• Title/Summary/Keyword: MBP 융합단백질

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Soluble Expression of Human Angiostatin and Endostatin by Maltose Binding Protein (MBP) Fusion in E. coli (Maltose Binding Protein 융합단백질에 의한 인간유래의 앤지오스타틴과 앤도스타틴의 대장균에서 수용성 단백질발현)

  • Paek, Seon-Yeol;Choi, Shin-Geon
    • Journal of Industrial Technology
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    • v.28 no.B
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    • pp.59-63
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    • 2008
  • Rapid production of therapeutic proteins such as angiostatin and endostatin angiogenic inhibititors has been highly demanded for cancer treatment. In this regard, recombinant human angiostatin and endostatin were successfully expressed as soluble forms by maltose binding protein (MBP)-mediated fusion expression in Escherichia coli. PCR amplified, angiostatin and endostatin genes from human placenta cDNA library were inserted into an expression vector pMAL-c2e to construct prokaryotic expression vectors, pMAL-c2e/AS and pMAL-c2e/ES, respectively. Recombinant angiostatin and endostatin were efficiently expressed in E. coli origami (DE3) after IPTG induction and protein expression were confirmed by SDS-PAGE analyses. The expressed recombinant proteins were purified near homogenity using an amylose affinty column chromatography. In contrast that previous E. coli expressions were all insoluble, our results first time demonstrated that MBP fused human angiostatin and endostatin were soluble in E. coli.

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Protein Engineering of Flavin-containing Monooxygenase from Corynebacterium glutamicum for Improved Production of Indigo and Indirubin (인디고와 인디루빈의 생산을 증대하기 위한 플라빈-함유 모노옥시게나제의 단백질공학)

  • Jung, Hye Sook;Jung, Hae Bin;Kim, Hee Sook;Kim, Chang Gyeom;Lee, Jin Ho
    • Journal of Life Science
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    • v.28 no.6
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    • pp.656-662
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    • 2018
  • Flavin-containing monooxygenases from Corynebacterium (cFMOs) were mutagenized based on homology modeling to develop variants with an enhanced indigoid production capability. The four mutants, F170Y, A210G, A210S, and T326S, which fused to a maltose-binding protein (MBP), were constructed, and their biochemical properties were characterized. Of these, purified MBP-T326S required a higher concentration of exogenous FAD (100 mM) than the wild-type MBP-cFMO for optimal activity and showed a 3.8-fold increase in the $k_{cat}/K_m$ value at $100{\mu}M$ FAD compared to that of MBP-cFMO at $2{\mu}M$ FAD. The indole oxygenase activities of MBP-T326S decreased to 63-77% compared to that of the MBP-cFMO In addition, MBP-T326S displayed a very low level of futile NADPH oxidase activities (21-24%) in the absence of a substrate. Mutant proteins except for T326S displayed similar $K_m$ and increased $k_{cat}/K_m$ values compared to the wild-type. MBP-F170Y and -A210S mutants showed elevated indole oxygenase activity higher than 3.1- and 2.9-fold, respectively, in comparison with MBP-cFMO. When indigoid production was carried out in LB broth with 2.5 g/l of tryptophan, Escherichia coli expressing cFMO produced 684 mg/l of indigo and 104 mg/l of indirubin, while cells harboring T326S produced 1,040 mg/l of indigo and 112 mg/l of indirubin. The results indicate that the production of indigo was 13% higher when compared to a previous report in which an E. coli expressing FMO from Methylophaga produced 920 mg/l of indigo. The protein engineering of cFMO based on homology modeling provided a more rational strategy for developing indigoid-producing strains.

Structure-Function Analysis of DNA Binding Domain of the Yeast ABF1 Protein (효모 ABF1 단백질의 DNA Binding 부위에 대한 구조 기능 연구)

  • Cho, Gi-Nam;Lee, Sang-Kyung;Kim, Hong-Tae;Kim, Ji-Young;Rho, Hyune-Mo;Jung, Gu-Hung
    • Korean Journal of Microbiology
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    • v.32 no.2
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    • pp.102-108
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    • 1994
  • Autonomously replicating sequence Binding Factor 1(ABF1) is a DNA-binding protein that specifically recognizes the $RTCRYN_5ACG$ at many sites in the yeast genome including the promoter element, mating-type silencer and ARS. To express the intact full-length ABF1 gene in E. coli, the ABF1 gene has been cloned into pMAL-c2 and His-61, Leu-353 and Leu-360 were substituted with other amino acid. ABF1 fusion proteins of wild type ABF1 and H61A, L353R and L360R nutants were purified by amylose resin affinity chromatography. Fusion protein of MBP and ABF1 was digested by Factor Xa and Characterized by gel retardation assay and complementation test. As aresult, we suggested that other DNA binding motif except atypical inc-finger motif is in the middle region of ABF1.

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Study on the soluble exoression of recombinant human eoidermal growth factor using various fusion oartners in Escherichia coli (재조합 대장균에서 다양한 융합 파트너를 이용한 인간 상피세포성장인자의 발현 연구)

  • Kim, Byung-Lip;Baek, Jung-Eun;Kim, Chun-Sug;Lee, Hyeok-Weon;Ahn, Jung-Oh;Lee, Hong-Weon;Jung, Joon-Ki;Lee, Eun-Gyo;Kim, In-Ho
    • KSBB Journal
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    • v.23 no.3
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    • pp.205-212
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    • 2008
  • The efficient soluble expression of human epidermal growth factor (hEGF) was achieved by using functional fusion partners in cytoplasm and periplasm of Escherichia coli (E. coli). hEGF was over-expressed in inactive inclusion body form in cytoplasm of E. coli due to improper disulfide bond formation and hydrophobic interaction, yielding about 5.9 mg/L in flask culture. Six functional fusion partners were introduced by linking to N-terminal part of hEGF gene for the high-level expression of soluble and active hEGF in cytoplasm and peri plasm region. Three fusion partners for cytoplasmic expression such as acidic tail of synuclein (ATS), thioredoxin (Trx) and lipase, and three fusion partners for periplasmic expression such as periplasmic cystein oxidoreductases (DsbA and DsbC) and maltose binding protein (MBP) were investigated. hEGF fused with ATS and DsbA showed over 90% of solubility in cytoplasm and periplasm, respectively. Especially DsbA was found to be an efficient fusion partner for soluble and high-level expression of hEGF, yielding about 18.1 mg/L and three-fold higher level compared to that of insoluble non-fusion hEGF in cytoplasm. Thus, heterologous proteins containing complex disulfide bond and many hydrophobic amino acids can effectively be produced as an active form in E. coli by introducing a suitable peptide or protein.

Construction of a Transgenic Plant to Develop a New Method for the Isolation of Calmodulin-Binding Proteins (새로운 방법을 이용한 칼모둘린 결합 단백질 분리를 위한 형질 전환 식물체의 구축)

  • Kim, Sun-Ho;Lee, Kyung-Hee;Kim, Kyung-Eun;Jung, Mi-Soon;Lim, Chae-Oh;Lee, Shin-Woo;Chung, Woo-Sik
    • Journal of Life Science
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    • v.17 no.9 s.89
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    • pp.1177-1181
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    • 2007
  • Calmodulin (CaM), a ubiquitous calcium-binding protein, regulates diverse cellular functions by modulating the activity of a variety CaM-binding proteins (CaMBPs). Because eukaryotes have multiple CaMBPs, it is important to isolate and characterize them in different tissues and conditions. So far a number of CaMBPs have been identified through classical screening methods. Many classes of proteins have been predicted to bind CaMs based on their structural homology with already known targets. In an effort to develop a method for large-scale analysis of CaMBPs in Arabidopsis, we have generated a transgenic plants overexpressing AtCaM2-GFP. We performed protein pull-down assay to test whether exogenously expressed AtCaM2-GFP proteins can interact with CaMBPs. The exogenously expressed AtCaM2-GFP could strongly interact with a CaMBP, AS1 protein. This result suggests that AtCaM2-GFP in transgenic plants may interact with many CaMBPs in plant cell. Therefore, we will be able to isolate kinds of CaMBPs by using these transgenic plants in many different tissue and environments.