1,8-Diarylanthracenes as reagents for asymmetric synthesis

Holt, Jay

12 1900

No description available.

Organic compounds Synthesis

Chemical tests and reagents

Asymmetric synthesis

Phosphodichloridite reagents in the solution and solid phase synthesis of oligoribonucleotides

Pon, Richard T. (Richard Timothy)

January 1984

The "modified triester" and phosphodichloridite procedures for oligoribonucleotide synthesis, using 2'- silylated nucleosides, were compared. Phosphodichloridite reagents were faster and more efficient than the arylsulphonyl reagents for both dinucleotide and mononucleotide phosphotriester synthesis. / The trichloroethyl group was better than tribromoethyl, p-nitrophenethyl or methyl protecting groups for solution-phase synthesis. Trichloroethyl dichlorophosphite was used in block condensations to prepare CCCGA and UCAUAA. / An automated RNA synthesizer was developed. Nucleoside methyl chlorophosphites were used with silica gel supports. Polystyrene, polyacryloylmorpholide and controlled pore glass supports were also used but were not as satisfactory. Oligoribonucleotides, up to 17 units long, were rapidly prepared in high overall yield. The sequences were purified by TLC and gel electrophoresis. Enzymatic degradations and HPLC confirmed the composition of the products.

Chemical tests and reagents.

Phosphodichloridite.

Oligoribonucleotides.

Organic compounds -- Synthesis.

Engineered Antibodies. Production and application of chimeric and single-chain antibodies as positive controls in the diagnosis of infectious diseases by ELISA.

Jones, Martina

Unknown Date

No description available.

Topological study of human complement terminal complex /

Nuanthip Kamolvarin, Prapon Wilairat,

January 1984

Thesis (Ph.D. (Biochemistry))--Mahidol University, 1984.

Development of an integrative sampler for bioavailable metals in water /

Brumbaugh, William G.

January 1997

Thesis (Ph. D.)--University of Missouri-Columbia, 1997. / Typescript. Vita. Includes bibliographical references (leaves 173-179). Also available on the Internet.

Development of an integrative sampler for bioavailable metals in water

Brumbaugh, William G.

January 1997

Thesis (Ph. D.)--University of Missouri-Columbia, 1997. / Typescript. Vita. Includes bibliographical references (leaves 173-179). Also available on the Internet.

A bridgehead organolithium reagent, the Retro-Nazarov reaction, and 4+3 cycloadditions with a nicotinic acid derivative /

Kirchhoefer, Patrick L.,

January 2004

Thesis (Ph.D.)--University of Missouri-Columbia, 2004. / Typescript. Vita. Includes bibliographical references (leaves 263-272). Also available on the Internet.

A bridgehead organolithium reagent, the Retro-Nazarov reaction, and 4+3 cycloadditions with a nicotinic acid derivative

Kirchhoefer, Patrick L.,

January 2004

Thesis (Ph.D.)--University of Missouri-Columbia, 2004. / Typescript. Vita. Includes bibliographical references (leaves 263-272). Also available on the Internet.

Síntese de glicosil amidas e glicoconjugação via utilização de selenocarboxilatos como reagentes traceless

Silva, Luana

January 2016

A química de carboidratos têm sido um importante link entre a síntese orgânica, a biologia e a química medicinal devido ao papel fundamental que açúcares apresentam na glicobiologia. Neste contexto, a ligação amida glicosídica é uma importante conexão encontrada na natureza, sendo uma das formas de ligar um núcleo de carboidrato a outras biomoléculas e produtos naturais, como glicopeptídeos e N-glicosil amidas. Dessa forma, o desenvolvimento de métodos sintéticos para a introdução de núcleos de carboidratos em diferentes estruturas é fundamental. Tendo em vista o interesse do nosso grupo de pesquisa em desenvolver novas estratégias utilizando a química de selênio na funcionalização de derivados de carboidratos, o presente projeto descreve uma metodologia de síntese de N-glicosil amidas e de glicoconjugação via formação de ligação amida, envolvendo a reação entre selenocarboxilatos, gerados in situ, com azidas glicosídicas. Foi possível sintetizar com sucesso uma série de derivados de carboidratos, para uma variedade de substratos que incluíram: N-glicosil amidas furanosídicas (20 exemplos), piranosídicas (13 exemplos) e também N-glicoconjugados graxos (10 exemplos). A metodologia foi baseada na geração in situ de selenocarboxilatos de lítio, a partir de Se0/ LiEt3BH e derivados de ácidos carboxílicos, e suas reações com azidas derivadas de açúcares. Um aspecto importante deste protocolo é que a reação se inicia com selênio elementar e apresenta como subprodutos N2 e Se0. O isolamento e manipulação de espécies intermediárias reativas de selênio são evitadas durante o curso reacional, conferindo ao selenocarboxilato o status de reagente traceless. / Carbohydrate chemistry has been an important link between organic synthesis, biology and medicinal chemistry due to the fundamental roles that sugars play in glycobiology. In this context, the glycosyl amide linkage is an important connection found in nature, since it is one of the ways in which a sugar unit can be found attached to other biomolecules and natural products, such as N-glycosyl amides and glycopeptides that are known for possessing a wide range of bioactivities. Therefore, the development of synthetic methods for the introduction of sugar moieties into various different scaffolds is of paramount importance. In connection with our interest on the development of new strategies using selenium chemistry for the functionalization of carbohydrate derivatives, we describe herein an efficient synthesis of glycosyl amides and glycoconjugation methodology via amide bond-formation, enabled by the reaction of in situ generated selenocarboxylates with glycosyl azides. Carbohydrate-derived amides were successfully prepared in good yields for a broad range of substrates, including: furanosyl (20 examples), pyranosyl (13 examples) N-glycosil amides derivatives and also fatty acids glycoconjugates (10 examples). The methodology relied in the in situ generation of lithium selenocarboxylates, from Se/LiEt3BH and acyl chlorides or carboxylic acids and their reaction with sugar azides. A key aspect of the present protocol is that we start from elemental selenium and as by-products we have harmless gaseous nitrogen and elemental selenium. Isolation and handling of all reactive and sensitive seleniumcontaining intermediates is avoided, therefore assigning to the selenocarboxylate the status of a traceless reagent.

Selenio

Sintese organica

Amidas

Amidation

Selenium reagents

Glycosyl amides

Applications of Paper Microfluidic Systems in the Field Detection of Drugs of Abuse

Wang, Ling

06 July 2017

Over the years, colorimetric reagents and immunology have been widely used in screening tests for illicit drugs; however, the test kits are not always convenient for field use and often require the user to mix and develop a specific set of reagents. In our project, we have been working on alternative platforms based on paper microfluidic devices (uPADs) for field testing. These devices utilize wax channels printed on paper to direct the analyte towards a specific set of chemical reagents. Using the procedure, we have developed a six-channel chip that adapts known colorimetric reagents targeting cocaine, opiates, amphetamines and ketamine for multiplex detection. For more sensitive and specific determinations than the colorimetric reagents, we have also developed a paper device that utilizes the interaction between gold nanoparticles and drug specific aptamers. The µPADs using colorimetric reagent are designed as a six-channel multiplexed system. Sequences of different reagents applied to each channel to produce a series of reactions and the color changes appear at the end of each channel. The entire process takes less than five minutes. The adjusted reagents produce specific color changes for seized drugs on the paper microfluidic devices. Procedures have been developed for the detection of cocaine, ketamine, codeine, ephedrine, morphine, amphetamine, methamphetamine, and MDMA. These devices have been tested for sensitivity, specificity and stability against a variety of potential interferences and test conditions. Gold nanoparticles (AuNPs)/ aptamers µPADs were developed to detect cocaine. The presence of cocaine cause the binding with aptamers, and the gold nanoparitcles produced a salt-indicated aggregations and gave a color change of AuNPs from red to black. The absence of cocaine allowed the aptamers freely to bind gold nanoparticles, and no color change occured. The device had a preliminary validation of sensitvity and specificity against a variety of potential interferences. The use of paper microfluidic devices permits the development of rapid, inexpensive and easily operated tests for drug samples in the field. They present a safe and convenient presumptive tool that can be used in the field.

uPADs

Drugs of abuse

Colorimetric reagents

AuNPs

Aptamer

Other Chemistry