Juana Maria Navarro Llorens
Overview
Explore the profile of Juana Maria Navarro Llorens including associated specialties, affiliations and a list of published articles.
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14
Citations
294
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Recent Articles
1.
Guevara G, Espinoza Solorzano J, Vargas Ramirez M, Rusu A, Navarro Llorens J
Int J Mol Sci
. 2024 Dec;
25(23).
PMID: 39684729
Microalga-bacteria consortia are increasingly recognized for their effectiveness in wastewater treatment, leveraging the metabolic synergy between microalgae and bacteria to enhance nutrient removal and overall treatment efficiency. These systems offer...
2.
Sanchez Novoa J, Dominguez F, Pajot H, de Cabo L, Navarro Llorens J, Marconi P
AMB Express
. 2024 Nov;
14(1):125.
PMID: 39537951
Wastewater from many food and beverage manufacturers is enriched in organic content, and it must therefore be treated before being discharged to comply with the strict environmental regulations to protect...
3.
Castillo M, Guevara G, Baldanta S, Rodriguez P, Agudo L, Nogales J, et al.
Microbiol Res
. 2023 Dec;
279:127572.
PMID: 38101163
The filamentous cyanobacterium Limnospira platensis, formerly known as Arthrospira platensis or spirulina, is one of the most commercially important species of microalgae. Due to its high nutritional value, pharmacological and...
4.
Baldanta S, Arnal R, Blanco-Rivero A, Guevara G, Navarro Llorens J
Front Microbiol
. 2023 Mar;
14:982422.
PMID: 36876112
Introduction: Microorganisms colonize a wide range of natural and artificial environments. Even though most of them are unculturable in laboratory conditions, some ecosystems are ideal niches for bioprospecting extremophiles with...
5.
Lopez M, Galan B, Carmona M, Navarro Llorens J, Pereto J, Porcar M, et al.
Microorganisms
. 2021 Dec;
9(12).
PMID: 34946057
The highly xerotolerant bacterium classified as sp. Helios isolated from a solar panel in Spain showed a close relationship to 255-15 isolated from Siberian permafrost. Xerotolerance has not been previously...
6.
Baldanta S, Navarro Llorens J, Guevara G
Microorganisms
. 2021 Jun;
9(6).
PMID: 34072338
The biochemistry and genetics of the bacterial steroid catabolism have been extensively studied during the last years and their findings have been essential to the development of biotechnological applications. For...
7.
Guevara G, Olortegui Flores Y, Fernandez de Las Heras L, Perera J, Navarro Llorens J
PLoS One
. 2019 Jul;
14(7):e0220492.
PMID: 31348804
Rhodococcus ruber Chol-4 is a potent steroid degrader that has a great potential as a biotechnological tool. As proof of concept, this work presents testosterone production from 4-androstene-3,17-dione by tailoring...
8.
Guevara G, Fernandez de Las Heras L, Perera J, Navarro Llorens J
J Steroid Biochem Mol Biol
. 2017 Jun;
172:176-187.
PMID: 28642093
The 3-Ketosteroid-9α-Hydroxylase, also known as KshAB [androsta-1,4-diene-3,17-dione, NADH:oxygen oxidoreductase (9α-hydroxylating); EC 1.14.13.142)], is a key enzyme in the general scheme of the bacterial steroid catabolism in combination with a 3-ketosteroid-Δ-dehydrogenase...
9.
Guevara G, Fernandez de Las Heras L, Perera J, Navarro Llorens J
Microb Cell Fact
. 2017 Mar;
16(1):42.
PMID: 28288625
Background: The Rhodococcus ruber strain Chol-4 genome contains at least three putative 3-ketosteroid Δ-dehydrogenase ORFs (kstD1, kstD2 and kstD3) that code for flavoenzymes involved in the steroid ring degradation. The...
10.
Fernandez de Las Heras L, Perera J, Navarro Llorens J
J Steroid Biochem Mol Biol
. 2013 Oct;
139:33-44.
PMID: 24125733
The choG ORF of Rhodococcus ruber strain Chol-4 (referred from now as Chol-4) encodes a putative extracellular cholesterol oxidase. In the Chol-4 genome this ORF is located in a gene...