2021
DOI: 10.1186/s12934-021-01597-0
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Unlocking the potential of insect and ruminant host symbionts for recycling of lignocellulosic carbon with a biorefinery approach: a review

Abstract: Uprising fossil fuel depletion and deterioration of ecological reserves supply have led to the search for alternative renewable and sustainable energy sources and chemicals. Although first generation biorefinery is quite successful commercially in generating bulk of biofuels globally, the food versus fuel debate has necessitated the use of non-edible feedstocks, majorly waste biomass, for second generation production of biofuels and chemicals. A diverse class of microbes and enzymes are being exploited for bio… Show more

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Cited by 27 publications
(24 citation statements)
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References 182 publications
(190 reference statements)
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“…In nature, scarab larvae such as PBL are attracted to carbon dioxide (CO 2 ) [ 54 ], which drives saprophagous PBL to feed on decaying organic matter. This feeding is beneficial to many aspects of lignocellulose degradation in the PBL holobiont: (a) the PBL chews and crushes lignocellulosic biomass, which may reduce recalcitrance of the substrate and allow PBL to achieve greater lignocellulose degradation efficiency [ 55 ]; (b) the PBL ingests a large number of lignocellulose-decomposing bacteria from the decaying organic matters, most of which will be killed and hydrolyzed in the midgut, providing nutrients for PBL development [ 56 ], while some surviving from the midgut will contribute to the hindgut lignocellulosic bacteria flora [ 57 ]. Beyond feeding habits, a strong alkaline environment in the PBL midgut facilitates the solubility of organic polymers.…”
Section: Discussionmentioning
confidence: 99%
“…In nature, scarab larvae such as PBL are attracted to carbon dioxide (CO 2 ) [ 54 ], which drives saprophagous PBL to feed on decaying organic matter. This feeding is beneficial to many aspects of lignocellulose degradation in the PBL holobiont: (a) the PBL chews and crushes lignocellulosic biomass, which may reduce recalcitrance of the substrate and allow PBL to achieve greater lignocellulose degradation efficiency [ 55 ]; (b) the PBL ingests a large number of lignocellulose-decomposing bacteria from the decaying organic matters, most of which will be killed and hydrolyzed in the midgut, providing nutrients for PBL development [ 56 ], while some surviving from the midgut will contribute to the hindgut lignocellulosic bacteria flora [ 57 ]. Beyond feeding habits, a strong alkaline environment in the PBL midgut facilitates the solubility of organic polymers.…”
Section: Discussionmentioning
confidence: 99%
“…Consequently, alkaline pretreatment appears as a good approach for application in anaerobic systems, since in natural systems, lignin can be degraded efficiently only in the presence of oxygen. Unfortunately, it is still a great biotechnological challenge to perfectly mimic the physicochemical conditions of the larvae's gut in artificial systems and achieve the same lignocellulosic biomass conversion [85], which could lead to an increase in the either production of carboxylates or biogas.…”
Section: Physical-chemical Characterization Of the Inoculum And Enric...mentioning
confidence: 99%
“…Termites have a high capacity for biomass degradation and may thus contribute to global carbon recycling. This remarkable ability is largely attributed to the metabolic performance of their "gut digestome", which includes intestinal symbiotic microorganisms like bacterial, archaeal, yeast, or other eukaryotic symbionts, as well as the abundance of species, enzymes, and genes found in the termite's digestive tract [ 22 , 23 ]. However, their highly specialized gut systems remain poorly understood in terms of their unique symbiont functions and their potential applications in biotechnology and other relevant fields, particularly for the yeast symbionts.…”
Section: Introductionmentioning
confidence: 99%