[alpha]-Mannosidases from the Digestive Fluid of Rhynchophorus Palmarum Larvae as Novel Biocatalysts for Transmannosylation Reactions

Two biological fluids, namely hemolymph and digestive fluid from the larval stage of Rhynchophorus palmarum Linneaus, a serious pest in agroecosystem exploiting oil palm, were screened for hydrolytic activities, by the use of synthetic and natural glycoside substrates. Several exo and endoglycosidas...

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Bibliographic Details
Published in:Applied biochemistry and biotechnology 2010-09, Vol.162 (2), p.307-320
Main Authors: Bédikou, Ehuié M, Koné, Martial F, Ahi, Amédée P, Gonnety, Jean T, Faulet, Betty M, Kouamé, Lucien P, Niamké, Sébastien L
Format: Article
Language:English
Subjects:
Agricultural ecosystems
Chemical reactions
Digestive system
Fluid dynamics
Larvae
Rhynchophorus palmarum
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Summary:Two biological fluids, namely hemolymph and digestive fluid from the larval stage of Rhynchophorus palmarum Linneaus, a serious pest in agroecosystem exploiting oil palm, were screened for hydrolytic activities, by the use of synthetic and natural glycoside substrates. Several exo and endoglycosidase activities were observed but, the interesting α-mannosidase activity (0.41±0.04 UI) had attracted our attention. So, we have previously demonstrated that this activity harbours four distinctive α-mannosidase isoforms named RpltM, RplM1, RplM2 and RplM3. We have extended this work to determine the ability of these enzymes to catalyze synthesis reactions. Finally, we have revealed that, α-mannosidases from the digestive fluid of R. palmarum larvae catalyze transmannosylation reactions. The stability of the enzymes and the optimization of the transfer product yield were studied as functions of pH, enzyme unit, starting concentration of donor or acceptor and time. It was shown that, in experimental optimum conditions, average yields of 12.34±0.75, 12.15±0.79, 5.59±0.35 and 8.43±0.50% were obtained for the α-mannosidases RpltM, RplM1, RplM2 and RplM3, respectively. On the basis of this work, α-mannosidases from the digestive fluid of Rhynchophorus palmarum larvae appear to be a valuable tool for the preparation of neoglycoconjugates.[PUBLICATION ABSTRACT]
ISSN:0273-2289
1559-0291
DOI:10.1007/s12010-009-8883-6