Kelsey J Ramirez
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Explore the profile of Kelsey J Ramirez including associated specialties, affiliations and a list of published articles.
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23
Citations
400
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Recent Articles
1.
Ling C, Clarke R, Rosetto G, Xu S, Cywar R, Kim D, et al.
ACS Sustain Chem Eng
. 2025 Mar;
13(9):3817-3829.
PMID: 40083642
Polyhydroxyalkanoates (PHAs) are versatile, biobased polyesters that are often targeted for use as degradable thermoplastic replacements for polyolefins. Given the substantial chemical diversity of PHA, their potential as cross-linked polymers...
2.
Monteiro L, Del Cerro C, Kijpornyongpan T, Yaguchi A, Bennett A, Donohoe B, et al.
Commun Biol
. 2025 Feb;
8(1):224.
PMID: 39939400
White-rot fungi are efficient organisms for the mineralization of lignin and polysaccharides into CO and HO. Despite their biotechnological potential, WRF metabolism remains underexplored. Building on recent findings regarding the...
3.
Kuatsjah E, Schwartz A, Zahn M, Tornesakis K, Kellermyer Z, Ingraham M, et al.
Cell Rep
. 2024 Nov;
43(12):115002.
PMID: 39589922
White-rot fungi (WRF) are the most efficient lignin-degrading organisms in nature. However, their capacity to use lignin-related aromatic compounds, such as 4-hydroxybenzoate, as carbon sources has only been described recently....
4.
Ruhl I, Nelson R, Katahira R, Kruger J, Chen X, Haugen S, et al.
Microb Biotechnol
. 2024 Sep;
17(9):e70006.
PMID: 39235453
Feedstock variability represents a challenge in lignocellulosic biorefineries, as it can influence both lignocellulose deconstruction and microbial conversion processes for biofuels and biochemicals production. The impact of feedstock variability on...
5.
Werner A, Clare R, Mand T, Pardo I, Ramirez K, Haugen S, et al.
Metab Eng
. 2024 Jul;
85:131-132.
PMID: 39029782
No abstract available.
6.
Bell E, Rosetto G, Ingraham M, Ramirez K, Lincoln C, Clarke R, et al.
Nat Commun
. 2024 Feb;
15(1):1217.
PMID: 38336849
Successes in biocatalytic polyester recycling have raised the possibility of deconstructing alternative polymers enzymatically, with polyamide (PA) being a logical target due to the array of amide-cleaving enzymes present in...
7.
Palumbo C, Gu N, Bleem A, Sullivan K, Katahira R, Stanley L, et al.
Nat Commun
. 2024 Jan;
15(1):862.
PMID: 38286984
Efforts to produce aromatic monomers through catalytic lignin depolymerization have historically focused on aryl-ether bond cleavage. A large fraction of aromatic monomers in lignin, however, are linked by various carbon-carbon...
8.
Gu N, Palumbo C, Bleem A, Sullivan K, Haugen S, Woodworth S, et al.
ACS Cent Sci
. 2024 Jan;
9(12):2277-2285.
PMID: 38161372
Selective lignin depolymerization is a key step in lignin valorization to value-added products, and there are multiple catalytic methods to cleave labile aryl-ether bonds in lignin. However, the overall aromatic...
9.
Werner A, Cordell W, Lahive C, Klein B, Singer C, Tan E, et al.
Sci Adv
. 2023 Sep;
9(36):eadj0053.
PMID: 37672573
Bioconversion of a heterogeneous mixture of lignin-related aromatic compounds (LRCs) to a single product via microbial biocatalysts is a promising approach to valorize lignin. Here, KT2440 was engineered to convert...
10.
Kuatsjah E, Zahn M, Chen X, Kato R, Hinchen D, Konev M, et al.
Proc Natl Acad Sci U S A
. 2023 Jan;
120(4):e2212246120.
PMID: 36652470
Lignin valorization is being intensely pursued via tandem catalytic depolymerization and biological funneling to produce single products. In many lignin depolymerization processes, aromatic dimers and oligomers linked by carbon-carbon bonds...