Elucidation of N-Acylethanolamine Pathway and Its Physiological Role in Physcomitrella Patens

Kilaru, Aruna, Sante, Richard, Swati, Swati, Kinser, B., Miller, C., Shiva, S., Welti, Ruth

08 March 2014

No description available.

elucidation

N-Acylethanolamine pathway

physcomitrella patens

Biological Sciences

Biology

Secondary metabolites from Xylaria endophytes. The isolation and structure elucidation of secondary metabolites from Xylaria endophytes by chemical and spectroscopic methods.

Al-Busaidi, Harith N.K.

January 2011

Ministry of Higher Education; Sultanate of Oman / Digital full-text is unavailable. Submitted disc unusable.

Endophyte

Fungi

Secondary metabolites

Structure elucidation

Xylaria

NMR Spectroscopy

Secondary metabolites from Xylariaceous fungi. The isolation and structure elucidation of secondary metabolites from Xylariaceous fungi by chemical and spectroscopic methods.

Alhaidari, Rwaida A.A.

January 2012

This thesis describes the isolation and structure elucidation of secondary metabolites formed in static culture from a number of endophytic Xylariaceous fungi. Four Xylaria endophytes isolated from a palm tree in Thailand were surface cultured on an aqueous malt extract-glucose medium. They all produced cytochalasin D, coriloxin, (S)-mellein and (3R,4R)-4-hydroxymellein as the main secondary metabolites suggesting that the four endophytes could be the same species. The endophytic fungus A116 produced cytochalasin D as the main secondary metabolite. Another non-endophytic fungus B315, produced cytochalasin D, (R)-mellein, a mixture of two isomers of 4-hydroxymellein and phloroglucinol. X.62, an endophytic fungus, produced 19,20-epoxycytochalasin C from the mycelium as the main secondary metabolite. The fungus Engleromyces sinensis produced engleromycin acetate as the main secondary metabolite. Fungus X. polymorpha produced (3E)-4-(3¿-acetyl-2¿,6¿-dihydroxy-5¿-methylphenyl)-2-methoxybut-3-enoic acid. / Ministry of Higher Education; Kingdom of Saudi Arabia.

Endophytes

Xylaria

Fungi

Secondary metabolites

NMR

Structure elucidation

Xylariaceous fungi

Secondary Metabolites from Xylaria Endophytes: The isolation and structure elucidation of secondary metabolites from Xylaria endophytes by chemical and spectroscopic methods

Al-Busaidi, Harith

January 2011

This thesis describes the isolation and structure elucidation of secondary metabolites from a number of endophytic Xylaria fungi. Six Xylaria endophytes were surface cultured on an aqueous malt extract-glucose medium. The fungus A311R, from a palm tree in Thailand, produced nonane-1,2,3-tricarboxylic acid, which was isolated for the first time as a natural product. Also isolated from the same fungus was spiculisporic acid; the first instance of isolation from a Xylaria fungus. The fungus 6RD12 produced cycloepoxydon, which was isolated for the first time from a Xylaria fungus, and 4,5,6-trihydroxy-3-propyl-3,4,6,7-tetrahydro-l//-isochromen- 8(5//)-one, which is a novel compound. The fungi A217R and A517R produced cytochalasin D, (S)-mellein and (3S,4S)-4-hydroxymellein as main secondary metabolites suggesting that the two fungi are the same species. The fungus X04 (Xylaria cf. juruensis) produced 2-Hydroxy-5-ethoxy-3-methylcyclohexa-2,5-dien- 1,4-dione as a novel compound, coriloxin as the main secondary metabolite in addition to (R)-mellein and a mixture of two stereoisomers of the 4-Hydroxymellein. The fungus 6RD8 produced (S)-Omethylmellein as the main secondary metabolite. l

Endophyte

Fungi

NMR

Secondary metabolites

Structure elucidation

Xylaria

Synthesis and (spectro)electrochemistry of mixed-valent diferrocenyl–dihydrothiopyran derivatives

Kowalski, Konrad, Karpowicz, Rafał, Mlostoń, Grzegorz, Miesel, Dominique, Hildebrandt, Alexander, Lang, Heinrich, Czerwieniec, Rafał, Therrien, Bruno

10 June 2015

Three novel diferrocenyl complexes were prepared and characterised. 2,2-Diferrocenyl-4,5-dimethyl-3,6-dihydro-2H-thiopyran (1, sulphide) was accessible by the hetero-Diels–Alder reaction of diferrocenyl thioketone with 2,3-dimethyl-1,3-butadiene. Stepwise oxidation of 1 gave the respective oxides 2,2-diferrocenyl-4,5-dimethyl-3,6-dihydro-2H-thiopyran-1-oxide (2, sulfoxide) and 2,2-diferrocenyl-4,5-dimethyl-3,6-dihydro-2H-thiopyran-1,1-dioxide (3, sulfone), respectively. The molecular structures of 1 and 3 in the solid state were determined by single crystal X-ray crystallography. The oxidation of sulphide 1 to sulfone 3, plays only a minor role on the overall structure of the two compounds. Electrochemical (cyclic voltammetry (= CV), square wave voltammetry (= SWV)) and spectroelectrochemical (in situ UV-Vis/NIR spectroscopy) studies were carried out. The CV and SWV measurements showed that an increase of the sulphur atom oxidation from −2 in 1 to +2 in 3 causes an anodic shift of the ferrocenyl-based oxidation potentials of about 100 mV. The electrochemical oxidation of 1–3 generates mixed-valent cations 1+–3+. These monooxidised species display low-energy electronic absorption bands between 1000 and 3000 nm assigned to IVCT (= Inter-Valence Charge Transfer) electronic transitions. Accordingly, the mixed-valent cations 1+–3+ are classified as weakly coupled class II systems according to Robin and Day. / Dieser Beitrag ist aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

Heterozyklen

Elektrochemie

Technische Universität Chemnitz

Allianzlizenz

heterocycles

spectroelectrochemistry

structure elucidation

ddc:546

ddc:547

Elektronentransfer

Elektrochemie

Secondary metabolites from Xylariaceous fungi : the isolation and structure elucidation of secondary metabolites from Xylariaceous fungi by chemical and spectroscopic methods

Alhaidari, Rwaida Adel

January 2012

This thesis describes the isolation and structure elucidation of secondary metabolites formed in static culture from a number of endophytic Xylariaceous fungi. Four Xylaria endophytes isolated from a palm tree in Thailand were surface cultured on an aqueous malt extract-glucose medium. They all produced cytochalasin D, coriloxin, (S)-mellein and (3R,4R)-4-hydroxymellein as the main secondary metabolites suggesting that the four endophytes could be the same species. The endophytic fungus A116 produced cytochalasin D as the main secondary metabolite. Another non-endophytic fungus B315, produced cytochalasin D, (R)-mellein, a mixture of two isomers of 4-hydroxymellein and phloroglucinol. X.62, an endophytic fungus, produced 19,20-epoxycytochalasin C from the mycelium as the main secondary metabolite. The fungus Engleromyces sinensis produced engleromycin acetate as the main secondary metabolite. Fungus X. polymorpha produced (3E)-4-(3'-acetyl-2',6'-dihydroxy-5'-methylphenyl)-2-methoxybut-3-enoic acid.

579.5

Synthesis of taurospongin A and other biologically active natural products

Wu, Boshen

January 2017

This thesis firstly describes a synthesis of the natural product taurospongin A, a potent DNA polymerase beta inhibitor. Sharpless asymmetric dihydroxylation on olefin <b>E-1.60</b> followed by selective deoxygenation at C(2) via Barton‒McCombie reaction delivers the desired C(1)–C(10) carboxylic acid core. Subsequent esterification of the C(1)–C(10) fragment with C(1′)–C(25′) fatty acid furnishes the natural product in 13.5% yield. The structure of an unnamed natural product <b>2.14</b> isolated in 1974 is proven to be misassigned by previous studies within the Robertson group. As described in this thesis, two proposed structures A and B are obtained via total synthesis in order to reveal the identity of the natural product. A synthesis of key intermediate spirocycles <b>2.148</b> and <b>2.158</b> with desired trans- diol moiety is described by a dihydroxylation reaction on an electron deficient gamma-keto unsaturated acid with subsequent spirocyclisation reaction. Finally, methodology for generating high-value synthetic intermediates by an asymmetric, one-pot enzymatic di/polycarbonyl reduction is described. The concept of such methodology is first proven by the synthesis of (3R)-hydroxybutyl (3R)-hydroxybutanoate <b>3.20</b>. This thesis then describes substrate scope studies and corresponding stereochemical proof to provide more information about this methodology.

572.86

Komplexy lehkých platinových kovů s ferrocenovým N-fosfinoamidem / Light platinum group metal complexes with a ferrocene N-phosphinoamide

Navrátil, Michal

January 2018

Title: Light platinum group metal complexes with a ferrocene N-phosphinoamide Author: Bc. Michal Navrátil Department: Department of Inorganic chemistry Supervisor: prof. RNDr. Petr Štěpnička, Ph.D., DSc. Abstract: The aim of this diploma thesis is the preparation of coordination compounds containing ferrocene phosphinoamide FcCONHPPh2 (1, Fc = ferrocenyl), whose preparation was discussed in author's bachelor thesis. Twelve new complexes are described in this thesis, including their characterisation by NMR and infrared spectroscopy, elemental analysis and mass spectrometry. In all cases the crystal structure was determined. Two palladium(II), one rhodium(III) and one ruthenium(II) precursors were used for the preparation of the complexes with each providing three new compounds. A reaction of the precursors with phosphinoamide 1 yielded complexes, in which the phosphinoamide was P-coordinated. This compound was a precursor for the other two complexes. The first one was obtained by a reaction with silver(I) perchlorate producing a cationic P,O-chelate. The other was obtained by a reaction with potassium tert-butoxide resulting in neutral P,O- chelate. All twelve complexes were prepared with optimised yields. Keywords: ferrocene, amides, phosphines, palladium, rhodium, ruthenium, structure elucidation.

Metallopeptides From Design to Catalysis: Structure, Oxidative Activities, And Inhibition Studies Of Designed And Naturally Occurring Metallopeptides

Hashim, Alaa Hassan

19 November 2014

Structural and mechanistic complexities of copper-dioxygen systems have attracted much attention in the field of bioinorganic chemistry, both in model systems and trapped protein intermediates. The research presented herein is focused on model and naturally occurring metallopeptide systems, from its design to catalysis. Copper is used as the coordinating metal ion, with cobalt and zinc as probes for metal binding. The bioinorganic chemistry of copper proteins and its coordination and spectroscopic properties are briefly discussed in chapter 1. The next two chapters are centered on the de novo design of a minimalistic metallopeptide system with an amino acid sequence of RHHPPHHE. Structural characterization of the peptide by means of CD and NMR spectroscopy techniques are presented in chapter 2, suggesting a characteristic beta-turn structure in its apo and di-metal bound form. The designed metallopeptide exhibits catecholase activity, which is presented in chapter 3. The data suggest the presence of two mononuclear copper active sites, exhibiting specificity towards the oxidation of catecholamine substrates. Similarly, the catecholase activity has been previously observed in copper complexes of Alzheimer's disease related peptide beta-amyloid, exhibiting metal-centered redox chemistry. The metallo-(beta-amyloid); complexes are the hallmark Alzheimer's disease and have been attributed to the generation of reactive oxygen species causing oxidative stress. Thus, inhibition of the observed oxidative activities was investigated. Probing the role of phosphate moieties in various compounds as potential inhibitors against the induced oxidative stress is presented in chapter 4. The phosphate analogs of the studied compounds exhibit more pronounced potency, where mutation of the beta amyloid peptide at Arg-5 and Lys-16 give insight into the interactions of the side chains of Arg and Lys with the phosphate moiety. 31P NMR relaxation studies further support the binding/interaction of phosphate with the Cu(II)-(beta-amyloid); complexes. The correlation of phosphate moiety binding/activity will allow for the design of more potent inhibitors toward the Cu(II)-(beta-amyloid); induced oxidative stress.

beta amyloid

bioinorganic chemsitry

DNA cleavage

metallopeptide models

NMR

structure elucidation

Inorganic Chemistry

Joziknipholones A and B : the First Dimeric Phenylanthraquinones, from the Roots of Bulbine frutescens

Bringmann, Gerhard, Mutanyatta-Comar, Joan, Maksimenka, Katja, Wanjohi, John M., Heydenreich, Matthias, Brun, Reto, Müller, Werner E. G., Peter, Martin, Midiwo, Jacob O., Yenesew, Abi

January 2008

From the roots of the African plant Bulbine frutescens (Asphodelaceae), two unprecedented novel dimeric phenylanthraquinones, named joziknipholones A and B, possessing axial and centrochirality, were isolated, together with six known compounds. Structural elucidation of the new metabolites was achieved by spectroscopic and chiroptical methods, by reductive cleavage of the central bond between the monomeric phenylanthraquinone and -anthrone portions with sodium dithionite, and by quantum chemical CD calculations. Based on the recently revised absolute axial configuration of the parent phenylanthraquinones, knipholone and knipholone anthrone, the new dimers were attributed to possess the P-configuration (i.e., with the acetyl portions below the anthraquinone plane) at both axes in the case of joziknipholone A, whereas in joziknipholone B, the knipholone part was found to be M-configured. Joziknipholones A and B are active against the chloroquine resistant strain K1 of the malaria pathogen, Plasmodium falciparum, and show moderate activity against murine leukemic lymphoma L5178y cells.

antimalarial activity

chirality

joziknipholones

natural products

structure elucidation

Chemistry and allied sciences