for analysis of stress-tolerance to multiple environmental stresses.

Development of Industrial Transgenic Plants Using Antioxidant (항산화효소 유전자를 이용한 산업용 형질전환식물체 개발)

  • Lee, Haeng-Soon;Kim, Kee-Yeun;Kwon, Suk-Yoon;Kwak, Sang-Soo
    • Proceedings of the Korean Society of Plant Biotechnology Conference
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    • 2002.04b
    • /
    • pp.49-58
    • /
    • 2002
  • Oxidative stress derived from reactive oxygen species (ROS) is one of the major damaging factors in plants exposed to environmental stress. In order to develop the platform technology to solve the global food and environmental problems in the 21st century, we focus on the understanding of the antioxidative mechanism in plant cells, the development of oxidative stress-inducible antioxidant genes, and the development of transgenic plants with enhanced tolerance to stress. In this report, we describe our recent results on industrial transgenic plants by the gene manipulation of antioxidant enzymes. Transgenic tobacco plants expressing both superoxide dismutase (SOD) and ascorbate peroxidase (APX) in chloroplasts were developed and were evaluated their protection effects against stresses, suggesting that simultaneous overexpression of both SOD and APX in chloroplasts has synergistic effects to overcome the oxidative stress under unfavorable environments. Transgenic tobacco plants expressing a human dehydroascorbate reductase gene in chloroplasts were showed the protection against the oxidative stress in plants. Transgenic cucumber plants expressing high level of SOD in fruits were successfully generated to use the functional cosmetic purpose as a plant bioreactor. In addition, we developed a strong oxidative stress-inducible peroxidase promoter, SWPA2 from sweetpotato (Ipomoea batatas). We anticipate that SWPA2 promoter will be biotechnologically useful for the development of transgenic plants with enhanced tolerance to environmental stress and particularly transgenic cell lines engineered to produce key pharmaceutical proteins.

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