Biomanufacturing of value-added chemicals from lignin

Arren Liu; Dylan Ellis; Apurv Mhatre; Sumant Brahmankar; Jong Seto; David R. Nielsen; Arul M. Varman

doi:10.1016/j.copbio.2024.103178

Biomanufacturing of value-added chemicals from lignin

Arren Liu
, Dylan Ellis
, Apurv Mhatre
, Sumant Brahmankar
, Jong Seto
, David R. Nielsen
, Arul M. Varman

Synthetic Biology

Research output: Contribution to journal › Review article › peer-review

7 Scopus citations

Abstract

Lignin valorization faces persistent biomanufacturing challenges due to the heterogeneous and toxic carbon substrates derived from lignin depolymerization. To address the heterogeneous nature of aromatic feedstocks, plant cell wall engineering and ‘lignin first’ pretreatment methods have recently emerged. Next, to convert the resulting aromatic substrates into value-added chemicals, diverse microbial host systems also continue to be developed. This includes microbes that (1) lack aromatic metabolism, (2) metabolize aromatics but not sugars, and (3) co-metabolize both aromatics and sugars, each system presenting unique pros and cons. Considering the intrinsic complexity of lignin-derived substrate mixtures, emerging and non-model microbes with native metabolism for aromatics appear poised to provide the greatest impacts on lignin valorization via biomanufacturing.

Original language	English
Article number	103178
Journal	Current Opinion in Biotechnology
Volume	89
DOIs	https://doi.org/10.1016/j.copbio.2024.103178
State	Published - Oct 2024

Funding

AMV acknowledges the funding support provided by the National Science Foundation through the award #CBET‐2146114. Arren Liu was supported in part by a Fellowship from the Biological Design Graduate Program at Arizona State University.

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10.1016/j.copbio.2024.103178

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title = "Biomanufacturing of value-added chemicals from lignin",

abstract = "Lignin valorization faces persistent biomanufacturing challenges due to the heterogeneous and toxic carbon substrates derived from lignin depolymerization. To address the heterogeneous nature of aromatic feedstocks, plant cell wall engineering and {\textquoteleft}lignin first{\textquoteright} pretreatment methods have recently emerged. Next, to convert the resulting aromatic substrates into value-added chemicals, diverse microbial host systems also continue to be developed. This includes microbes that (1) lack aromatic metabolism, (2) metabolize aromatics but not sugars, and (3) co-metabolize both aromatics and sugars, each system presenting unique pros and cons. Considering the intrinsic complexity of lignin-derived substrate mixtures, emerging and non-model microbes with native metabolism for aromatics appear poised to provide the greatest impacts on lignin valorization via biomanufacturing.",

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AU - Liu, Arren

AU - Ellis, Dylan

AU - Mhatre, Apurv

AU - Brahmankar, Sumant

AU - Seto, Jong

AU - Nielsen, David R.

AU - Varman, Arul M.

PY - 2024/10

Y1 - 2024/10

N2 - Lignin valorization faces persistent biomanufacturing challenges due to the heterogeneous and toxic carbon substrates derived from lignin depolymerization. To address the heterogeneous nature of aromatic feedstocks, plant cell wall engineering and ‘lignin first’ pretreatment methods have recently emerged. Next, to convert the resulting aromatic substrates into value-added chemicals, diverse microbial host systems also continue to be developed. This includes microbes that (1) lack aromatic metabolism, (2) metabolize aromatics but not sugars, and (3) co-metabolize both aromatics and sugars, each system presenting unique pros and cons. Considering the intrinsic complexity of lignin-derived substrate mixtures, emerging and non-model microbes with native metabolism for aromatics appear poised to provide the greatest impacts on lignin valorization via biomanufacturing.

AB - Lignin valorization faces persistent biomanufacturing challenges due to the heterogeneous and toxic carbon substrates derived from lignin depolymerization. To address the heterogeneous nature of aromatic feedstocks, plant cell wall engineering and ‘lignin first’ pretreatment methods have recently emerged. Next, to convert the resulting aromatic substrates into value-added chemicals, diverse microbial host systems also continue to be developed. This includes microbes that (1) lack aromatic metabolism, (2) metabolize aromatics but not sugars, and (3) co-metabolize both aromatics and sugars, each system presenting unique pros and cons. Considering the intrinsic complexity of lignin-derived substrate mixtures, emerging and non-model microbes with native metabolism for aromatics appear poised to provide the greatest impacts on lignin valorization via biomanufacturing.

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DO - 10.1016/j.copbio.2024.103178

M3 - Review article

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SN - 0958-1669

VL - 89

JO - Current Opinion in Biotechnology

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ER -

Biomanufacturing of value-added chemicals from lignin

Abstract

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