Your search keyword '"Gil, Ana M."' showing total 36 results

1. Tumor Lipid Signatures Are Descriptive of Acquisition of Therapy Resistance in an Endocrine-Related Breast Cancer Mouse Model

Author

Araújo, Rita, Fabris, Victoria, Lamb, Caroline A., Elía, Andrés, Lanari, Claudia, Helguero, Luisa A., and Gil, Ana M.

Abstract

The lipid metabolism adaptations of estrogen and progesterone receptor-positive breast cancer tumors from a mouse syngeneic model are investigated in relation to differences across the transition from hormone-dependent (HD) to hormone-independent (HI) tumor growth and the acquisition of endocrine therapy (ET) resistance (HIR tumors). Results are articulated with reported polar metabolome results to complete a metabolic picture of the above transitions and suggest markers of tumor progression and aggressiveness. Untargeted nuclear magnetic resonance metabolomics was used to analyze tumor and mammary tissue lipid extracts. Tumor progression (HD-HI-HIR) was accompanied by increased nonesterified cholesterol forms and phospholipids (phosphatidylcholine, phosphatidylethanolamine, sphingomyelins, and plasmalogens) and decreased relative contents of triglycerides and fatty acids. Predominating fatty acids became shorter and more saturated on average. These results were consistent with gradually more activated cholesterol synthesis, β-oxidation, and phospholipid biosynthesis to sustain tumor growth, as well as an increase in cholesterol (possibly oxysterol) forms. Particular compound levels and ratios were identified as potential endocrine tumor HD-HI-HIR progression markers, supporting new hypotheses to explain acquired ET resistance.

Published

2024

2. NMR Metabolomics Assessment of Osteogenic Differentiation of Adipose-Tissue-Derived Mesenchymal Stem Cells

Author

Bispo, Daniela S. C., Jesus, Catarina S. H., Correia, Marlene, Ferreira, Filipa, Bonifazio, Giulia, Goodfellow, Brian J., Oliveira, Mariana B., Mano, João F., and Gil, Ana M.

Abstract

This Article presents, for the first time to our knowledge, an untargeted nuclear magnetic resonance (NMR) metabolomic characterization of the polar intracellular metabolic adaptations of human adipose-derived mesenchymal stem cells during osteogenic differentiation. The use of mesenchymal stem cells (MSCs) for bone regeneration is a promising alternative to conventional bone grafts, and untargeted metabolomics may unveil novel metabolic information on the osteogenic differentiation of MSCs, allowing their behavior to be understood and monitored/guided toward effective therapies. Our results unveiled statistically relevant changes in the levels of just over 30 identified metabolites, illustrating a highly dynamic process with significant variations throughout the whole 21-day period of osteogenic differentiation, mainly involving amino acid metabolism and protein synthesis; energy metabolism and the roles of glycolysis, the tricarboxylic acid cycle, and oxidative phosphorylation; cell membrane metabolism; nucleotide metabolism (including the specific involvement of O-glycosylation intermediates and NAD+); and metabolic players in protective antioxidative mechanisms (such as glutathione and specific amino acids). Different metabolic stages are proposed and are supported by putative biochemical explanations for the metabolite changes observed. This work lays the groundwork for the use of untargeted NMR metabolomics to find potential metabolic markers of osteogenic differentiation efficacy.

Published

2022

3. Long-term Persistence of Allosensitization After Islet Allograft Failure

Author

Rios, Paola, Baidal, David, Lemos, Joana, Camhi, Stephanie S., Infante, Marco, Padilla, Nathalia, Alvarez Gil, Ana M., Fuenmayor, Virginia, Ambut, Jonathan, Qasmi, Fatima A., Mantero, Alejandro M., Cayetano, Shari Messinger, Ruiz, Phillip, Ricordi, Camillo, and Alejandro, Rodolfo

Abstract

Supplemental Digital Content is available in the text.

Published

2021

4. Heterochirality Restricts the Self-Assembly of Phenylalanine Dipeptides Capped with Highly Aromatic Groups

Author

Gil, Ana M., Casanovas, Jordi, Mayans, Enric, Jiménez, Ana I., Puiggalí, Jordi, and Alemán, Carlos

Abstract

The influence of stereochemistry on the self-assembly of phenylalanine (Phe) dipeptides bearing aromatic fluorenyl groups at both the N- and C-termini (Fmoc, OFm) has been investigated. For this purpose, Fmoc–d-Phe–l-Phe–OFm and Fmoc–l-Phe–l-Phe–OFm have been examined considering a wide variety of solvents, which differ in dielectric constant and volatility. Results reveal that replacement of l-Phe by d-Phe has a major impact on the self-assembly propensities, restricting drastically the structural diversity and polymorphism shown by the homochiral dipeptide. Thus, the analogous heterochiral dipeptide shows a great propensity to form micro/nanofibers, independently of the environmental conditions. Theoretical calculations revealed that the stability of antiparallel disposition is much higher (a factor of ca. 15) for Fmoc–d-Phe–l-Phe–OFm than that for Fmoc–l-Phe–l-Phe–OFm, which has been attributed to the hydrophobic core formed in the former. Overall, results suggest that control of the backbone chirality is a potent and versatile strategy to drive and finely tune the self-assembly propensities of highly aromatic peptides.

Published

2020

5. Evidence of the Reduced Abundance of Proline cis Conformation in Protein Poly Proline Tracts

Author

Urbanek, Annika, Popovic, Matija, Elena-Real, Carlos A., Morató, Anna, Estaña, Alejandro, Fournet, Aurélie, Allemand, Frédéric, Gil, Ana M., Cativiela, Carlos, Cortés, Juan, Jiménez, Ana I., Sibille, Nathalie, and Bernadó, Pau

Abstract

Proline is found in a cis conformation in proteins more often than other proteinogenic amino acids, where it influences structure and modulates function, being the focus of several high-resolution structural studies. However, until now, technical and methodological limitations have hampered the site-specific investigation of the conformational preferences of prolines present in poly proline (poly-P) homorepeats in their protein context. Here, we apply site-specific isotopic labeling to obtain high-resolution NMR data on the cis/trans equilibrium of prolines within the poly-P repeats of huntingtin exon 1, the causative agent of Huntington’s disease. Screening prolines in different positions in long (poly-P11) and short (poly-P3) poly-P tracts, we found that, while the first proline of poly-P tracts adopts similar levels of cis conformation as isolated prolines, a length-dependent reduced abundance of cis conformers is observed for terminal prolines. Interestingly, the cis isomer could not be detected in inner prolines, in line with percentages derived from a large database of proline-centered tripeptides extracted from crystallographic structures. These results suggest a strong cooperative effect within poly-Ps that enhances their stiffness by diminishing the stability of the cis conformation. This rigidity is key to rationalizing the protection toward aggregation that the poly-P tract confers to huntingtin. Furthermore, the study provides new avenues to probe the structural properties of poly-P tracts in protein design as scaffolds or nanoscale rulers.

Published

2020

6. Impact of Prenatal Disorders on the Metabolic Profile of Second Trimester Amniotic Fluid: A Nuclear Magnetic Resonance Metabonomic Study

Author

Graça, Gonçalo, Duarte, Iola F., Barros, António S., Goodfellow, Brian J., Diaz, Sílvia O., Pinto, Joana, Carreira, Isabel M., Galhano, Eulália, Pita, Cristina, and Gil, Ana M.

Abstract

This paper describes a metabonomic study of prenatal disorders using nuclear magnetic resonance (NMR) spectroscopy of amniotic fluid (AF) collected in the second trimester of pregnancy, to search for metabolite markers of fetal malformations, prediagnostic gestational diabetes (GD), preterm delivery (PTD), early rupture of membranes (PROM), and chromossomopathies. Fetal malformations were found to have the highest impact on AF metabolite composition, enabling statistical validation to be achieved by several multivariate analytical tools. Results confirmed previous indications that malformed fetuses seem to suffer altered energy metabolism and kidney underdevelopment. Newly found changes (namely in α-oxoisovalerate, ascorbate, creatinine, isoleucine, serine, threonine) suggest possible additional effects on protein and nucleotide sugar biosynthesis. Prediagnostic GD subjects showed an average increase in glucose and small decreases in several amino acids along with acetate, formate, creatinine, and glycerophosphocholine. Small metabolite changes were also observed in the AF of subjects eventually undergoing PTD and PROM, whereas no relevant changes were found for chromossomopathies (for which a low number of samples was considered). The potential value of these results for biochemical insight and prediction of prenatal disorders is discussed, as well as their limitations regarding number of samples and overlap of different disorders.

Published

2024

7. Nuclear Magnetic Resonance (NMR) Study of the Effect of Cisplatin on the Metabolic Profile of MG-63 Osteosarcoma Cells

Author

Duarte, Iola F., Lamego, Inês, Marques, Joana, Marques, M. Paula M., Blaise, Benjamin J., and Gil, Ana M.

Abstract

In the present study, 1H HRMAS NMR spectroscopy was used to assess the changes in the intracellular metabolic profile of MG-63 human osteosarcoma (OS) cells induced by the chemotherapy agent cisplatin (CDDP) at different times of exposure. Multivariate analysis was applied to the cells spectra, enabling consistent variation patterns to be detected and drug-specific metabolic effects to be identified. Statistical recoupling of variables (SRV) analysis and spectral integration enabled the most relevant spectral changes to be evaluated, revealing significant time-dependent alterations in lipids, choline-containing compounds, some amino acids, polyalcohols, and nitrogenated bases. The metabolic relevance of these compounds in the response of MG-63 cells to CDDP treatment is discussed.

Published

2024

8. Pd2Spermine as an Alternative Therapeutics for Cisplatin-Resistant Triple-Negative Breast Cancer

Author

Carneiro, Tatiana J., Batista de Carvalho, Ana L. M., Vojtek, Martin, Laginha, Raquel C., Marques, Maria Paula M., Diniz, Carmen, and Gil, Ana M.

Abstract

Cisplatin (cDDP) resistance is a matter of concern in triple-negative breast cancer therapeutics. We measured the metabolic response of cDDP-sensitive (S) and -resistant (R) MDA-MB-231 cells to Pd2Spermine(Spm) (a possible alternative to cDDP) compared to cDDP to investigate (i) intrinsic response/resistance mechanisms and (ii) the potential cytotoxic role of Pd2Spm. Cell extracts were analyzed by untargeted nuclear magnetic resonance metabolomics, and cell media were analyzed for particular metabolites. CDDP-exposed S cells experienced enhanced antioxidant protection and small deviations in the tricarboxylic acid cycle (TCA), pyrimidine metabolism, and lipid oxidation (proposed cytotoxicity signature). R cells responded more strongly to cDDP, suggesting a resistance signature of activated TCA cycle, altered AMP/ADP/ATP and adenine/uracil fingerprints, and phospholipid biosynthesis (without significant antioxidant protection). Pd2Spm impacted more markedly on R/S cell metabolisms, inducing similarities to cDDP/S cells (probably reflecting high cytotoxicity) and strong additional effects indicative of amino acid depletion, membrane degradation, energy/nucleotide adaptations, and a possible beneficial intracellular γ-aminobutyrate/glutathione-mediated antioxidant mechanism.

Published

2024

9. Assessing Exposome Effects on Pregnancy through Urine Metabolomics of a Portuguese (Estarreja) Cohort

Author

Gil, Ana M., Duarte, Daniela, Pinto, Joana, and Barros, António S.

Abstract

This nuclear magnetic resonance metabolomics study compared the influence of two different central Portugal exposomes, one of which comprised an important source of pollutants (the Estarreja Chemical Complex, ECC), on the urinary metabolic trajectory of a cohort of healthy pregnant women (total n= 107). An exposome-independent description of pregnancy metabolism was found to comprise a set of 18 metabolites reflecting expected changes in branched-chain amino acid catabolism and hormone and lipid metabolisms. In addition, a set of small changes in some metabolites was suggested to be exposome-dependent and characteristic of pregnant subjects from the Estarreja region. These results suggested that the Estarreja exposome may impact to a very low extent pregnancy metabolism, inducing slight changes in amino acid metabolism (alanine, glycine, and 3-hydroxyisobutyrate, possibly involved in valine metabolism), tricarboxylic acid (TCA) cycle (cis-aconitate), diet, or gut microflora (furoylglycine) as well as allantoin, 2-hydroxyisobutyrate, and an unassigned resonance at δ 8.45. Furthermore, the urine of Estarreja subjects was found to generally contain higher levels of 4-hydroxyphenylacetate and lower levels of citrate. However, out of the above metabolites, only glycine and citrate seemed to correlate with the proximity to the ECC, with slightly relative higher levels of these compounds found for subjects living closer to the ECC. This suggested possible small effects of local pollutants on energy metabolism, with the remaining exposome-dependent metabolite changes most probably originating from other aspects of the local exposome such as diet and lifestyle. Despite the limitation of this study regarding the unavailability of objective environmental parameters for the period under study, our results confirm the usefulness of metabolomics of human urine to gauge exposome effects on human health and, particularly, during pregnancy.

Published

2024

10. Urine Nuclear Magnetic Resonance (NMR) Metabolomics in Age-Related Macular Degeneration

Author

Laíns, Inês, Duarte, Daniela, Barros, António S., Martins, Ana Sofia, Carneiro, Tatiana J., Gil, João Q., Miller, John B., Marques, Marco, Mesquita, Tânia S., Barreto, Patrícia, Kim, Ivana K., da Luz Cachulo, Maria, Vavvas, Demetrios G., Carreira, Isabel M., Murta, Joaquim Neto, Silva, Rufino, Miller, Joan W., Husain, Deeba, and Gil, Ana M.

Abstract

Biofluid biomarkers of age-related macular degeneration (AMD) are still lacking, and their identification is challenging. Metabolomics is well-suited to address this need, and urine is a valuable accessible biofluid. This study aimed to characterize the urinary metabolomic signatures of patients with different stages of AMD and a control group (>50 years). It was a prospective, cross-sectional study, where subjects from two cohorts were included: 305 from Coimbra, Portugal (AMD patients n= 252; controls n= 53) and 194 from Boston, United States (AMD patients n= 147; controls n= 47). For all participants, we obtained color fundus photographs (for AMD staging) and fasting urine samples, which were analyzed using 1H nuclear magnetic resonance (NMR) spectroscopy. Our results revealed that in both cohorts, urinary metabolomic profiles differed mostly between controls and late AMD patients, but important differences were also found between controls and subjects with early AMD. Analysis of the metabolites responsible for these separations revealed that, even though distinct features were observed for each cohort, AMD was in general associated with depletion of excreted citrate and selected amino acids at some stage of the disease, suggesting enhanced energy requirements. In conclusion, NMR metabolomics enabled the identification of urinary signals of AMD and its severity stages, which might represent potential metabolomic biomarkers of the disease.

Published

2019

11. Amyloid-like Fibrils from a Diphenylalanine Capped with an Aromatic Fluorenyl

Author

Martí, Didac, Mayans, Enric, Gil, Ana M., Díaz, Angélica, Jiménez, Ana I., Yousef, Ibraheem, Keridou, Ina, Cativiela, Carlos, Puiggalí, Jordi, and Alemán, Carlos

Abstract

The self-assembly behavior of a diphenylalanine amphiphile blocked at the C-terminus with a 9-fluorenylmethyl ester and stabilized at the N-terminus with a trifluoroacetate (TFA) anion, TFA·FF-OFm, has been examined. At low peptide concentration (0.5 mg/mL), long amyloid-like fibrils, which come from the fusion of two or more helical ribbons and/or thinner fibrils, organized in bundles or as individual entities are detected. Microbeam synchrotron radiation infrared spectroscopy has shown that TFA·FF-OFm molecules in amyloid-like fibrils arrange, forming antiparallel β-sheets. Alteration of the experimental conditions to prioritize the thermodynamic contribution with respect to the kinetic one in the self-assembly process inhibits the organization of amyloid-like structures in favor of the formation of conventional fibrous structures. On the basis of experimental observations, a structural model where the individual antiparallel β-sheets are oriented in parallel has been proposed for TFA·FF-OFm amyloid-like fibrils.

Published

2018

12. Intestinal Microbial and Metabolic Profiling of Mice Fed with High-Glucose and High-Fructose Diets

Author

Silva, João C. P., Mota, Marta, Martins, Fátima O., Nogueira, Célia, Gonçalves, Teresa, Carneiro, Tatiana, Pinto, Joana, Duarte, Daniela, Barros, António S., Jones, John G., and Gil, Ana M.

Abstract

Increased sugar intake is implicated in Type-2 diabetes and fatty liver disease; however, the mechanisms through which glucose and fructose promote these conditions are unclear. We hypothesize that alterations in intestinal metabolite and microbiota profiles specific to each monosaccharide are involved. Two groups of six adult C57BL/6 mice were fed for 10-weeks with diets with glucose (G) or fructose (F) as sole carbohydrates, and a third group was fed with a normal chow carbohydrate mixture (N). Fecal metabolites were profiled by nuclear magnetic resonance (NMR) and microbial composition by real-time polymerase chain reaction (qPCR). Although N, G and F mice exhibited similar weight gains (with slight slower gains for F) and glucose tolerance, multivariate analysis of NMR data indicated that F mice were separated from N and G, with decreased butyrate and glutamate and increased fructose, succinate, taurine, tyrosine, and xylose. The different sugar diets also resulted in distinct intestinal microbiota profiles. That associated with fructose seemed to hold more potential to induce host metabolic disturbances compared to glucose, mainly by promoting bile acid deconjugation and taurine release and compromising intestinal barrier integrity. This may reflect the noted nonquantitative intestinal fructose absorption hence increasing its availability for microbial metabolism, a subject for further investigation.

Published

2018

13. NMR Metabolomics Reveals Metabolism-Mediated Protective Effects in Liver (HepG2) Cells Exposed to Subtoxic Levels of Silver Nanoparticles

Author

Carrola, Joana, Pinto, Ricardo J. B., Nasirpour, Maryam, Freire, Carmen S. R., Gil, Ana M., Santos, Conceição, Oliveira, Helena, and Duarte, Iola F.

Abstract

The expansion of biomedical and therapeutic applications of silver nanoparticles (AgNPs) raises the need to further understand their biological effects on human cells. In this work, NMR metabolomics has been applied to reveal the metabolic effects of AgNPs toward human hepatoma (HepG2) cells, which are relevant with respect to nanoparticle accumulation and detoxification. Cellular responses to widely disseminated citrate-coated AgNPs (Cit30) and to emergent biogenic AgNPs prepared using an aqueous plant extract as reducing and stabilizing agent (GS30) have been compared with a view to assess the influence of nanoparticle coating on the metabolic effects produced. Subtoxic concentrations (IC5and IC20) of both nanoparticle types caused profound changes in the cellular metabolome, suggesting adaptations in energy production processes (glucose metabolism and the phosphocreatine system), antioxidant defenses, protein degradation and lipid metabolism. These signatures were proposed to reflect mainly metabolism-mediated protective mechanisms and were found to be largely common to Cit30 and GS30 AgNPs, although differences in the magnitude of response, not captured by conventional cytotoxicity assessment, were detected. Overall, this study highlights the value of NMR metabolomics for revealing subtoxic biological effects and helping to understand cell–nanomaterial interactions.

Published

2018

14. Impact of the Pd2Spermine Chelate on Osteosarcoma Metabolism: An NMR Metabolomics Study

Author

Lamego, Inês, Marques, M. Paula M., Duarte, Iola F., Martins, Ana S., Oliveira, Helena, and Gil, Ana M.

Abstract

A metabolomics study of Pd2Spermine(Spm) on osteosarcoma MG-63 and osteoblastic HOb cells is presented to assess the impact of the potential palladium drug on cell metabolism compared with cisplatin (cDDP). Despite its higher cytotoxicity, Pd2Spm induced lower (and reversible) metabolic impact on MG-63 cells and the absence of apoptosis; conversely, it induced significant deviations in osteoblastic amino acid metabolism. However, when in combination with doxorubicin and methotrexate, Pd2Spm induced strong metabolic deviations on lipids, choline compounds, amino acids, nucleotides, and compounds related to antioxidative mechanisms (e.g., glutathione, inositol, hypoxanthine), similarly to the cDDP cocktail. Synergetic effects included triggering of lipid biosynthesis by Pd2Spm in the presence of doxorubicin (and reinforced by methotrexate) and changes in the glycosylation substrate uridine diphosphate acetylgalactosamine and methionine and serine metabolisms. This work provides promising results related to the impact of Pd2Spm on osteosarcoma cellular metabolism, particularly in drug combination protocols. Lipid metabolism, glycosylation, and amino acid metabolisms emerge as relevant features for targeted studies to further understand a potential anticancer mechanism of combined Pd2Spm.

Published

2017

15. Metabolic Evaluation of Lupin-Enriched Yogurt by Nuclear Magnetic Resonance Metabolomics

Author

Rodrigues, João A., Ferro, Evla, Araújo, Rita, Henriques, Ana V., Gomes, Ana M., Vasconcelos, Marta W., and Gil, Ana M.

Abstract

Untargeted nuclear magnetic resonance (NMR) metabolomics was used to evaluate compositional changes during yogurt fermentation upon lupin enrichment compared to traditional conditions. Lupin significantly changed the sample metabolic profile and its time course dynamics, seemingly delaying microbial action. The levels of organic and amino acids were significantly altered, along with those of some sugars, nucleotides, and choline compounds. Lupin seemed to favor acetate and formate synthesis, compared to that of citrate and fumarate; a higher formate levels may suggest increased levels of Streptococcus thermophilusaction, compared toLactobacillus bulgaricus. Lupin-yogurt was poorer in hippurate, lactose (and hence lactate), galactose, glucose-1-phosphate, and galactose-1-phosphate, containing higher orotate levels (possibly related to increased uridine derivatives), among other differences. Trigonelline was confirmed as a lupin marker, possibly together with glutamate and histidine. Other metabolite trajectories remained unchanged upon lupin addition, unveiling unaffected underlying processes. These results demonstrate the usefulness of untargeted NMR metabolomics to understand/develop new foodstuffs and their production processes, highlighting the identity of a variety of bioactive metabolites with importance for human health.

Published

2023

16. Nutritional, rheological, sensory characteristics and environmental impact of a yogurt-like dairy drink for children enriched with lupin flour

Author

Vieira, Evla D.F., Styles, David, Sousa, Sérgio, Santos, Carla, Gil, Ana M., Gomes, Ana M., and Vasconcelos, Marta W.

Abstract

Studies have demonstrated that the addition of pulses to foods can make them more nutritious. We hypothesize that lupin flour adds nutritional benefits to yogurts. This study aimed to characterize a lupin-enriched yogurt in nutritional, rheological, and sensorial terms by a trained panel and assess its environmental impact using the life cycle assessment (LCA) approach. For comparison, natural yogurt and a commercial formula were used as controls. The developed yogurt is “high in protein” (7g/100g), “source of fiber” (1.9g/100g), and “source of omega 3” (53 mg/100g). The lupin yogurt was the stiffest with the highest viscosity than controls according to rheological parameters. There were no significant sensory differences between the lupin-enriched yogurt and the controls, although some undesirable sensory characteristics, such as bitterness, granularity, and after-taste, were observed. The environmental impact per 100 g serving was similar to natural yogurt and slightly worse regarding commercial yogurt but better when expressed per Nutritional Density Unit (NDU). Using lupin flour to enrich yogurts for children can be an alternative to producing more nutritious products.

Published

2022

17. Newborn Urinary Metabolic Signatures of Prematurity and Other Disorders: A Case Control Study

Author

Diaz, Sílvia O., Pinto, Joana, Barros, António S., Morais, Elisabete, Duarte, Daniela, Negrão, Fátima, Pita, Cristina, Almeida, Maria do Céu, Carreira, Isabel M., Spraul, Manfred, and Gil, Ana M.

Abstract

This work assesses the urinary metabolite signature of prematurity in newborns by nuclear magnetic resonance (NMR) spectroscopy, while establishing the role of possible confounders and signature specificity, through comparison to other disorders. Gender and delivery mode are shown to impact importantly on newborn urine composition, their analysis pointing out at specific metabolite variations requiring consideration in unmatched subject groups. Premature newborns are, however, characterized by a stronger signature of varying metabolites, suggestive of disturbances in nucleotide metabolism, lung surfactants biosynthesis and renal function, along with enhancement of tricarboxylic acid (TCA) cycle activity, fatty acids oxidation, and oxidative stress. Comparison with other abnormal conditions (respiratory depression episode, large for gestational age, malformations, jaundice and premature rupture of membranes) reveals that such signature seems to be largely specific of preterm newborns, showing that NMR metabolomics can retrieve particular disorder effects, as well as general stress effects. These results provide valuable novel information on the metabolic impact of prematurity, contributing to the better understanding of its effects on the newborn’s state of health.

Published

2016

18. Prediction of Gestational Diabetes through NMR Metabolomics of Maternal Blood

Author

Pinto, Joana, Almeida, Lara M., Martins, Ana S., Duarte, Daniela, Barros, António S., Galhano, Eulália, Pita, Cristina, Almeida, Maria do Céu, Carreira, Isabel M., and Gil, Ana M.

Abstract

Metabolic biomarkers of pre- and postdiagnosis gestational diabetes mellitus (GDM) were sought, using nuclear magnetic resonance (NMR) metabolomics of maternal plasma and corresponding lipid extracts. Metabolite differences between controls and disease were identified through multivariate analysis of variable selected 1H NMR spectra. For postdiagnosis GDM, partial least squares regression identified metabolites with higher dependence on normal gestational age evolution. Variable selection of NMR spectra produced good classification models for both pre- and postdiagnostic GDM. Prediagnosis GDM was accompanied by cholesterol increase and minor increases in lipoproteins (plasma), fatty acids, and triglycerides (extracts). Small metabolite changes comprised variations in glucose (up regulated), amino acids, betaine, urea, creatine, and metabolites related to gut microflora. Most changes were enhanced upon GDM diagnosis, in addition to newly observed changes in low-Mwcompounds. GDM prediction seems possible exploiting multivariate profile changes rather than a set of univariate changes. Postdiagnosis GDM is successfully classified using a 26-resonance plasma biomarker. Plasma and extracts display comparable classification performance, the former enabling direct and more rapid analysis. Results and putative biochemical hypotheses require further confirmation in larger cohorts of distinct ethnicities.

Published

2015

19. Following Healthy Pregnancy by NMR Metabolomics of Plasma and Correlation to Urine

Author

Pinto, Joana, Barros, António S., Domingues, Maria Rosário M., Goodfellow, Brian J., Galhano, Eulália, Pita, Cristina, Almeida, Maria do Céu, Carreira, Isabel M., and Gil, Ana M.

Abstract

This work presents the first NMR metabolomics study of maternal plasma during pregnancy, including correlation between plasma and urine metabolites. The expected decrease in circulating amino acids early in pregnancy was confirmed with six amino acids being identified as required by the fetus in larger extents. Newly observed changes in citrate, lactate, and dimethyl sulfone suggested early adjustments in energy and gut microflora metabolisms. Alterations in creatine levels were also noted, in addition to creatinine variations reflecting alterations in glomerular filtration rate. Regarding plasma macromolecules, HDL and LDL+VLDL levels were confirmed to increase throughout pregnancy, although at different rates and accompanied by increases in fatty acid chain length and degree of unsaturation. Correlation studies suggested (a) an inverse relationship between lipoproteins (HDL and LDL+VLDL) and albumin, with a possible direct correlation to excreted (unassigned) pregnancy markers resonating at δ 0.55 and δ 0.63, (b) a direct link between LDL+VLDL and N-acetyl-glycoproteins, together with excreted marker at δ 0.55, and (c) correlation of plasma albumin with particular circulating and excreted metabolites. These results have unveiled specific lipoprotein/protein metabolic aspects of pregnancy with impact on the excreted metabolome and, therefore, provide an interesting lead for the further understanding of pregnancy metabolism.

Published

2015

20. Electroactive polymer–peptide conjugates for adhesive biointerfacesElectronic supplementary information (ESI) available: Synthetic intermediates, characterization methods, XPS spectra, SEM and AFM micrographs, cyclic voltammograms and plots of the electron density difference. See DOI: 10.1039/c5bm00160a

Author

Maione, Silvana, Gil, Ana M., Fabregat, Georgina, del Valle, Luis J., Triguero, Jordi, Laurent, Adele, Jacquemin, Denis, Estrany, Francesc, Jiménez, Ana I., Zanuy, David, Cativiela, Carlos, and Alemán, Carlos

Abstract

Electroactive polymer–peptide conjugates have been synthesized by combining poly(3,4-ethylenedioxythiophene), a polythiophene derivative with outstanding properties, and an Arg-Gly-Asp (RGD)-based peptide in which Gly has been replaced by an exotic amino acid bearing a 3,4-ethylenedioxythiophene ring in the side chain. The incorporation of the peptide at the ends of preformed PEDOT chains has been corroborated by both FTIR and X-ray photoelectron spectroscopy. Although the morphology and topology are not influenced by the incorporation of the peptide at the ends of PEDOT chains, this process largely affects other surface properties. Thus, the wettability of the conjugates is considerably higher than that of PEDOT, independently of the synthetic strategy, whereas the surface roughness only increases when the conjugate is obtained using a competing strategy (i.e.growth of the polymer chains against termination by end capping). The electrochemical activity of the conjugates has been found to be higher than that of PEDOT, evidencing the success of the polymer–peptide links designed by chemical similarity. Density functional theory calculations have been used not only to ascertain the conformational preferences of the peptide but also to interpret the electronic transitions detected by UV-vis spectroscopy. Electroactive surfaces prepared using the conjugates displayed the higher bioactivities in terms of cell adhesion, with the relative viabilities being dependent on the roughness, wettability and electrochemical activity of the conjugate. In addition to the influence of the peptide fragment in the initial cell attachment and subsequent cell spreading and survival, the results indicate that PEDOT promotes the exchange of ions at the conjugate–cell interface.

Published

2015

21. Metabolic Markers of MG-63 Osteosarcoma Cell Line Response to Doxorubicin and Methotrexate Treatment: Comparison to Cisplatin

Author

Lamego, Inês, Duarte, Iola F., Marques, M. Paula M., and Gil, Ana M.

Abstract

A high resolution magic angle spinning NMR metabolomics study of the effects of doxorubicin (DOX), methotrexate (MTX) and cisplatin (cDDP) on MG-63 cells is presented and unveils the cellular metabolic adaptations to these drugs, often used together in clinical protocols. Although cDDP-treated cells were confirmed to undergo extensive membrane degradation accompanied by increased neutral lipids, DOX- and MTX-treated cells showed no lipids increase and different phospholipid signatures, which suggests that (i) DOX induces significant membrane degradation, decreased membrane synthesis, and apparent inhibition of de novolipid synthesis, and (ii) MTX induces decreased membrane synthesis, while no membrane disruption or de novolipid synthesis seem to occur. Nucleotide signatures were in apparent agreement with the different drug action mechanisms, a link having been found between UDP-GlcNAc and the active pathways of membrane degradation and energy metabolism, for cDDP and DOX, with a relation to oxidative state and DNA degradation, for cDDP. Correlation studies unveiled drug-specific antioxidative signatures, which pinpointed m-and s-inositols, taurine, glutamate/glutamine, and possibly creatine as important in glutathione metabolism. These results illustrate the ability of NMR metabolomics to measure cellular responses to different drugs, a first step toward understanding drug synergism and the definition of new biomarkers of drug efficacy.

Published

2014

22. Nuclear Magnetic Resonance Metabolomics of Iron Deficiency in Soybean Leaves

Author

Lima, Marta R. M., Diaz, Sílvia O., Lamego, Inês, Grusak, Michael A., Vasconcelos, Marta W., and Gil, Ana M.

Abstract

Iron (Fe) deficiency is an important agricultural concern that leads to lower yields and crop quality. A better understanding of the condition at the metabolome level could contribute to the design of strategies to ameliorate Fe-deficiency problems. Fe-sufficient and Fe-deficient soybean leaf extracts and whole leaves were analyzed by liquid 1H nuclear magnetic resonance (NMR) and high-resolution magic-angle spinning NMR spectroscopy, respectively. Overall, 30 compounds were measurable and identifiable (comprising amino and organic acids, fatty acids, carbohydrates, alcohols, polyphenols, and others), along with 22 additional spin systems (still unassigned). Thus, metabolite differences between treatment conditions could be evaluated for different compound families simultaneously. Statistically relevant metabolite changes upon Fe deficiency included higher levels of alanine, asparagine/aspartate, threonine, valine, GABA, acetate, choline, ethanolamine, hypoxanthine, trigonelline, and polyphenols and lower levels of citrate, malate, ethanol, methanol, chlorogenate, and 3-methyl-2-oxovalerate. The data indicate that the main metabolic impacts of Fe deficiency in soybean include enhanced tricarboxylic acid cycle activity, enhanced activation of oxidative stress protection mechanisms and enhanced amino acid accumulation. Metabolites showing accumulation differences in Fe-starved but visually asymptomatic leaves could serve as biomarkers for early detection of Fe-deficiency stress.

Published

2014

23. Second Trimester Maternal Urine for the Diagnosis of Trisomy 21 and Prediction of Poor Pregnancy Outcomes

Author

Diaz, Sílvia O., Barros, António S., Goodfellow, Brian J., Duarte, Iola F., Galhano, Eulália, Pita, Cristina, Almeida, Maria do Céu, Carreira, Isabel M., and Gil, Ana M.

Abstract

Given the recognized lack of prenatal clinical methods for the early diagnosis of preterm delivery, intrauterine growth restriction, preeclampsia and gestational diabetes mellitus, and the continuing need for optimized diagnosis methods for specific chromosomal disorders (e.g., trisomy 21) and fetal malformations, this work sought specific metabolic signatures of these conditions in second trimester maternal urine, using 1H Nuclear Magnetic Resonance (1H NMR) metabolomics. Several variable importance to the projection (VIP)- and b-coefficient-based variable selection methods were tested, both individually and through their intersection, and the resulting data sets were analyzed by partial least-squares discriminant analysis (PLS-DA) and submitted to Monte Carlo cross validation (MCCV) and permutation tests to evaluate model predictive power. The NMR data subsets produced significantly improved PLS-DA models for all conditions except for pre-premature rupture of membranes. Specific urinary metabolic signatures were unveiled for central nervous system malformations, trisomy 21, preterm delivery, gestational diabetes, intrauterine growth restriction and preeclampsia, and biochemical interpretations were proposed. This work demonstrated, for the first time, the value of maternal urine profiling as a complementary means of prenatal diagnostics and early prediction of several poor pregnancy outcomes.

Published

2013

24. Metabolic signatures of cancer unveiled by NMR spectroscopy of human biofluids

Author

Duarte, Iola F. and Gil, Ana M.

Published

2012

25. NMR metabonomics for mammalian cell metabolism studies

Author

Duarte, Iola F, Lamego, Inês, Rocha, Cláudia, and Gil, Ana M

Abstract

The detailed knowledge of mammalian cell metabolism and its adjustments to different cell properties and perturbations, such as disease and drug exposure, is of enormous value in the deeper understanding of pathological processes and drug mechanisms, as well as in the development of new and improved methods for diagnosis, follow-up of disease progression and treatment response. This review covers recent developments in the use of NMR-based metabonomics to characterize cellular metabolomes and interpret them in terms of metabolic changes taking place in a wide range of situations. The analytical methodology available is briefly presented and the applications developed so far are reviewed. These include differences in cell properties (e.g., drug resistance, cell cycle stage, specific growth conditions and genetic characteristics) and changes induced in response to different perturbations (e.g., disease, drug exposure and irradiation).

Published

2009

26. A theoretical study of the influence of nitrogen angular constraints on the properties of amides: rotationinversion barriers and hydrogen bond accepting abilities of N-formylaziridine and -azirine

Author

Alkorta, Ibon, Cativiela, Carlos, Elguero, José, Gil, Ana M., and Jiménez, Ana I.

Abstract

Theoretical calculations at the MP26-311G level have been carried out on three compounds: N,N-dimethylformamide 1, N-formylaziridine 2 and N-formylazirine 3. The barriers to rotation and inversion have been calculated, together with the properties of the nitrogen and oxygen atoms of these amides as hydrogen bond acceptors. The results provide a quantitative picture of the influence of ring strain on the properties of amides, with special emphasis on the effects associated with nitrogen pyramidalization.

Published

2005

27. Radical Ion Salts Obtained from Substituted Ferrocene Cations and the Organic Acceptor TCNQ − Synthesis, Structure and Physical Properties

Author

Ballester, Loreto, Gil, Ana M., Gutiérrez, Angel, Perpiñán, M. Felisa, Sánchez, Ana E., Fonari, Marina, Suwinska, Kinga, and Belsky, Vitalii

Abstract

The compounds [Fe(C5H5)(C5H4CH2NMe3)][TCNQ] (1), [Fe(C5H5)(C5H4CH2NMe3)][TCNQ]2^.MeCN (2) and [Fe(C5H5)(C5H4CH=CH-p-C5H4NMe)][TCNQ] (3) have been obtained from reaction of the corresponding ferrocene iodide and TCNQ or LiTCNQ. Their crystal structures have been determined, showing that 1 and 3 have only mononegative TCNQ radicals forming one-dimensional stacks. In compound 3 the pyridine substituent also overlaps with the stacked TCNQ. The formation reaction of 2 implies the reduction of neutral TCNQ by the iodide anion; in this reaction the reduction is partial and the formal charge of every TCNQ is approximately 0.5 e⁻ with some degree of electron delocalization. The TCNQs also overlap to form a one-dimensional stack in the solid. The three compounds are diamagnetic, indicating a strong antiferromagnetic coupling between the TCNQ spins. (© Wiley-VCH Verlag GmbH & Co. KGaA, 69451 Weinheim, Germany, 2003)

Published

2003

28. Study of wheat high molecular weight 1D<TOGGLE>x</TOGGLE>5 subunit by <SUP>13</SUP>C and <SUP>1</SUP>H solid-state NMR. II. Roles of nonrepetitive terminal domains and length of repetitive domain

Author

Alberti, Enrica, Gilbert, Simon M., Tatham, Arthur S., Shewry, Peter R., Naito, Akira, Okuda, Kanna, Saitô, Hazime, and Gil, Ana M.

Abstract

This work follows a previous article that addressed the role of disulfide bonds in the behavior of the 1Dx5 subunit upon hydration. Here the roles of nonrepetitive terminal domains present and the length of the central repetitive domain in the hydration of 1Dx5 are investigated. This was achieved by comparing the hydration behavior of suitable model samples determined by ¹³C- and ¹H-NMR: an alkylated 1Dx5 subunit (alk1Dx5), a recombinant 58-kDa peptide corresponding to the central repetitive domain of 1Dx5 (i.e., lacking the terminal domains), and two synthetic peptides (with 6 and 21 amino acid residues) based on the consensus repeat motifs of the central domain. The ¹³C cross-polarization and magic angle spinning (MAS) experiments recorded as a function of hydration gave information about the protein or peptide fractions resisting plasticization. Conversely, ¹³C single pulse excitation and ¹H-MAS gave information on the more plasticized segments. The results are consistent with the previous proposal of a hydrated network held by hydrogen-bonded glutamines and possibly hydrophobic interactions. The nonrepetitive terminal domains were found to induce water insolubility and a generally higher network hindrance. Shorter chain lengths were shown to increase plasticization and water solubility. However, at low water contents, the 21-mer peptide was characterized by higher hindrance in the megahertz and kilohertz frequency ranges compared to the longer peptide; and a tendency for a few hydrogen-bonded glutamines and hydrophobic residues to remain relatively hindered was still observed, as for the protein and large peptide. It is suggested that this ability is strongly dependent on the peptide primary structure. © 2002 Wiley Periodicals, Inc. Biopolymers (Biospectroscopy) 65: 158–168, 2002

Published

2002

29. Supramolecular Architecture and Magnetic Properties of Copper(II) and Nickel(II) Porphyrinogen–TCNQ Electron‐Transfer Salts

Author

Ballester, Loreto, Gil, Ana M., Gutiérrez, Angel, Perpiñán, M. Felisa, Azcondo, M. Teresa, Sánchez, Ana E., Marzin, Claude, Tarrago, Georges, and Bellitto, Carlo

Abstract

The compounds [Cu(Tz)(MeOH)2](TCNQ)2(1), [Ni(Tz)(MeOH)2](TCNQ)2(2), [Cu(Tz)2](TCNQ)7(3) and [Ni(Tz)2](TCNQ)7(4) (Tz=2,7,12,17‐tetramethyl‐1,6,11,16‐tetraazaporphyrinogen) were obtained by metathesis reaction of [M(Tz)](ClO4)2with LiTCNQ and Et3NH(TCNQ)2, respectively. They were characterized by a combination of spectroscopic and physical methods. Compound 1crystallizes in the monoclinic space group P21/nwith a=8.310(2), b=25.180(4), c=20.727(4) Å, β=93.58(2)°; Z=4. Compound 3crystallizes in the triclinic space group P$\bar 1$with a=11.244(1), b=16.700(1), c=17.321(1) Å, α=113.47(1), β=108.52(1), γ=96.12(1)°; Z=2. The asymmetric unit of the compound 1is formed by cationic [Cu(Tz)(MeOH)2]2+and by two crystallographically non equivalent TCNQ.−anions; these anions form dimeric units by overlap of the π clouds. The dimers form hydrogen bonds with the metallomacrocyclic cation through the methanol ligands. According to this structure the compound is paramagnetic and behaves as an insulator in the temperature range studied. The paramagnetism arises only from the metal‐complex moieties. Compound 3shows an unprecedented structure due to the steric requirements of the macrocycle that favors the stacking of the TCNQ groups. The structure consists of infinite stacks of TCNQ units separated by the metal‐macrocyclic units; there are seven TCNQ molecules per formula unit, one of which is formally mono‐anionic, while the other six bear one half of an electron per molecule. The copper is six‐coordinate in a very distorted octahedral environment. The Tz ligand is located in the equatorial plane and the apical nitrogens of the nitrile groups of two TCNQ molecules complete the coordination around the copper. The compound is a semiconductor and its magnetic behavior can be explained by the sum of the Curie contribution of the metal complex and the contribution arising from the magnetic‐exchange interactions of the spins located on the TCNQ units. The latter is found to be typical of one‐dimensional antiferromagnetic distorted chains of S=1/2 spins and can be fitted according to a one‐dimensional Heisenberg antiferromagnetic model.

Published

2002

30. Study of high molecular weight wheat glutenin subunit 1Dx5 by <SUP>13</SUP>C and <SUP>1</SUP>H solid-state NMR spectroscopy. I. Role of covalent crosslinking

Author

Alberti, Enrica, Gilbert, Simon M., Tatham, Arthur S., Shewry, Peter R., and Gil, Ana M.

Abstract

This work describes a carbon and proton solid-state NMR study of the hydration of a high molecular weight wheat glutenin subunit, 1Dx5. The effect of the presence of disulfide bonds on the hydration behavior of the subunit is investigated by a comparison of the unalkylated and alkylated forms of the protein. Hydration induces partial plasticization of the protein so that some segments become more mobile than others. The ¹³C cross-polarization and magic-angle spinning (MAS) spectra of the samples in the dry state and at two hydration levels (~40 and ~65% D2O) were used to monitor the protein fraction resisting plasticization (trains). Conversely, ¹³C single pulse excitation and ¹H-MAS experiments were used to gain information on the more plasticized segments (loops). The molecular motion of the two protein dynamic populations was further characterized by ¹³C T1 and ¹H T1ρ, T2, and T1 relaxation times. The results suggest that hydration leads to the formation of a network held by a cooperative action of hydrogen bonded glutamines and some hydrophobic interactions. The looser protein segments are suggested to be glycine- and glutamine-rich segments. The primary structure is therefore expected to significantly determine the proportion of trains and loops in the network. The presence of disulfide bonds was observed to promote easier plasticization of the protein and the formation of a more mobile network, probably involving a higher number of loops and/or larger loops. © 2002 Wiley Periodicals, Inc. Biopolymers (Biospectroscopy) 67: 487–498, 2002

Published

2002

31. A high resolution <SUP>1</SUP>H magic angle spinning NMR study of a high-<TOGGLE>M</TOGGLE><INF>r</INF> subunit of wheat glutenin

Author

Alberti, Enrica, Humpfer, Eberhard, Spraul, Manfred, Gilbert, Simon M., Tatham, Arthur S., Shewry, Peter R., and Gil, Ana M.

Abstract

This work describes the application of ¹H magic angle spinning (MAS) nmr to the study of hydrated 1Dx5 wheat high-Mr subunit. 1Dx5 is a water-insoluble 88 kDa protein, associated with good baking performance, and whose structure in the solid and low-hydration states is not known. High-resolution MAS (HR-MAS) results in a threefold resolution improvement of the ¹H spectra of the hydrated wheat protein, compared to standard MAS. The spectral resolution achieved enables, for the first time, two-dimensional nmr methods to be employed for the study of hydrated 1Dx5 and the assignment of the spectrum to be carried out on the basis of total correlated spectroscopy and ¹³C/¹H correlation experiments. Considerable shifts are observed for some resonances, relative to the chemical shifts of amino acids in solution, indicating that specific interactions occur in the hydrated protein network. Two main environments are identified for glutamine residues, Q1 and Q2, and these were characterized in terms of possible conformation and relative dynamics, with the basis of comparison between the single 90° spectrum and the Carr-Purcel-Heiboom-Gill (CPMG) spectrum. The Q1 residues are proposed to be situated in protein segments that adopt the β-sheet conformation and that remain relatively hindered, possibly by hydrogen bonds involving the glutamine amide groups. On the other hand, Q2 residues are proposed to be situated in a more mobile environment, adopting a looser conformation, possibly a β-turn conformation. Based on the proximity of the Q2 residues with glycine residues, as viewed by the nuclear Overhauser effect spectroscopy experiment, it is proposed that the protein segments that form the more mobile (or loop) sections of the network are rich in both glutamine and glycine residues. © 2000 John Wiley & Sons, Inc. Biopoly 58: 33–45, 2001

Published

2001

32. A <SUP>13</SUP>C-NMR study on the conformational and dynamical properties of a cereal seed storage protein, C-hordein, and its model peptides

Author

Gil, Ana M., Masui, Keiko, Naito, Akira, Tatham, A. S., Belton, P. S., and Saitô, Hazime

Abstract

We have recorded the ¹³C CP-MAS and DD-MAS nmr spectra of dry and hydrated barley storage protein, C-hordein, as a model for wheat S-poor prolamins, together with those of model synthetic peptides (Pro)2(Gln)6(I) and (Pro-Gln-Gln-Pro-Phe-Pro-Gln-Gln)3(II) under dry or hydrated conditions. The spectral features of C-hordein as well as these peptides were appreciably different from each other depending on the extent of hydration, reflecting different domains that adopt different types of conformations as well as dynamics. In particular, considerable proportions of the peak intensities were lost in the CP-MAS spectra, and well-resolved ¹³C-nmr signals emerged in DD-MAS nmr spectra owing to acquisition of molecular motions by swelling. It was shown that local β-turn or (Pro)n type II conformation is more preferable for individual Pro residues and β-sheet type conformation is dominant for individual Gln residues in the dry and hydrated systems. In addition, two types of Gln environments are originated in C-hordein that differ in their mobility. Further, ¹³C spin-lattice relaxation times (T1's) of C- hordein and peptide II were reduced by more than one order of magnitude by hydration, reflecting the presence of well-swollen molecular chains. In contrast, theT1 values of peptide I upon hydration remained one third of those in the dry state. Carbon-resolved proton spin-lattice relaxation times in the rotating frame (T1ρ's) were also decreased by about 50% upon hydration, although these parameters were less sensitive as compared to T1 values. In addition, the ¹³C-nmr signals of the aromatic side chain of Phe residues disappeared on hydration owing to interference between the frequency of the acquired flip-flop motion and the proton decoupling frequency. This information gives a new insight into establishing the structural properties of the studied protein system. A model may be put forward for a gel-type structure in which the more rigid part of the system involves intermolecular hydrogen-bonded Gln side chains as well as some hydrophobic “pockets” involving Pro and Phe residues. The liquid-like domain is characterized by considerable backbone and side-chain motion as well as rapid ring-puckering motion in Pro residues. © 1997 John Wiley & Sons, Inc.

Published

1997

33. Improving pulse sequences for 3D DOSY: COSY-IDOSY

Author

Nilsson, Mathias, Gil, Ana M., Delgadillo, Ivonne, and Morris, Gareth A.

Abstract

An improved pulse sequence for measuring diffusion-ordered COSY spectra is achieved by incorporating the diffusion encoding directly into the evolution and detection periods of a gradient-enhanced COSY sequence, giving improved sensitivity and a 32-fold reduction in minimum experiment time.

Published

2005

34. An Extremely Versatile Methodology for the Synthesis of Enantiopure β‐Substituted Proline Analogues with the 7‐Azanorbornane Skeleton

Author

Gil, Ana M., Bunuel, Elena, and Cativiela, Carlos

Abstract

ChemInform is a weekly Abstracting Service, delivering concise information at a glance that was extracted from about 200 leading journals. To access a ChemInform Abstract, please click on HTML or PDF.

Published

2006

35. Olefination of Methyl (1S,2R,4R)‐N‐Benzoyl‐2‐formyl‐7‐azabicyclo[2.2.1]heptane‐1‐carboxylate, a Synthetic Approach to New Conformationally Constrained Prolines.

Author

Gil, Ana M., Bunuel, Elena, Diaz‐de‐Villegas, Maria D., and Cativiela, Carlos

Abstract

For Abstract see ChemInform Abstract in Full Text.

Published

2003

36. ChemInform Abstract: Synthesis of Constrained Prolines by Diels—Alder Reaction Using a Chiral Unsaturated Oxazolone Derived from (R)‐Glyceraldehyde as Starting Material.

Author

Bunuel, Elena, Gil, Ana M., Diaz‐de‐Villegas, Maria D., and Cativiela, Carlos

Abstract

ChemInform is a weekly Abstracting Service, delivering concise information at a glance that was extracted from about 100 leading journals. To access a ChemInform Abstract of an article which was published elsewhere, please select a “Full Text” option. The original article is trackable via the “References” option.

Published

2001