M. Vilches-Ferrón scite author profile

The synthesis of GLA (delta6,9,12-1-8:3) is carried out in a number of plant taxa by introducing a double bond at the delta6 position of its precursor, linoleic acid (delta9,12-18:2), through a reaction catalyzed by a delta6-desaturase enzyme. We have cloned genes encoding the delta6-desaturase (D6DES) from two different Macaronesian Echium species, E. pitardii and E. gentianoides (Boraginaceae), which are characterized by the accumulation of high amounts of GLA in their seeds. The Echium D6DES genes encode proteins of 438 amino acids bearing the prototypical cytochrome b(5) domain at the N-terminus. Cladistic analysis of desaturases from higher plants groups the Echium D6DES proteins together with other delta6-desaturases in a different cluster from that of the highly related delta8-desaturases. Expression analysis carried out in E. pitardii shows a positive correlation between the D6DES transcript level and GLA accumulation in different tissues of the plant. Although a ubiquitous expression in all organs is observed, the transcript is particularly abundant in developing fruits, whereas a much lower level is present in mature leaves. Functional characterization of the D6DES gene from E. gentianoides has been achieved by heterologous expression in tobacco plants and in the yeast Saccharomyces cerevisiae. In both cases, overexpression of the gene led to the synthesis of GLA. Biotechnological application of these results can be envisaged as an initial step toward the generation of transgenic oleaginous plants producing GLA.

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Cloning and Molecular Characterization of the Acyl‐CoA:Diacylglycerol Acyltransferase 1 (DGAT1) Gene from Echium

Mañas-Fernández

Vilches-Ferrón

Garrido-Cárdenas

et al. 2009

Lipids

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Boraginaceae species, such as those from the genus Echium, contain high levels of the Delta(6)-desaturated gamma-linolenic (18:3n-6) and octadecatetraenoic (18:4n-3) acids. These are unusual fatty acids among the plant kingdom that are gaining interest due to their benefits to human health. The potential utility of acyltransferases aimed at an increase in oil yield and fatty acid profiling has been reported. In this work, a gene encoding an acyl-CoA:diacylglycerol acyltransferase (DGAT, EC 2.3.1.20) was cloned from Echium pitardii. Genomic and cDNA sequences obtained revealed a gene structure composed of 16 exons, yielding a protein (EpDGAT) of 473 amino acids with high similarity to DGAT1 enzymes of plants. Protein features such as a predicted structure with a highly hydrophilic N-terminus followed by 10 transmembrane domains, as well as the presence of diverse specific signatures, also indicate that EpDGAT belongs to the DGAT1 family. indeed. DGAT activity of the protein encoded by EpDGAT was confirmed by heterologous expression of the full-length cDNA in a yeast mutant (H1246) defective in the synthesis of triacylglycerols. Fatty acid composition of the triacylglycerols synthesized by EpDGAT in H1246 yeast cultures supplemented with polyunsaturated fatty acids suggest a substrate preference for the trienoic fatty acids alpha-linolenic acid (18:3n-3) and gamma-linolenic acid over the dienoic linoleic acid (18:2n-6). Site-directed mutagenesis has revealed the presence of a critical residue (P(178) in EpDGAT) within a reported thiolase signature for binding of acyl-enzyme intermediates that might be involved in the active site of the enzyme. Transcript analysis for EpDGAT shows an ubiquitous expression of the gene which is increased in leaves during senescence.

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Gamma-linolenic acid from fourteen boraginaceae species

Guil‐Guerrero

Garcı́a-Maroto

Vilches-Ferrón

et al. 2003

Industrial Crops and Products

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New Roles for MADS-box Genes in Higher Plants

Garcı́a-Maroto¹,

Carmona²,

Garrido³

et al. 2003

Biologia plant.

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Solution NMR in human embryo culture media as an option for assessment of embryo implantation potential

et al. 2021

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NMR offers the potential to holistically screen hundreds of metabolites and has already proved to be a powerful technique able to provide a global picture of metabolic changes in a wide range of biological systems underlying complex and multifactorial matrixes. This review covers the literature until May 2020 centered on the early prediction of the viability of in vitro developed embryos using several analytical techniques, including NMR. Nowadays, the predominant non‐invasive technique for selecting viable embryos is based on morphology, where variables associated with the rate of cleavage and blastocyst formation are evaluated by the embryologist following standardized criteria that are somewhat subjective. This morphological approach is therefore inadequate for the prediction of embryo quality, and several studies have focused on developing new non‐invasive methods using molecular approaches based particularly on metabolomics. This review outlines the potential of NMR as one of these non‐invasive in vitro methods based on the analysis of spent embryo culture media.

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