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1. Comparative proteomics reveals anticancer compounds from Lansium domesticum against NSCLC cells target mitochondrial processes

Author

Michael Russelle Alvarez, Florence De Juan, Qingwen Zhou, Ian Ken D. Dimzon, Sheryl Joyce Grijaldo, Sean Sunga, Francisco Heralde, Carlito B. Lebrilla, Gladys Cherisse Completo, and Ruel C. Nacario

Subjects
Clinical Biochemistry, Cell Biology, General Medicine, Biochemistry
Abstract

Lansium domesticum is identified as a potential source of anticancer compounds. However, there are minimal studies on its anti-lung cancer properties as well as its mechanism of action. Here, we show the specificity of lanzones hexane (LH) leaf extracts to non-small cell lung cancer cells (A549) compared to normal lung fibroblast cells (CCD19-Lu) and normal epithelial prostate cells (PNT2). Subsequent bioassay-guided fractionation of the hexane leaf extracts identified two bioactive fractions with IC

Published
2023
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2. N-Glycan and Glycopeptide Serum Biomarkers in Philippine Lung Cancer Patients Identified Using Liquid Chromatography–Tandem Mass Spectrometry

Author

Michael Russelle S. Alvarez, Qingwen Zhou, Jennyfer Tena, Carlito B. Lebrilla, Gladys C. Completo, Francisco M. Heralde, Michelle Cabanatan, Ma. Teresa Barzaga, Nelia Tan-Liu, Guia Imelda Ladrera, Jose Luis Danguilan, Jomar Rabajante, Isagani Padolina, and Ruel C. Nacario

Subjects
Good Health and Well Being, Prevention, General Chemical Engineering, Lung Cancer, Materials Engineering, General Chemistry, Chemical Engineering, Lung, Cancer
Abstract

Aberrant glycosylation has been extensively reported in cancer, with fundamental changes in the glycosylation patterns of cell-surface and secreted proteins largely occurring during cancer progression. As such, serum glycan and glycopeptide biomarkers have been discovered using mass spectrometry and proposed for cancer detection. Here, we report for the first time potential serum N-glycan and glycopeptide biomarkers for Philippine lung cancer patients. The N-glycan and glycoprotein profiles of a cohort (n = 26 patients, n = 22 age- and gender-matched) of lung cancer patients were analyzed and compared to identify potential N-glycan and glycopeptide serum biomarkers using nano-QToF-MS/MS and ultra-high-performance liquid chromatography coupled with triple quadrupole mass spectrometry dynamic multiple monitoring methods, respectively. Statistical analyses identified differential N-glycan and glycopeptide abundances. The N-glycans were mostly sialylated and sialofucosylated branched structures. The glycopeptides involved proteins in complement and coagulation cascades (p adj = 6.418 × 10-4), innate immunity (p adj = 6.094 × 10-3), acute inflammatory response (p adj = 6.404 × 10-5), defense response (p adj = 2.082 × 10-4), complement activation pathways (p adj = 1.895 × 10-2), and immunoglobulin-mediated immune response pathways (p adj = 4.818 × 10-2). Biomarker models were constructed using serum N-glycans [area under the curve (AUC) = 0.775; 95% CI: 0.617-0.931] and glycopeptides (AUC = 0.959; 95% CI: 0.85-1.0), with glycopeptides having higher accuracies than N-glycans. The results suggest that in the Philippine lung cancer patient sera, specific N-glycans and site-specific glycans are differentially expressed between cases and controls. This report represents the first serum glycan and glycopeptide biomarkers of Philippine lung cancer patients, further demonstrating the utility of mass spectrometry-based glycomic and glycoproteomic methods.

Published
2022
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3. Integrating Computational Methods in Network Pharmacology and In Silico Screening to Uncover Multi-targeting Phytochemicals against Aberrant Protein Glycosylation in Lung Cancer

Author

Grijaldo, Sheryl Joyce B, Alvarez, Michael Russelle S, Heralde, Francisco M, Nacario, Ruel C, Lebrilla, Carlito B, Rabajante, Jomar F, and Completo, Gladys C

Subjects
Complementary and Integrative Health, Lung Cancer, Materials Engineering, Chemical Engineering, Lung, Cancer
Abstract

Glycoproteins are an underexploited drug target for cancer therapeutics. In this work, we integrated computational methods in network pharmacology and in silico docking approaches to identify phytochemical compounds that could potentially interact with several cancer-associated glycoproteins. We first created a database of phytochemicals from selected plant species, Manilkara zapota (sapodilla/chico), Mangifera indica (mango), Annona muricata (soursop/guyabano), Artocarpus heterophyllus (jackfruit/langka), Lansium domesticum (langsat/lanzones), and Antidesma bunius (bignay), and performed pharmacokinetic analysis to determine their drug-likeness properties. We then constructed a phytochemical-glycoprotein interaction network and characterized the degree of interactions between the phytochemical compounds and with cancer-associated glycoproteins and other glycosylation-related proteins. We found a high degree of interactions from α-pinene (Mangifera indica), cyanomaclurin (Artocarpus heterophyllus), genistein (Annona muricata), kaempferol (Annona muricata and Antidesma bunius), norartocarpetin (Artocarpus heterophyllus), quercetin (Annona muricata, Antidesma bunius, Manilkara zapota, Mangifera indica), rutin (Annona muricata, Antidesma bunius, Lansium domesticum), and ellagic acid (Antidesma bunius and Mangifera indica). Subsequent docking analysis confirmed that these compounds could potentially bind to EGFR, AKT1, KDR, MMP2, MMP9, ERBB2, IGF1R, MTOR, and HRAS proteins, which are known cancer biomarkers. In vitro cytotoxicity assays of the plant extracts showed that the n-hexane, ethyl acetate, and methanol leaf extracts from A. muricata, L. domesticum and M. indica gave the highest growth inhibitory activity against A549 lung cancer cells. These may help further explain the reported cytotoxic activities of select compounds from these plant species.

Published
2023

5. <scp>Barnyard grass</scp> [ <scp> Echinochloa crus‐galli </scp> (L.) Beauv] <scp>leaves extract against tomato pests</scp>

Author

Michael Russelle Alvarez, Melvin A Castrosanto, Ruel C. Nacario, Kevin C. Salamanez, and Gladys C. Completo

Subjects
Fusarium, Cyperus iria, 030309 nutrition & dietetics, Alternaria solani, Echinochloa, Echinochloa crus-galli, 03 medical and health sciences, chemistry.chemical_compound, 0404 agricultural biotechnology, Solanum lycopersicum, Agar diffusion test, Plant Diseases, 0303 health sciences, Nutrition and Dietetics, biology, Herbicides, Plant Extracts, fungi, Alternaria, food and beverages, 04 agricultural and veterinary sciences, Lettuce, biology.organism_classification, 040401 food science, Fungicides, Industrial, Plant Leaves, Biopesticide, Horticulture, chemistry, Tricin, Agronomy and Crop Science, Food Science, Biotechnology
Abstract

Background Tomato is one of the widely cultivated crops worldwide that is affected by several pests, such as fungi (Fusarium oxysoporum, Alternaria solani), bacteria (Pectobacterium carotovorum) and weeds (Cyperus iria L., Amaranthus spinosus). A growing interest has emerged for developing plant-derived pesticidal compounds to counteract these pests. One attractive alternative is to use barnyard grass (Echinochloa crus-galli), known to be widely resistant to synthetic herbicides, as a potential biopesticide compound source. Results Phytochemical screening of the crude extract showed that phenolic compounds were the most abundant component present in barnyard grass. The crude extract was evaluated for antifungal, antibacterial and herbicidal activities. Bioassays showed inhibition against F. oxysporum (10.73 ± 1.30%) and A. solani (20.47 ± 3.51%), the causative agent of Fusarium rot and early blight disease in tomato, respectively. Antibacterial activity against P. carotovorum gave a mean zone of inhibition (paper disc diffusion assay) of 17.00 ± 1.00 mm and an IC50 (dose-response assay) of 2.26 mg mL-1 was observed. Dose-responsive herbicidal activity on the lettuce seed germination bioassay produced an IC50 of 459.30 ppm. Selectivity studies showed inhibition towards C. iria and A. spinosus with no effect on tomato. Lastly, bioassay-guided fractionation coupled with untargeted metabolomics studies using ultra-performance liquid chromatography with diode array detection-tandem mass spectrometry mass analyses revealed loliolide and tricin as the putative metabolites present in barnyard grass. Conclusion To date, this is the first reported study on using barnyard grass as a potential alternative biopesticide against tomato pests such as fungi, bacteria and weeds. © 2021 Society of Chemical Industry.

Published
2021
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6. Biological Assay-Guided Fractionation and Mass Spectrometry-Based Metabolite Profiling of

Author

Edcyl Lee O, Salac, Michael Russelle, Alvarez, Rnie Shayne, Gaurana, Sheryl Joyce B, Grijaldo, Luster Mae, Serrano, Florence de, Juan, Rowell, Abogado, Isagani, Padolina, Froila Marie, Deniega, Kimberly, Delica, Kimberly, Fernandez, Carlito B, Lebrilla, Marlon N, Manalo, Francisco M, Heralde Iii, Gladys Cherisse J, Completo, and Ruel C, Nacario

Published
2022

7. Multi-glycomic analysis of spheroid glycocalyx differentiates 2- and 3-dimensional cell models

Author

Qingwen Zhou, Michael Russelle S Alvarez, Kemal Solakyildirim, Jennyfer Tena, Luster Mae N Serrano, Matthew Lam, Cynthia Nguyen, Fernando Tobias, Amanda B Hummon, Ruel C Nacario, and Carlito B Lebrilla

Subjects
Biochemistry
Abstract

A multi-glycomic method for characterizing the glycocalyx was employed to identify the difference between 2-dimensional (2D) and 3-dimensional (3D) culture models with two human colorectal cancer cell lines, HCT116 and HT29. 3D cell cultures are considered more representative of cancer due to their ability to mimic the microenvironment found in tumors. For this reason, they have become an important tool in cancer research. Cell–cell interactions increase in 3D models compared to 2D, indeed significant glycomic changes were observed for each cell line. Analyses included the N-glycome, O-glycome, glycolipidome, glycoproteome, and proteome providing the most extensive characterization of the glycocalyx between 3D and 2D thus far. The different glycoconjugates were affected in different ways. In the N-glycome, the 3D cells increased in high-mannose glycosylation and in core fucosylation. Glycolipids increased in sialylation. Specific glycoproteins were found to increase in the 3D cell, elucidating the pathways that are affected between the two models. The results show large structural and biological changes between the 2 models suggesting that the 2 are indeed very different potentially affecting individual outcomes in the study of diseases.

Published
2022

9. An Integrated Mass Spectrometry-Based Glycomics-Driven Glycoproteomics Analytical Platform to Functionally Characterize Glycosylation Inhibitors

Author

Michael Russelle S. Alvarez, Qingwen Zhou, Sheryl Joyce B. Grijaldo, Carlito B. Lebrilla, Ruel C. Nacario, Francisco M. Heralde, Jomar F. Rabajante, and Gladys C. Completo

Subjects
Integrins, Lung Neoplasms, Glycosylation, glycomics, glycoproteomics, glycosylation, proteomics, in silico docking, network pharmacology, non-small cell lung cancer, Pharmaceutical Science, Mass Spectrometry, Analytical Chemistry, Medicinal and Biomolecular Chemistry, Polysaccharides, Theoretical and Computational Chemistry, Drug Discovery, Humans, 2.1 Biological and endogenous factors, Physical and Theoretical Chemistry, Aetiology, Glycomics, Lung, Glycoproteins, Cancer, Organic Chemistry, carbohydrates (lipids), Chemistry (miscellaneous), Molecular Medicine, Mannose
Abstract

Cancer progression is linked to aberrant protein glycosylation due to the overexpression of several glycosylation enzymes. These enzymes are underexploited as potential anticancer drug targets and the development of rapid-screening methods and identification of glycosylation inhibitors are highly sought. An integrated bioinformatics and mass spectrometry-based glycomics-driven glycoproteomics analysis pipeline was performed to identify an N-glycan inhibitor against lung cancer cells. Combined network pharmacology and in silico screening approaches were used to identify a potential inhibitor, pictilisib, against several glycosylation-related proteins, such as Alpha1-6FucT, GlcNAcT-V, and Alpha2,6-ST-I. A glycomics assay of lung cancer cells treated with pictilisib showed a significant reduction in the fucosylation and sialylation of N-glycans, with an increase in high mannose-type glycans. Proteomics analysis and in vitro assays also showed significant upregulation of the proteins involved in apoptosis and cell adhesion, and the downregulation of proteins involved in cell cycle regulation, mRNA processing, and protein translation. Site-specific glycoproteomics analysis further showed that glycoproteins with reduced fucosylation and sialylation were involved in apoptosis, cell adhesion, DNA damage repair, and chemical response processes. To determine how the alterations in N-glycosylation impact glycoprotein dynamics, modeling of changes in glycan interactions of the ITGA5–ITGB1 (Integrin alpha 5-Integrin beta-1) complex revealed specific glycosites at the interface of these proteins that, when highly fucosylated and sialylated, such as in untreated A549 cells, form greater hydrogen bonding interactions compared to the high mannose-types in pictilisib-treated A549 cells. This study highlights the use of mass spectrometry to identify a potential glycosylation inhibitor and assessment of its impact on cell surface glycoprotein abundance and protein–protein interaction.

Published
2022

10. Gender, Numbers and Beyond: The Case of Criminology Program in DOrSU, City Of Mati, Philippines

Author

Jhonnel P. Villegas, Ruel C. Biol, Jason E. Dacullo, and Juby S. Simbahon

Abstract

Access to and success in higher education is shaped by various factors, including, but are not limited to, gender, gendered identities, and gender-related subjectivities. While there has been rich literature in gender-higher education nexus, the utilization of gender analysis in specific gender-stereotyped degree programs such as Criminology, although widely offered in the entire country, remains understudied. Recognizing the impressive progress of enterprising and mainstreaming GAD norms in the Philippines compared to its peers in Asia, there remains a need to understand how gender sets in motion beyond rhetoric and how it entangles everyday practices. This study attempts to interrogate the Criminology program’s temporal development and social determinants from the lenses of gender through trend analysis and in-depth interview methods.We found that Criminology in DOrSU is significantly male-dominated since the program commenced operations in 2009. Although unsurprising, it is worth noting that females record a higher survival rate than males. The latent gender issues and coping strategies contributing to the program’s notable trendwere also uncovered, providing a more comprehensive understanding of females and other non-masculine genders’ narrowed access to the program. To tighten the existing gender gap in Criminology, we recommend a policy reform that encourages gender-inclusive opportunities.

Published
2022
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11. In silico screening-based discovery of inhibitors against glycosylation proteins dysregulated in cancer

Author

Alvarez, Michael Russelle S., Grijaldo, Sheryl Joyce B., Nacario, Ruel C., Rabajante, Jomar F., Heralde, Francisco M., Lebrilla, Carlito B., and Completo, Gladys C.

Subjects
Structural Biology, General Medicine, Molecular Biology
Abstract

Targeting enzymes associated with the biosynthesis of aberrant glycans is an under-utilized strategy in discovering potential inhibitors or drugs against cancer. The formation of cancer-associated glycans is mainly due to the dysregulated expression of glycosyltransferases and glycosidases, which play crucial roles in maintaining cellular structure and function. We screened a database of more than 14,000 compounds consisting of natural products and drugs for inhibition against four glycosylation enzymes - Alpha1-6FucT, ST6Gal1, ERMan1, and GlcNAcT-V. The top inhibitors identified against each enzyme were subsequently analyzed for potential binding against all four enzymes. In silico screening results show several promising candidates that could potentially inhibit all four enzymes: (1) Amb20622156 (demethylwedelolactone) [ERMan1: −9.3 kcal/mol; Alpha1-6FucT: −7.3 kcal/mol; ST6Gal1: −8.4 kcal/mol; GlcNAcT-V: −7.2 kcal/mol], (2) Amb22173588 (1,2-dihydrotanshinone I) [ERMan1: −9.3 kcal/mol; Alpha1-6FucT: −6.1 kcal/mol; ST6Gal1: −9.2 kcal/mol; GlcNAcT-V: −7.9 kcal/mol], and (3) Amb22173591 (tanshinol B) [ERMan1: −9.3 kcal/mol; Alpha1-6FucT: −6.0 kcal/mol; ST6Gal1: −9.8 kcal/mol; GlcNAcT-V: −7.7 kcal/mol]. Drug-enzyme active site residue interaction analyses show that the putative inhibitors form non-covalent bonding interactions with key active site residues in each enzyme, suggesting critical target residues in the four enzymes’ active sites. Furthermore, pharmacokinetic property prediction analysis using pkCSM indicates that all of these inhibitors have good ADMETox properties (i.e., log P < 5, Caco-2 permeability > 0.90, intestinal absorption > 30%, skin permeability>-2.5, CNS permeability in silico docking approach to glycosylation enzyme inhibitor prediction could help guide and streamline the discovery of novel inhibitors against enzymes involved in aberrant protein glycosylation. Communicated by Ramaswamy H. Sarma

Published
2022
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12. Simple and Efficient Method for the Synthesis of Galactofuranosides

Author

Beatrice M. I. Pique, Reymart V. Sangalang, Ruel C. Nacario, and Gladys C. Completo

Subjects
chemistry.chemical_classification, Solvent, chemistry.chemical_compound, chemistry, Nucleophile, Galactose, Cyclohexanol, Monosaccharide, Organic chemistry, Alcohol, Methanol, Carbohydrate
Abstract

An efficient and improved one-pot method for the synthesis of galactofuranosides via iodine-promoted cyclization of galactose diethyl dithioacetal in the presence of alcohol, acting both as solvent and nucleophile, is described. The reaction is carried out at room temperature. Alcohols, such as methanol, cyclohexanol and tert-butanol, were used as nucleophiles for the reaction using 2%, 3% and 5% iodine promoter, respectively. A key finding in this study was that the iodine-promoted cyclization of galactose diethyl dithioacetal with alcohol led to selective formation of β-galactofuranoside allowing the efficient preparation of derivatives of this monosaccharide.

Published
2017
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13. Ligand Specificity of CS-35, a Monoclonal Antibody That Recognizes Mycobacterial Lipoarabinomannan: A Model System for Oligofuranoside−Protein Recognition

Author

John S. Klassen, Todd L. Lowary, Ruel C. Nacario, Christoph Rademacher, Hashem Taha, David C. Schriemer, Chunjuan Liu, Glen K. Shoemaker, Thomas Peters, Hyo-Sun Kim, and Ruixiang Blake Zheng

Subjects
Lipopolysaccharides, Spectrometry, Mass, Electrospray Ionization, Glycan, Magnetic Resonance Spectroscopy, medicine.drug_class, Glycoconjugate, Stereochemistry, Carbohydrates, Calorimetry, Ligands, Monoclonal antibody, Methylation, Models, Biological, Biochemistry, Catalysis, Cell Line, Epitopes, Colloid and Surface Chemistry, medicine, Glycosides, chemistry.chemical_classification, Lipoarabinomannan, Molecular Structure, biology, Ligand, Antibodies, Monoclonal, General Chemistry, Nuclear magnetic resonance spectroscopy, Furanose, chemistry, biology.protein, Thermodynamics, Antibody
Abstract

The CS-35 antibody is widely used in the characterization of glycans containing D-arabinofuranose residues, in particular polysaccharides present in the mycobacterial cell wall. A detailed understanding of the combining site of this antibody and the measurement of its binding to different ligands is of interest as this knowledge will have implications in the characterization of arabinofuranose-containing glycoconjugates that are increasingly recognized as important biological molecules. Of even greater significance is that an in-depth study of this carbohydrate-protein interaction will provide insights into the mechanisms by which oligosaccharides containing furanose rings are bound by proteins, an area that has, to date, received little attention. This system has been refractory to X-ray crystallography, and thus we report here a study of the interaction of CS-35 with its ligands using a combination of chemical synthesis, mass spectrometry, titration microcalorimetry, and NMR spectroscopy. Through these investigations we have established that the binding pocket recognizes, as a minimum epitope, a linear tetrasaccharide motif and that the residues at the reducing and non-reducing end of the oligosaccharide are essential for tight binding. The residue at the non-reducing end appears to be bound in an aliphatic pocket, whereas the rest of the tetrasaccharide interacts more strongly with aromatic amino acids.

Published
2007
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14. Synthesis of the Docosanasaccharide Arabinan Domain of Mycobacterial Arabinogalactan and a Proposed Octadecasaccharide Biosynthetic Precursor

Author

Ruel C. Nacario, Todd L. Lowary, Yu Bai, and Maju Joe

Subjects
chemistry.chemical_classification, Glycosylation, Lipoarabinomannan, biology, Stereochemistry, Chemistry, General Medicine, General Chemistry, Polysaccharide, biology.organism_classification, Biochemistry, Catalysis, Cell wall, Mycobacterium tuberculosis, chemistry.chemical_compound, Colloid and Surface Chemistry, Arabinogalactan, Glycosyl, Carbohydrate conformation, Linker
Abstract

Two major components of the cell wall in mycobacteria, including Mycobacterium tuberculosis, the causative agent of tuberculosis (TB), are polysaccharides containing arabinofuranose residues. In one of these polysaccharides, arabinogalactan, this arabinan domain consists of three identical motifs of 22 arabinofuranose residues, which are in turn attached to an underlying galactofuranan backbone. Recent studies have proposed that this docosanasaccharide motif, and a structurally related arabinan present in another cell wall polysaccharide, lipoarabinomannan, are biosynthesized from a common octadecasaccharide precursor. To facilitate the testing of this hypothesis, we report here the first total syntheses of these 18- and 22-residue oligosaccharides both functionalized with an aminooctyl linker arm. The route to the target compounds involved the preparation of four tri- to heptasaccharide building blocks possessing only benzoyl protecting groups that were coupled in a highly convergent manner via glycosyl ...

Published
2007
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15. Synthesis of the docosanasaccharide arabinan domain of mycobacterial arabinogalactan and a proposed octadecasaccharide biosynthetic precursor

Author

Maju, Joe, Yu, Bai, Ruel C, Nacario, and Todd L, Lowary

Subjects
Carbohydrate Sequence, Polysaccharides, Molecular Sequence Data, Carbohydrate Conformation, Oligosaccharides, Galactans, Nuclear Magnetic Resonance, Biomolecular
Abstract

Two major components of the cell wall in mycobacteria, including Mycobacterium tuberculosis, the causative agent of tuberculosis (TB), are polysaccharides containing arabinofuranose residues. In one of these polysaccharides, arabinogalactan, this arabinan domain consists of three identical motifs of 22 arabinofuranose residues, which are in turn attached to an underlying galactofuranan backbone. Recent studies have proposed that this docosanasaccharide motif, and a structurally related arabinan present in another cell wall polysaccharide, lipoarabinomannan, are biosynthesized from a common octadecasaccharide precursor. To facilitate the testing of this hypothesis, we report here the first total syntheses of these 18- and 22-residue oligosaccharides both functionalized with an aminooctyl linker arm. The route to the target compounds involved the preparation of four tri- to heptasaccharide building blocks possessing only benzoyl protecting groups that were coupled in a highly convergent manner via glycosyl trichloroacetimidate donors. Each of the targets could be prepared in only six steps from these intermediates, and in both cases more than 10 mg of material was obtained. These compounds are expected to be useful tools in probing the biosynthesis of these arabinan-containing polysaccharides. Such studies are essential prerequisites for the identification of novel anti-TB agents that target arabinan assembly.

Published
2007

16. Reductive monoalkylation of aromatic and aliphatic nitro compounds and the corresponding amines with nitriles

Author

Ruel C. Nacario, Shailaja Kotakonda, L. M. Viranga Tillekeratne, Richard A. Hudson, and David M. D. Fouchard

Subjects
Steric effects, Hydrogen, Alkylation, Formates, Organic Chemistry, Hydrogen transfer, chemistry.chemical_element, Oxidation reduction, General Medicine, Nitro Compounds, Biochemistry, Medicinal chemistry, Catalysis, chemistry.chemical_compound, chemistry, Nitriles, Ammonium formate, Nitro, Organic chemistry, Physical and Theoretical Chemistry, Amines, Oxidation-Reduction
Abstract

[reaction: see text] A simple, selective, rapid, and efficient procedure for the synthesis of secondary amines from the reductive alkylation of either aliphatic or aromatic nitro compounds and the corresponding amines is reported. Ammonium formate is used as the hydrogen source and Pd/C as the hydrogen transfer catalyst. The reaction is carried out at room temperature. The rate differences for the preferential formation of secondary over tertiary products are due to both steric and electronic factors.

Published
2005

18. Marketing Abstracts

Author

Walter Gross, Marvin A. Jolson, Myron Leonard, Ronald D. Michman, Thomas E. Barry, Richard C. Becherer, Pat Calabro, James D. Culley, Donald F. Dixon, Michael J. Etzel, Jon B. Freiden, Myron Gable, Charles H. Hindersman, Joe B. Horsley, Donald W. Jackson, Ruel C. Kahler, Robert L. King, Hertha H. Krotkoff, H. Bruce Lammers, Michael V. Laric, David Litvack, Frank Meissner, Douglass G. Norvell, William S. Penn, Conway Rucks, Martin R. Schlissel, William F. Schoell, Helmut Soldner, and Ulrich M. Spencer

Subjects
Marketing, Business and International Management
Published
1980
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19. Book reviews

Author

Clifton W. Pannell, Ruel C. Kahler, Kent P. Schwirian, Janice Hyde, Mona Serageldin, and Michael A. Webb

Subjects
Sociology and Political Science, Political Science and International Relations, Development
Published
1985
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