Enhancement of ethanol production from potato-processing wastewater by engineering <i>Escherichia coli</i>
 using <i>Vitreoscilla</i>
 haemoglobin

Abanoz, K.; Stark, Benjamin C.; Akbaş, Meltem Yeşilçimen

doi:10.1111/lam.12000

Cited by 23 publications

(20 citation statements)

References 36 publications

(80 reference statements)

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“…62,[17][18][19][20] The general similarity in the patterns of accumulation of ethanol on a v/v basis and when normalized to cell biomass indicates that both immobilization and VHb expression enhanced ethanol production by increasing the efficiency of ethanol production rather than by increasing biomass accumulation. Similar conclusions were drawn concerning VHb correlated increases in ethanol with sugar sources of corn stover hydrolysate, 55 potato processing waste, 3 or corn plus potato processing wastes. 5 VHb enhancement of ethanol production in LB medium supplemented with whey or whey powder, however, was found previously to occur by increases in both biomass and the amount of ethanol produced per unit of biomass.…”

Section: Disscussionsupporting

confidence: 76%

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Effective ethanol production from whey powder through immobilizedE. coliexpressingVitreoscillahemoglobin

2016

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Ethanol production from whey powder was investigated by using free as well as alginate immobilized E. coli and E. coli expressing Vitreoscilla hemoglobin (VHb) in both shake flask and fermenter cultures. Media with varying levels of whey (lactose contents of 3%, 5%, 8% or 15%) and yeast extract (0.3% or 0.5%) were evaluated with fermentation times of 48-96 h. Immobilization and VHb expression resulted in higher ethanol production with all media; the increases ranged from 2% to 89% for immobilization and from 2% to 182% for VHb expression. It was determined that growth medium containing 8% lactose with 0.5% yeast extract yielded the highest ethanol production for free or immobilized strains, with or without VHb expression, in both shake flask and fermenter cultures. Immobilization with alginate was found to be a promising process for ethanol production by VHb-expressing ethanologenic E. coli.

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Section: Disscussionsupporting

confidence: 76%

“…1 Because of this a good deal of effort has gone into production of bioethanol from both farm and food processing wastes. [2][3][4][5] Cheese whey is an abundant by-product of the dairy industry. Whey produced in large amounts is considered a highly polluting waste due to its high organic content.…”

Section: Introductionmentioning

confidence: 99%

Effective ethanol production from whey powder through immobilizedE. coliexpressingVitreoscillahemoglobin

2016

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“…The cells retained their metabolic activities and viabilities for more than a year when they were stored in water at 4 C. 52 In the work reported here, neither long-term storage nor repeated batch fermentations appeared to greatly change VHb levels in strain TS3. As mentioned above, these levels are much lower than those reported for planktonic TS3 cells grown under similar conditions (90-323 nmol/g), [31][32][33] but similar to those previously reported for immobilized TS3 (6-63 nmol/g). 18 As mentioned above, the reasons for the low VHb levels in immobilized cells are not known, but even those low levels are not too different from the induced levels in native Vitreoscilla, 53 and so it is not surprising that they have a sizeable effect.…”

Section: Repeated Batch Fermentations and Immobilized Cell Storagesupporting

confidence: 90%

“…Ethanol production per unit of biomass was also greater for immobilized TS3 than for immobilized FBR5 for all 14 cycles, the advantage ranging from 5 % to 93 % (Tables 1 and S1). The VHb expression levels, which ranged from 7 to 16 nmol/g, were fairly consistent across all cycles, but quite low compared with those measured in previous studies with free TS3 cells, [31][32][33] and fairly comparable to those seen with immobilized TS3 cells used for only one cycle of growth. 18 (Table 1) It is possible that immobilization may lower VHb expression or inhibit its extraction from cells in some as yet unknown way.…”

Section: Performance Of Repeated Batch Cultures Over a Period Of 14 Ssupporting

confidence: 63%

“…26,28 Enhancement of ethanol production was achieved by expressing VHb in strain FBR5 (producing strain TS3). 29,30 Strains FBR5 and TS3 have been compared for their ethanol production efficiencies using different carbon sources including pure sugars and maize stover, 29,30 potato processing waste water, 31 sugar beet molasses, whey and whey powder, 32 and maize and potato processing waste. 33 Recently immobilization of strain TS3 was found to add an additional advantage to that afforded by VHb expression.…”

Section: Introductionmentioning

confidence: 99%

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Repeated batch fermentation of immobilizedE. coliexpressingVitreoscillahemoglobin for long-term use

et al. 2017

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This study describes an efficient and reusable process for ethanol production from medium containing whey powder, using alginate immobilized ethanologenic E. coli strains either expressing (TS3) or not expressing (FBR5) Vitreoscilla hemoglobin. Reuseabilities of the FBR5 and TS3 strains were investigated regarding their ethanol production capacities over the course of 15 successive 96-h batch fermentations. The ethanol production was fairly stable over the entire duration of the experiment, with strain TS3 maintaining a substantial advantage over strain FBR5. Storage of both strains in 2 different solutions for up to 60 d resulted in only a modest loss of ethanol production, with strain TS3 consistently outperforming strain FBR5 by a substantial amount. Strains stored for 15 or 30 d maintained their abilities to produce ethanol without dimunition over the course of 8 successive batch fermentations; again strain TS3 maintained a substantial advantage over strain FBR5 throughout the entire experiment. Thus, immobilization is a useful strategy to maintain the advantage in ethanol productivity afforded by expression of Vitreoscilla hemoglobin over long periods of time and large numbers of repeated batch fermentations, including, as in this case, using media with food processing wastes as the carbon source.

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Feedstock for Second-Generation Bioethanol Production

Paliga

Warken²,

Dalastra³

et al. 2022

Biofuel and Biorefinery Technologies

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Enhancement of ethanol production from potato-processing wastewater by engineering Escherichia coli using Vitreoscilla haemoglobin

Cited by 23 publications

References 36 publications

Effective ethanol production from whey powder through immobilizedE. coliexpressingVitreoscillahemoglobin

Effective ethanol production from whey powder through immobilizedE. coliexpressingVitreoscillahemoglobin

Repeated batch fermentation of immobilizedE. coliexpressingVitreoscillahemoglobin for long-term use

Feedstock for Second-Generation Bioethanol Production

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