Wandee Bunyatratchata scite author profile

A mannose-binding lectin was purified from Dendrobium (D.) findleyanum pseudobulb using mannan-agarose column chromatography. After heating in the presence of SDS with or without 2-mercaptoethanol on SDS-PAGE with a continuous gradient of 8%−20% acrylamide, the purified lectin showed only one protein band with a molecular mass of 14.5 kDa. Without heating, two bands were seen on the gel at the positions of 14.5 kDa and 53.7 kDa, but a higher amount of the 53.7 kDa protein was observed in the presence of 2-mercaptoethanol. Protein identification of both protein bands by liquid chromatography-tandem mass spectrometry showed three peptide fragments identical to parts of a lectin precursor from D. officinale; the lectin was named D. findleyanum agglutinin (DFA). Using various concentrations of native-PAGE and Ferguson plot, only one protein band revealed a molecular mass of 56.2 kDa, indicating four 14.5 kDa polypeptide subunits in the DFA. Isoelectric focusing revealed that the DFA had three conformational forms with an isoelectric point of 5.18, 4.87 and 4.72, whereas 2-mercaptoethanoltreated DFA showed only one band with an isoelectric point of 5.18. DFA exhibited specificity towards mannose using the solid-phase method. The binding activity, anti-fungal activity and hemagglutination activity of DFA were not affected by heat, but were increased by free sulfhydryl groups.

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Antioxidant and antibacterial properties of selected Thai weed extracts

Rattanata

Daduang

Phaetchanla³

et al. 2014

Asian Pacific Journal of Tropical Biomedicine

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Dendrobium findleyanum agglutinin: production, localization, anti-fungal activity and gene characterization

et al. 2009

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The recently reported Dendrobium findleyanum agglutinin (DFA) was identified and determined in different parts of D. findleyanum pseudobulbs by using Western blot analysis, LC-MS/MS, sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) and histochemical procedure. Western blot analysis of crude protein extract with horseradish peroxidase (HRP), a mannose-rich glycoprotein, showed only one band at 14.5 kDa, which had the same molecular mass as DFA. This band was a major band when the membrane was stained with Coomassie Brilliant Blue. The protein profiles from SDS-PAGE showed higher band intensity of the 14.5 kDa mannose-binding protein in nearly mature and mature stages, compared to very young and young stages of the orchid. In addition, the band intensity was to a great extent different between the swollen and the non-swollen internode of the pseudobulb. Using LC-MS/MS, the sequence tags of the 14.5-kDa protein bands from the node, swollen internode and non-swollen internode revealed that the protein was DFA. Histochemical procedure in the transverse section of the pseudobulbs demonstrated major HRP binding sites, which reflected the location of DFA, in periphery of parenchymal cells. The purified DFA showed anti-fungal activity against Alternaria alternata and Collectotrichum sp. Using reverse transcription polymerase chain reaction and DNA sequencing, the deduced amino acid sequence of the DFA precursor revealed 94% homology with a lectin precursor from D. officinale. N-terminal sequencing demonstrated the processing site between residues 24 and 25 of the DFA precursor.

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Bacterial Overexpression of Recombinant Heteroscorpine-1 (rHS-1), a Toxin from Heterometrus laoticus Scorpion Venom: Trends for Antibacterial Application and Antivenom Production

et al. 2014

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Heteroscorpine-1 (HS-1) was identified as a member of the scorpine family. HS-1 shows insecticidal activities, exhibiting a low median lethal dose (LD50) in mealworm (Tenebrio molitor L.) and inhibitory activities against Bacillus subtilis, Klebsiella pneumoniae, and Pseudomonas aeruginosa. In this study, a recombinant HS-1 (rHS-1) was produced by overexpression in E. coli. A large yield of product was obtained. The structure of purified rHS-1 was confirmed through mass spectrometry. Both anti-crude venom and anti-rHS-1 antibodies specifically recognized rHS-1, suggesting its structural similarity. Reactivated rHS-1 caused roughening and blebbing of bacterial cell surfaces. It showed higher activity than that of pre-refolded protein. Antisera raised against a partially purified and mis- or unfolded peptide can inhibit relevant bioactivity.

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