1998
DOI: 10.1002/(sici)1097-0290(19980420)58:2/3<204::aid-bit13>3.3.co;2-p
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Metabolic engineering of bacteria for ethanol production

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Cited by 26 publications
(35 citation statements)
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“…These include: the removal of the enzyme or its inhibition to eliminate a competitive pathway (Green et al, 1996;Gasson et al, 1996;Shimada et al, 1998) or a toxic byproduct Cameron et al, 1998, Chaplen at al., 1996; the amplification of a gene or group of genes to improve the synthesis of existing products (Pines et al, 1997;Shimada et al, 1998;Lu and Liao;; the expression of an heterologous enzyme(s) to extend the substrate range (Prieto et al, 1996;Panke et al, 1998;Sprenger, 1996), to produce novel product (Chopra and Vageeshbabu, 1996;Hershberger, 1996;Ingram et al, 1998;Misawa and Shimada, 1998;Poirier et al, 1995;Stassi et al, 1998), to provide pathways for the degradation of toxic compounds (Chen and Wilson, 1997;Keasling et al, 1998;Xu et al, 1996), or to design a more environmentally resistant plant (Smirnoff, 1998). Alternatively, the deregulation of existing enzymes might be necessary to overcome the existing control mechanisms of a rigid node.…”
Section: Selection Of the Methods Of Genetic Modificationmentioning
confidence: 99%
“…These include: the removal of the enzyme or its inhibition to eliminate a competitive pathway (Green et al, 1996;Gasson et al, 1996;Shimada et al, 1998) or a toxic byproduct Cameron et al, 1998, Chaplen at al., 1996; the amplification of a gene or group of genes to improve the synthesis of existing products (Pines et al, 1997;Shimada et al, 1998;Lu and Liao;; the expression of an heterologous enzyme(s) to extend the substrate range (Prieto et al, 1996;Panke et al, 1998;Sprenger, 1996), to produce novel product (Chopra and Vageeshbabu, 1996;Hershberger, 1996;Ingram et al, 1998;Misawa and Shimada, 1998;Poirier et al, 1995;Stassi et al, 1998), to provide pathways for the degradation of toxic compounds (Chen and Wilson, 1997;Keasling et al, 1998;Xu et al, 1996), or to design a more environmentally resistant plant (Smirnoff, 1998). Alternatively, the deregulation of existing enzymes might be necessary to overcome the existing control mechanisms of a rigid node.…”
Section: Selection Of the Methods Of Genetic Modificationmentioning
confidence: 99%
“…At this concentration, ethanol recovery is relatively inexpensive and does not prevent such processes from having a very favorable overall energy balance [10]. Although xylose was not converted by the yeast used in this study, several xylose-utilizing ethanol-producing organisms have been developed [18,19,20]. It would be of interest to try one or more such organisms for semicontinuous conversion of paper sludge as xylan conversion has the potential to increase the ethanol yield by nearly 20% as compared to conversion of glucan only for the sludge we studied.…”
Section: Discussionmentioning
confidence: 99%
“…71 Posteriormente, os mesmos autores reportaram um estudo mais aprofundado sobre o organismo recombinante produzido, envolvendo a análise de seu fluxo metabólico, para o aumento da produtividade em etanol. 72 Mais recentemente, Zhou e colaboradores utilizaram a mesma bactéria, K. oxytoca, já contendo os genes de produção de etanol de Z. mobilis incorporados em seu cromossomo, como hospedeiro dos genes de síntese de endoglucanase de Erwinia chrysantemi, de forma a atuarem sinergicamente com b-glicosidase naturalmente ocorrente na bactéria hospedeira, permitindo que o micro-organismo recombinante gerado metabolizasse fontes celulósicas integralmente, gerando como produto etanol, em apenas uma etapa.…”
Section: Estudos Com Micro-organismos Geneticamente Modificados (Mgms)unclassified