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      Use of Growing Cells of Pseudomonas aeruginosa for Synthesis of the Natural Vanillin via Conversion of Isoeugenol

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          Abstract

          The great demand of people for consumption of natural additives resulted in producing natural vanillin. There are plant sources and chemical procedures for vanillin production but microbial bioconversions are being sought as a suitable alternative. In the present work, the ability to produce vanillin from isoeugenol was screened using growing cultures of various bacteria. Among the 56 strains of bacteria isolated from the soil environments of Iran, a Gram-negative rod designated as strain ISPC2 showed the capability of promoting the formation of high amounts of vanillin when grown in the presence of isoeugenol. On the basis of morphological and physiochemical characteristics and 16S ribosomal ribonucleic acid (rRNA) gene sequence analysis, the isolate was identified as Pseudomonas aeruginosa ISPC2. Vanillin formation was analyzed by GC/FID. In the presence of isoeugenol, a growing culture of P. aeruginosa ISPC2 produced 1.62 g/L vanillin (molar yield of 17.3%) after a 72 h reaction at 30°C and 200 rpm. This proposed procedure is an alternative approach to obtain vanillin in an environmentally friendly way. Further studies for standardization and optimization for higher yield of vanillin production, needs to be investigated.

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          Most cited references27

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          CONFIDENCE LIMITS ON PHYLOGENIES: AN APPROACH USING THE BOOTSTRAP.

          The recently-developed statistical method known as the "bootstrap" can be used to place confidence intervals on phylogenies. It involves resampling points from one's own data, with replacement, to create a series of bootstrap samples of the same size as the original data. Each of these is analyzed, and the variation among the resulting estimates taken to indicate the size of the error involved in making estimates from the original data. In the case of phylogenies, it is argued that the proper method of resampling is to keep all of the original species while sampling characters with replacement, under the assumption that the characters have been independently drawn by the systematist and have evolved independently. Majority-rule consensus trees can be used to construct a phylogeny showing all of the inferred monophyletic groups that occurred in a majority of the bootstrap samples. If a group shows up 95% of the time or more, the evidence for it is taken to be statistically significant. Existing computer programs can be used to analyze different bootstrap samples by using weights on the characters, the weight of a character being how many times it was drawn in bootstrap sampling. When all characters are perfectly compatible, as envisioned by Hennig, bootstrap sampling becomes unnecessary; the bootstrap method would show significant evidence for a group if it is defined by three or more characters.
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            Positional effect of single bulge nucleotide on PNA(peptide nucleic acid)/DNA hybrid stability

            We report positional effect of bulge nucleotide on PNA/DNA hybrid stability. CD spectra showed that PNA/DNA hybrids required at least seven base pairings at a stem region to form a bulged structure. On the other hand, DNA/DNA could form bulged structure when there are only four base pairings adjacent to the bulge nucleotide. We discuss why PNA requests such a many base pairings to form bulged structure from a nearest neighbor standpoint.
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              Biotechnological production of vanillin.

              Vanillin is one of the most important aromatic flavor compounds used in foods, beverages, perfumes, and pharmaceuticals and is produced on a scale of more than 10 thousand tons per year by the industry through chemical synthesis. Alternative biotechnology-based approaches for the production are based on bioconversion of lignin, phenolic stilbenes, isoeugenol, eugenol, ferulic acid, or aromatic amino acids, and on de novo biosynthesis, applying fungi, bacteria, plant cells, or genetically engineered microorganisms. Here, the different biosynthesis routes involved in biotechnological vanillin production are discussed.
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                Author and article information

                Journal
                Iran J Pharm Res
                Iran J Pharm Res
                IJPR
                Iranian Journal of Pharmaceutical Research : IJPR
                Shaheed Beheshti University of Medical Sciences (Tehran, Iran )
                1735-0328
                1726-6890
                Autumn 2011
                : 10
                : 4
                : 749-757
                Affiliations
                [a ] Department of Biology, Faculty of Sciences, University of Isfahan, Azadi Square, Daneshgah Street., 8174673441, Isfahan, Iran
                [b ] Department of Biology and Biotechnology, Faculty of Sciences, University of Kurdistan,Sanandaj, Kurdistan, I.R. Iran .
                [c ] Department of Chemistry, Faculty of Sciences, University of Isfahan, Isfahan 8174673441, Iran.
                Author notes
                [* ]Corresponding author: E-mail: i.nahvi@sci.ui.ac.ir
                Article
                ijpr-10-749
                3813051
                24250410
                d53453d1-bcd9-40d2-bb7f-521650c1264e
                © 2011 by School of Pharmacy, Shaheed Beheshti University of Medical Sciences and Health Services

                This is an Open Access article distributed under the terms of the Creative Commons Attribution License, ( http://creativecommons.org/licenses/by/3.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

                History
                : May 2010
                : July 2010
                Categories
                Original Article

                biotransformation,isoeugenol,vanillin,pseudomonas aeruginosa

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