Elucidating the influence of environmental factors on biogas-based polyhydroxybutyrate production by Methylocystis hirsuta CSC1

[Display omitted] •M. hirsuta CSC1 was a suitable cell factory for PHB from biogas under N limitation.•The maximum PHB content (45 wt%) was reached at an O2:CH4 ratio of 2:1.•PHB synthesis at 25 °C was higher than at 15 and 37 °C.•NO3– as N source supported a superior PHB accumulation compared to NH...

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Published inThe Science of the total environment Vol. 706; p. 135136
Main Authors Rodríguez, Yadira, Firmino, Paulo Igor Milen, Arnáiz, Esther, Lebrero, Raquel, Muñoz, Raúl
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.03.2020
Subjects
Biofuels
Biogas valorization
Bioreactors
Methane
Methane conversion
Methanotrophs
Methylocystaceae
Methylocystis hirsuta
Microbial cell factories
Polyhydroxybutyrate production
Polyhydroxybutyrate production
Microbial cell factories
Methanotrophs
Biogas valorization
Methylocystis hirsuta
Methane conversion
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Abstract [Display omitted] •M. hirsuta CSC1 was a suitable cell factory for PHB from biogas under N limitation.•The maximum PHB content (45 wt%) was reached at an O2:CH4 ratio of 2:1.•PHB synthesis at 25 °C was higher than at 15 and 37 °C.•NO3– as N source supported a superior PHB accumulation compared to NH4+. The valorization of biogas as a feedstock for the generation of added-value bioproducts will play a key role on the sustainability of anaerobic digestion. The present work assessed the influence of key environmental parameters (O2:CH4 ratio, temperature and nitrogen source) on the growth and polyhydroxybutyrate (PHB) synthesis under nitrogen limiting conditions of the type II methanotroph Methylocystis hirsuta CSC1 using biogas as a feedstock. The O2:CH4 ratios tested (1:1, 1.5:1 and 2:1) did not affect significantly M. hirsuta CSC1 growth yields (~5 g TSS mol−1 CH4), although lower CH4 removal rates were reached under O2-limiting conditions (ratio 1:1). The highest PHB content (45 wt%) was achieved at a ratio 2:1 and was threefold higher than those obtained at lower ratios (~15 wt%). The increase in temperature from 15 to 25 °C resulted in increases in the growth yield (from 5 to 6 g TSS mol−1 CH4) and PHB content (from 32 to 40 wt%). Conversely, the lowest PHB content (30 wt%) was reached at 37 °C, together with a negligible growth under nutrient sufficient conditions. The nitrogen source also played a key role on both M. hirsuta CSC1 growth and PHB synthesis. Thus, ammonium resulted in the highest growth yield (7 g TSS mol−1 CH4), although the maximum PHB content was achieved when biomass was previously grown in nitrate as the nitrogen source (41 wt%). Nitrite exerted an inhibitory effect on M. hirsuta CSC1 growth.
AbstractList [Display omitted] •M. hirsuta CSC1 was a suitable cell factory for PHB from biogas under N limitation.•The maximum PHB content (45 wt%) was reached at an O2:CH4 ratio of 2:1.•PHB synthesis at 25 °C was higher than at 15 and 37 °C.•NO3– as N source supported a superior PHB accumulation compared to NH4+. The valorization of biogas as a feedstock for the generation of added-value bioproducts will play a key role on the sustainability of anaerobic digestion. The present work assessed the influence of key environmental parameters (O2:CH4 ratio, temperature and nitrogen source) on the growth and polyhydroxybutyrate (PHB) synthesis under nitrogen limiting conditions of the type II methanotroph Methylocystis hirsuta CSC1 using biogas as a feedstock. The O2:CH4 ratios tested (1:1, 1.5:1 and 2:1) did not affect significantly M. hirsuta CSC1 growth yields (~5 g TSS mol−1 CH4), although lower CH4 removal rates were reached under O2-limiting conditions (ratio 1:1). The highest PHB content (45 wt%) was achieved at a ratio 2:1 and was threefold higher than those obtained at lower ratios (~15 wt%). The increase in temperature from 15 to 25 °C resulted in increases in the growth yield (from 5 to 6 g TSS mol−1 CH4) and PHB content (from 32 to 40 wt%). Conversely, the lowest PHB content (30 wt%) was reached at 37 °C, together with a negligible growth under nutrient sufficient conditions. The nitrogen source also played a key role on both M. hirsuta CSC1 growth and PHB synthesis. Thus, ammonium resulted in the highest growth yield (7 g TSS mol−1 CH4), although the maximum PHB content was achieved when biomass was previously grown in nitrate as the nitrogen source (41 wt%). Nitrite exerted an inhibitory effect on M. hirsuta CSC1 growth.
The valorization of biogas as a feedstock for the generation of added-value bioproducts will play a key role on the sustainability of anaerobic digestion. The present work assessed the influence of key environmental parameters (O :CH ratio, temperature and nitrogen source) on the growth and polyhydroxybutyrate (PHB) synthesis under nitrogen limiting conditions of the type II methanotroph Methylocystis hirsuta CSC1 using biogas as a feedstock. The O :CH ratios tested (1:1, 1.5:1 and 2:1) did not affect significantly M. hirsuta CSC1 growth yields (~5 g TSS mol CH ), although lower CH removal rates were reached under O -limiting conditions (ratio 1:1). The highest PHB content (45 wt%) was achieved at a ratio 2:1 and was threefold higher than those obtained at lower ratios (~15 wt%). The increase in temperature from 15 to 25 °C resulted in increases in the growth yield (from 5 to 6 g TSS mol CH ) and PHB content (from 32 to 40 wt%). Conversely, the lowest PHB content (30 wt%) was reached at 37 °C, together with a negligible growth under nutrient sufficient conditions. The nitrogen source also played a key role on both M. hirsuta CSC1 growth and PHB synthesis. Thus, ammonium resulted in the highest growth yield (7 g TSS mol CH ), although the maximum PHB content was achieved when biomass was previously grown in nitrate as the nitrogen source (41 wt%). Nitrite exerted an inhibitory effect on M. hirsuta CSC1 growth.
ArticleNumber 135136
Author Lebrero, Raquel
Rodríguez, Yadira
Firmino, Paulo Igor Milen
Muñoz, Raúl
Arnáiz, Esther
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Keywords Polyhydroxybutyrate production
Microbial cell factories
Methanotrophs
Biogas valorization
Methylocystis hirsuta
Methane conversion
Language English
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Snippet [Display omitted] •M. hirsuta CSC1 was a suitable cell factory for PHB from biogas under N limitation.•The maximum PHB content (45 wt%) was reached at an...
The valorization of biogas as a feedstock for the generation of added-value bioproducts will play a key role on the sustainability of anaerobic digestion. The...
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StartPage 135136
SubjectTerms Biofuels
Biogas valorization
Bioreactors
Methane
Methane conversion
Methanotrophs
Methylocystaceae
Methylocystis hirsuta
Microbial cell factories
Polyhydroxybutyrate production
Title Elucidating the influence of environmental factors on biogas-based polyhydroxybutyrate production by Methylocystis hirsuta CSC1
URI https://dx.doi.org/10.1016/j.scitotenv.2019.135136
https://www.ncbi.nlm.nih.gov/pubmed/31862586
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