Study of bismuth complexation with amino acids and biologically active molecules

Govender, Dhuneshan

January 2016

Bismuth(III) has been used in the medicinal industry for many years, but its mechanism of action is not fully understood and there is very little information on thermodynamic and kinetic parameters for complex formation. Amino acids are the building blocks of life and so, by initially simply determining the complexing ability of various amino acids with bismuth, an indication of how bismuth could interact in the body can slowly be developed and could assist in the eventual development and design of more effective bismuth containing drugs.

Bismuth.

Amino acids.

Molecules.

Expanding the Scope of Multisite Noncanonical Amino Acid Mutagenesis

Zheng, Yunan

January 2018

Thesis advisor: Abhishek Chatterjee / Noncanonical amino acid (ncAA) mutagenesis provides powerful new ways to probe and manipulate protein function both in vitro and in living cells. Increasing the number of ncAAs that can be site-specifically encoded can greatly expand the scope of this promising technology. We aimed to address the challenges that limit the multisite ncAA incorporation technology in both Escherichia coli and mammalian cells. Our work has significantly expanded the scope of this technology through the development of mutually compatible suppression systems and the optimization of their expression. Using these platforms, we further demonstrate powerful new applications of dual-ncAA incorporation technology both in E. coli and mammalian cells. / Thesis (PhD) — Boston College, 2018. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Chemistry.

Noncanonical amino acids

Methodologies Towards One Pot Synthesis of α-Arylated Amino Esters And Applications in Total Synthesis

Unknown Date

In this dissertation, we discuss the development of a synthetic method to functionalize various α-haloglycine esters, as key precursors to a large variety of non-proteinogenic α-amino acids (Xaas). At first, we discovered a very practical and high yielding acetyl chloride-mediated cascade reaction to synthesize α-arylated amino esters in one-pot. In this multicomponent reaction (MCR), a primary carbamate was condensed with a glyoxylate, followed by an in situ halogenation which proved essential to trigger the final Friedel−Crafts functionalization. After careful reaction optimization, a plethora of arene nucleophiles were reacted with high regioselectively in CHCl3 at low temperatures (Method A) while less activated arenes reacted more cleanly in CH3CN and at higher temperatures (Method B). To broaden the scope of this reaction to acid sensitive nucleophiles, a one-pot reaction was designed via evaporation of all acid by-products at the α-haloglycine stage. The anion-binding Schreiner’s thiourea catalyst proved to be extremely efficient to promote this complementary approach (Method C) which relies on the chloride leaving group activation by the catalyst to assist the functionalization stage and deliver the α-amino ester product. In the second chapter, some highly practical and efficient preparations of α-haloglycine esters in one-pot have been developed to generate useful precursors of non-proteinogenic α-amino esters. Also, a mild and unique AcOH(cat.)/AcCl system was found to promote an autocatalytic-like condensation/deoxy halogenation and facilitate the multicomponent assembly of non-proteinogenic α-amino esters. Friedel–Crafts reaction between α-chloroglycine and N-methylindole have been studied in details to understand the mechanistic intricacy of this reaction. Our findings through the initial kinetic profiling support that the arylation likely proceeds via a SN1-like (or SN2C+) mechanism. In third chapter, we discuss the development of the most challenging α,α-disubstituted amino esters in a multicomponent fashion. Our results highlight that the MCR proceeds via the formation of an enamide intermediate, which is further tautomerized to corresponding iminium to produce the desired product. In collaboration with Eli Lilly at the Automated Synthesis Laboratory (ASL), we have developed silver (I) salts mediated Friedel–Crafts reaction for synthesis of α-trifluoromethylated α-amino esters on a fully automatized robot. / Includes bibliography. / Dissertation (Ph.D.)--Florida Atlantic University, 2018. / FAU Electronic Theses and Dissertations Collection

Esters

Synthesis

Amino Acids

Tyrosine and phenylalanine concentrations in haemolymph and tissues of the American cockroach, Periplaneta americana (L.) during metamorphosis

Wirtz, Robert A

January 2010

Digitized by Kansas Correctional Industries

Amino acids

Cockroaches--Development

Regioselective modification of amino acid derivatives / by Tan Eng Wui

Tan, Eng Wui

January 1990

Bibliography: leaves 187-202 / 204 leaves ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Organic Chemistry, 1991

547.75 20

Amino acids.

Studies on aminoxy peptides and prebiotic peptide formation

Chen, Fei,

January 2006

Thesis (Ph. D.)--University of Hong Kong, 2007. / Title proper from title frame. Also available in printed format.

Oligomers. Amino acids Peptides

Synthesis of organometallic foldamers and cyclopropene alpha-amino acids

Zhang, Fan.

January 2006

Thesis (Ph.D.)--University of Delaware, 2006. / Principal faculty advisor: Joseph M. Fox, Dept. of Chemistry & Biochemistry. Includes bibliographical references.

Organometallic polymers Amino acids

Incorporation of ¹⁵NO₃ into amino acids of Douglas-fir xylem sap /

Sandstrom, Richard P.

January 1977

Thesis (M.S.)--Oregon State University, 1977. / Typescript (photocopy). Includes bibliographical references. Also available on the World Wide Web.

Nitrogen. Amino acids.

Genetic Incorporation of Noncanonical Amino Acids into Proteins for Protein Function Investigation

Huang, Ying

2012 May 1900

With the objective to functionalize proteins for the understanding of their biological roles and developing protein-based biosensors, I have been developing methods to synthesize proteins with defined modifications and applying them to study protein functional roles and generate proteins with new properties. These methods rely on the read-through of an in-frame stop codon in mRNA by a nonsense suppressor tRNA specifically acylated with a noncanoncial amino acid (NAA) by a unique aminoacyl-tRNA synthetase and the genetic incorporation of this NAA at the stop codon site. NAAs either provide chemical handles for site-specific manipulation or mimic the posttranslational modifications, which are critical for understanding cellular regulations and signal transduction. The pyrrolysine synthetase (PylRS) has been wildly used to incorporate NAAs into proteins in E. coli. Taking advantage of PylRS, I have developed method to genetically incorporate ketone-containing N--acetyl-L-lysine analog, 2-amino-8-oxononanoic acid (KetoK), into proteins for their site-specific modifications and used it to mimic the protein lysine acetylation process. I have also modified the ribosome in order to improve the amber suppression efficiency and therefore to achieve incorporation of multiple copies of NAA into one protein. By overexpressing a truncated ribosomal protein, L11C, I have demonstrated 5-fold increase of amber suppression level in E. coli, leading to higher expression levels for proteins incorporated with NAAs. I have also demonstrated this method can be applied successfully to incorporate at least 3 NAAs into one protein in E. coli. With the success of incorporating multiple NAAs into one protein, I have further introduced two distinct NAAs into one protein simultaneously. This is done by using a wild type or evolved PylRS-pylTUUA pair and an evolved M. jannaschii tyrosyl-tRNA synthetase (MjTyrRS)-tRNACUA pair. By suppressing both UAG and UAA stop codons in one mRNA, a protein incorporated with two NAAs is synthesized with a decent yield. There is of great interest to incorporate new NAAs into proteins, which is done by library selection. By introducing both positive and negative selective markers into one plasmid, I have developed a one-plasmid selection method. In this method, the positive and negative selections are accomplished by in a single type of cells hosting a single selection plasmid.

Noncanonical Amino Acids

PylRS

Evaluating the technique of using nitrogen retention as a response criterion for amino acid studies in the horse

Antilley, Teri Jill

17 September 2007

Six Quarter Horse yearling fillies were used in a duplicated 3 x 3 Latin square designed experiment to evaluate the technique of nitrogen retention as a response criterion for amino acid studies in the horse. The yearlings were paired by age and randomly assigned to one of three concentrates fed with a medium quality Coastal Bermudagrass hay throughout the study. Diets were fed at approximately 1.9% of horse body weight per day, divided into twice daily feedings with a 60:40 concentrate: hay ratio. With the exception of lysine and threonine, proposed amino acid requirements for yearling horses were calculated using nutrient to calorie ratios of gilts weighing 80-120 kg and gaining 325 g/d. Diet A was amino acid sufficient, as provided by a soybean meal-based concentrate. Diet B was amino acid deficient, with a cottonseed hull-based concentrate. Diet A and Diet B were isonitrogenous, containing approximately 12% crude protein. Diet C used the identical concentrate as Diet B, with synthetic essential amino acids and cysteine orally dosed to match the amino acid levels in Diet A. Nitrogen retention was not different between Diet A and Diet B. Diet C resulted in differences from Diets A and B in nitrogen retention; however, differences were a consequence of nitrogen intake. Nitrogen retained as a percent of nitrogen absorbed was lower (P < 0.05) for Diet B than for Diet A, for data not accounting for endogenous fecal and urinary losses. There were no differences in nitrogen retained as a percent of nitrogen absorbed for horses fed Diet C, when compared to either Diet A or Diet B, for data not accounting for endogenous losses. It was concluded that differences in nitrogen retained as a percent of nitrogen absorbed were observed between amino acid sufficient diets and amino acid deficient diets. However, horses fed amino acid deficient diets and orally dosed with synthetic amino acids, likely require some modified dosage level to achieve the same or higher values in nitrogen retained as a percent of nitrogen absorbed as those values for amino acid sufficient diets.

Nitrogen

Amino acids

Horse