Luiziana F Silva
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Explore the profile of Luiziana F Silva including associated specialties, affiliations and a list of published articles.
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Articles
10
Citations
32
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0
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Recent Articles
1.
Dias F, Pantoja R, Gomez J, Silva L
Int Microbiol
. 2023 Mar;
26(2):435-437.
PMID: 36862267
No abstract available.
2.
Dias F, Pantoja R, Gomez J, Silva L
Int Microbiol
. 2022 Nov;
26(2):243-255.
PMID: 36357545
Gallic acid is a powerful antioxidant with multiple therapeutic applications, usually obtained from the acidic hydrolysis of tannins produced by many plants. As this process generates a considerable amount of...
3.
Oliveira-Filho E, de Macedo M, Lemos A, Adams F, Merkel O, Taciro M, et al.
Int J Biol Macromol
. 2022 Jun;
213:902-914.
PMID: 35690163
Burkholderia sacchari LFM101 LMG19450 is a Brazilian bacterium isolated from sugarcane crops soil and a promising biotechnological platform for bioprocesses. It is an efficient producer of poly(3-hydroxybutyrate) from carbohydrates including...
4.
Parada-Pinilla M, Ferreira M, Roncallo J, Santos S, Melo I, Assef A, et al.
Braz J Microbiol
. 2021 Jan;
52(2):547-559.
PMID: 33491139
Saline environments are extreme habitats with a high diversity of microorganisms source of a myriad of biomolecules. These microorganisms are assigned as extremophiles recognized to be producers of new natural...
5.
Cardinali-Rezende J, Di Genova A, Nahat R, Steinbuchel A, Sagot M, Costa R, et al.
Int J Biol Macromol
. 2020 Jul;
163:240-250.
PMID: 32622773
Reconstruction of genome-based metabolic model is a useful approach for the assessment of metabolic pathways, genes and proteins involved in the environmental fitness capabilities or pathogenic potential as well as...
6.
Oliveira-Filho E, Silva J, de Macedo M, Taciro M, Gomez J, Silva L
Front Bioeng Biotechnol
. 2020 Jan;
7:416.
PMID: 31970153
LMG19450, a non-model organism and a promising microbial platform, was studied to determine nutrient limitation impact on poly(3-hydroxybutyrate) [P(3HB)] production and bacterial growth from xylose, a major hemicellulosic residue. Nitrogen...
7.
Oliveira-Filho E, Guaman L, Mendonca T, Long P, Taciro M, Gomez J, et al.
J Mol Microbiol Biotechnol
. 2019 Feb;
28(5):225-235.
PMID: 30783060
Three different polyhydroxyalkanoate (PHA) synthase genes (Ralstonia eutropha H16, Aeromonas sp. TSM81 or Aeromonas hydrophila ATCC7966 phaC) were introduced into the chromosome of two Pseudomonas strains: a native medium-chain-length 3-polyhydroxyalkanoate...
8.
Guaman L, Barba-Ostria C, Zhang F, Oliveira-Filho E, Gomez J, Silva L
Microb Cell Fact
. 2018 May;
17(1):74.
PMID: 29764418
Background: Despite its ability to grow and produce high-value molecules using renewable carbon sources, two main factors must be improved to use Burkholderia sacchari as a chassis for bioproduction at...
9.
Cespedes L, Nahat R, Mendonca T, Tavares R, Oliveira-Filho E, Silva L, et al.
Int J Biol Macromol
. 2018 Mar;
114:512-519.
PMID: 29548920
Pseudomonas sp. PHA was used as host for PHA biosynthesis genes from Aeromonas sp. to produce 3HB-co-3HA from glucose with no supply of co-substrates. A non-naturally-occurring PHA composed mainly of...
10.
Mendonca T, Tavares R, Cespedes L, Sanchez-Rodriguez R, Schripsema J, Taciro M, et al.
Int J Biol Macromol
. 2017 Feb;
98:654-663.
PMID: 28167112
Biopolymers as polyhydroxyalkanoates (PHA) composed by different co-monomers 3-hydroxybutyrate and 3-hydroxyhexanoate [P(3HB-co-3HHx)] has attracted interest since its properties are similar to low density polyethylene. Burkholderia sacchari produces this copolymer with...