• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 27
  • 11
  • 7
  • 6
  • 2
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • Tagged with
  • 70
  • 10
  • 9
  • 9
  • 8
  • 8
  • 8
  • 6
  • 6
  • 6
  • 6
  • 6
  • 5
  • 5
  • 5
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

NMR studies of micelle forming model glycolipids

Talagala, Sardha Lalith January 1982 (has links)
The work described herein falls into three major categories: synthesis of model glycolipids, NMR studies on'model glycolipid'micelles, and application of 2D-NMR spectroscopy in spectral assignment. Three synthetic routes, namely the glycosidation reaction, reductive amination reaction, and amide bond formation have been investigated in relation to their efficiency and convenience in coupling carbohydrates with aliphatic chains. The reaction of amide bond formation was found to be a superior method over the others for the preparation of long alkyl chain derivatives. ¹H-NMR spectroscopy has been utilized to study and detect the micelle formation by the model glycolipids. The studies described illustrate that the ¹H spin-lattice relaxation rate (R-₁) is well suited for the determination of critical micelle concentration providing it is sufficiently high. The contrasting behaviour of R-₁ of the anomeric proton (H-1) of n-octyl β-D-glucoside in relation to that of H-2 and w-CH₃ upon micellization, has been tentatively attributed to the conformational changes accompanying micelle formation. The observed upfield shift of the ¹³C resonances of the alkyl chain has been explained as being due to the increased proportion of trans conformers in the micellar state. The question of the downfield ¹³C shift observed for the sugar resonances has been discussed. Study of N-alkyllactobionamides with ¹H-NMR proved to be difficult due to their extremely low critical micelle concentrations. Application of 2D J-resolved spectroscopy and spin-echo correlated spectroscopy (SECSY) in spectral assignment of unprotected sugar derivatives has been demonstrated. Using above techniques, complete assignment of the sugar region of n-octyl β-D-glucoside and N-hexyllactobionamide has been achieved. / Science, Faculty of / Chemistry, Department of / Graduate
12

Synthesis, Conformational Analysis And Biophysical Studies Of Oligoarabinan And Oligoarabinomannan Glcolipids

Naresh, Kottari 03 1900 (has links) (PDF)
Mycobacterial infection is a major health concern. High drug resistivity of the mycobacterium is due to its multi-layered, thick hydrophobic waxy cell wall components, consisting of cross-linked peptidoglycan (PG), mycolyl arabinogalactan (mAG) and lipoarabinomannan (LAM) polysaccharides. These polysaccharides are composed of arabinose and galactose in the furanose form and mannose in the pyranose form. The high waxy hydrophobic components of the mycobacterial cell wall acts as a barrier for most hydrophilic antibacterial agents. Enzymes responsible for the biosynthesis of polysaccharides of mAG and LAM are arabinosyl transferase (AraT), galactosyl transferase (GlfT) and mannosyl transferase (ManT). In the absence of furanoside derivatives of D-arabinose and D-galactose in mammalian systems, inhibitors based on these sugars arise an interest. Upon realizing structural characteristics of cell wall polysaccharides, the chemical syntheses of such polysaccharides were reported. Biological studies of synthetic arabinomannan and arabinogalactan oligosaccharides were performed, in order to identify their effects in enzymatic, as well as, mycobacterial growth assays. Chapter 1 of the thesis describes the structural features of mAG and LAM polysaccharides. Chemical synthesis of oligosaccharides related to mycobacterial cell wall components and their effects of mycobacterial growth and enzymatic assays are discussed. In my research program, synthesis and studies of oligosaccharides pertaining to mycobacterial cell wall components were undertaken. Monovalent and bivalent glycolipids 1 and 2 (Figure 1), containing arabinofuranoside trisaccharide as the sugar head group, were synthesized and their effects on the growth of M. smegmatis strain were studied. In the presence of arabinan glycolipids, retardation of the growth of M. smegmatis was observed and the inhibitory activity was found to be specific with glycolipids containing arabinofuranoside head groups. Glycolipid with maltosyl sugar and arabinofuranoside trisaccharide without lipid chains, did not affect the mycobacterial growth. Continuing the effort, tri- and tetrasaccharide of arabinomannan glycolipids were synthesized and their effects in the mycobacterial growth were studied. It was found that 3 was inhibiting the growth of the mycobacterium, whereas in the case of 4, inhibition was found to be less when compared to 3. Relative inhibitions of mycobacterial growth by synthetic glycolipids 1-4, at a concentration 200 µg/mL, were found to be in a varying degrees, ranging from 16 % in the case of 4 and 65 % in the case of 3. Figure 1. Molecular structures of arabinan and arabinomannan oligosaccharides 1-7. Following mycobacterial growth inhibition studies, surface plasmon resonance studies of synthetic oligosaccharides were performed, in order to identify their interactions with mycobacterial cell lysates. Amine tethered glycosides 5-7 (Figure 1) were synthesized and immobilized onto SPR sensor chip through amine coupling methodology. From SPR studies, it was found that the binding affinity was higher with cell lysates from motile strains than non-motile strain. Among various arabinomannans, glycoside 5, presenting two mannose units showed higher affinity than 6 and 7, having no or one mannose unit, respectively. Chapter 2 of the thesis provides details of synthesis, biological and biophysical studies of arabinan and arabinomannan glycolipids. Continuing the synthesis and studies with arabinose oligosaccharides, a linear tetra-, hexa and octasaccharide glycolipids, containing α-(1→5) linkages (10-12), as well as, a branched heptasaccharide containing α-(1→2) and α-(1→5) linkages (14) between the arabinofuranoside units (Figure 2) were synthesized. In addition to glycolipids, oligosaccharides without alkyl chains (8, 9 and 13) were also prepared. Synthesis was performed using trichloroacetimidate and Figure 2. Molecular structures of linear and branched arabinan derivatives 8-14. thioglycosides as glycosyl donors. Synthesis of linear oligosaccharide derivatives 8-12 was achieved by iterative glycosylation and deprotection strategies. Branched heptasaccharide derivatives 13 and 14 were synthesized by using block glycosylation method, wherein two fold excess of arabinose disaccharide was reacted with a suitably protected arabinose trisaccharide. Upon synthesis, molecular modeling studies were performed to identify the conformational behavior of arabinan glycolipids. Conformational studies were performed in three steps, namely, (i) dihedral scan (ii) conformational search and (iii) molecular dynamics. Dihedral scan was performed to assess favorable torsion angles at each glycosidic linkage with respect to overall conformation of the molecule. Monte-Carlo conformational search was performed to obtain the lowest energy structure of arabinan glycolipids. Relative orientations of lipidic portions and sugar portions were identified for linear and branched arabinan glycolipids. The least energy conformations of 10, 11, 12 and 14 are shown in Figure 3. In the case of linear molecules 10, 11 and 12, alkyl chains and arabinofuranoside portion did not phase segregate, whereas in the case of branched glycolipid 14, the alkyl chains were observed to move away from the sugar moieties. Molecular dynamic calculations were performed for the lowest energy structure, in order to evaluate the torsion angles in the trajectory. Following the synthesis and conformational analysis of the arabinan glycolipids, surface plasmon resonance studies were performed to assess their interactions with a host protein, namely, pulmonary surfactant protein-A (SP-A). For the interaction studies, SP-A was immobilized on to the CM-5 sensor chip using amine coupling method. Varying concentrations of arabinan glycolipids 10, 11, 12 and 14 and oligosaccharides 8, 9 and 13 were used as analytes. Responses from the surface of SP-A were subtracted from that of ethanolamine to eliminate the non-specific interactions. Primary sensorgrams were fitted using 1:1 Langmuir model to obtain the kinetic parameters of the interactions. Specificities and relative binding affinities of arabinan oligosaccharides interacting with SP-A are presented in Table 1. The affinities between Figure 3. Lowest energy structures of glycolipids 10, 11, 12 and 14 derived from molecular modeling studies. arabinan oligosaccharides and SP-A were found in the range of 4.9-47x103 M-1. Among the series, branched arabinan oligosaccharides 13 and 14 showed higher Ka values than the linear arabinan glycolipids. The association rate constants (kon) were generally higher for the oligosaccharides without lipidic chain, whereas, the dissociation rate constants (koff) were slower with oligosaccharides having lipidic chains. Faster kon was also associated with a faster koff for oligosaccharides without the lipidic chains. For the glycolipids, a relatively slower koff was found to be the trend. In the case of branched heptasaccharide derivatives, glycolipid 14 showed higher binding constant than heptasaccharide with a thiocresyl group at the reducing end 13. Chapter 3 of the thesis presents the synthesis, conformational analysis and SPR studies of linear and branched arabinan glycolipids. Table 1. Kinetic parameters of the interactions between arabinose derivatives 8-14 and SP-A. Compound kon (M-1s-1) kd (s-1) (104) Ka (M-1) (10-3) χ2 12 3.9 7.91 4.9 8.3 11 1.5 3.98 3.77 2.9 10 0.384 0.22 17.5 6.7 14 27.3 5.79 47.2 4.5 8 11.3 6.14 18.4 2.3 9 23.3 11.6 20.1 2.4 13 53.6 17.9 29.9 5.4 Upon assessing the biophysical studies of the α-arabinofuranoside glycolipids, an effort was undertaken to prepare glycolipids containing β-arabinofuranoside linkages and to study their conformational and biophysical properties. Arabinan glycolipids 15 and 16 (Figure 4), containing β-(1→2), β-(1→3) and β-(1→5) linkages between furanoside units were synthesized to compare the properties with the corresponding synthetic α-arabinan glycolipids. Incorporation of β-arabinofuranoside linkages in 15 and 16 was achieved using low temperature activation of silyl substituted glycosyl donor 17 (Figure 4), with NIS and AgOTf. The configurations in 15 and 16 were confirmed through 1H-1H COSY, 1H-13C HMQC NMR techniques. During the synthesis of 15 and 16, stereoselective incorporation of two β-Araf linkages on a single furanoside unit was achieved for the first time. Conformational studies of 15 and 16 were conducted similar to α-arabinan glycolipids, as above, to identify most favorable conformations of inter-ring, as well as, overall conformation of the molecule. The interactions between the SP-A and β-arabinofuranoside glycolipids 15 and 16 were also assessed with the aid of SPR technique. The analysis showed that the affinities of glycolipids 15 and 16 to SP-A were found to be relatively lower when compared to α-arabinofuranoside glycolipids. Synthesis and studies of β-arabinofuranoside glycolipids are described in chapter 4 of the thesis. Figure 4. Molecular structures of β-arabinofuranoside glycolipids 15 and 16. In summary, the present thesis describes synthesis, conformational and biophysical studies of synthetic arabinan and arabinomannan glycolipids. Monovalent and bivalent arabinan, tri- and tetrasaccharide arabinomannan glycolipids were synthesized and their effects in the mycobacterial growth were studied. It was found that arabinan and arabinomannan glycolipids inhibited the growth of the mycobacterium. The inhibitory activity is specific with the arabinan and arabinomannan glycolipids and the glycolipids with higher arabinose composition were found to be better inhibitors for mycobacterial growth. The interactions of mycobacterial cell lysates with arabinomannan compounds were evaluated through SPR technique. Linear tetra-, hexa-, octa- and branched heptasaccahride arabinan glycolipids containing α-Araf linkages between furanoside units were synthesized. Molecular modeling studies of arabinan glycolipids were performed, in order to identify their lowest energy conformations. Biophysical studies of linear and branched arabinan glycolipids were conducted to assess their interactions with pulmonary surfactant protein-A (SP-A) through surface plasmon resonance technique. Syntheses, conformational and biophysical studies were extended further to β-arabinofuranoside glycolipids. Overall, the thesis provides synthesis, conformational, biological and biophysical studies of a series of lipoarabinomannan oligosaccharides. The results provide a possibility to evolve newer types of glycolipids that can act as inhibitors of mycobacterial growth. (For structural formula pl see the hard copy)
13

Synthesis and protein curing abilities of membrane glycolipids

Wikström, Malin January 2006 (has links)
<p>There are many types of membrane lipids throughout Nature. Still little is known about synthesizing pathways and how different lipids affect the embedded membrane proteins. The most common lipids are glycolipids since they dominate plant green tissue. Glycolipids also exist in mammal cells as well as in most Gram-positive bacteria. Glycosyltransferases (GTs) catalyze the final enzymatic steps for these glycolipids. In the bacteria <i>Acholeplasma laidlawii</i> and <i>Streptococcus pneumonie</i> and in the plant <i>Arabidopsis thaliana</i>, GTs for mono-/di-glycosyl-diacylglycerol (-DAG) are suggested to be regulated to keep a certain membrane curvature close to a bilayer/nonbilayer phase transition. The monoglycosylDAGs are nonbilayer-prone with small headgroups, hence by themselves they will not form bilayer structures.</p><p>Here we have determined the genes encoding the main glycolipids of <i>A. laidlawii</i> and <i>S. pneumonie</i>. We have also shown that these GTs belong to a large enzyme group widely spread in Nature, and that all four enzymes are differently regulated by membrane lipids. The importance of different lipid properties were traced in a lipid mutant of <i>Escherichia coli</i> lacking the major (75 %), nonbilayer-prone/zwitterionic, lipid phosphatidylethanolamine. Introducing the genes for the GTs of <i>A. laidlawii</i> and two analogous genes from <i>A. thaliana</i> yielded new strains containing 50 percent of glyco-DAG lipids. The monoglyco-DAG strains contain significant amounts of nonbilayer-prone lipids while the diglyco-DAG strains contain no such lipids. Comparing these new strains for viability and the state of membrane-associated functions made it possible to connect different functions to certain lipid properties. In summary, a low surface charge density of anionic lipids is important in <i>E.coli</i> membranes, but this fails to be supportive if the diluting species have a too large headgroup. This indicates that a certain magnitude of the curvature stress is crucial for the membrane bilayer <i>in vivo</i>.</p>
14

Investigations on Glycolipid Production by Pseudomonas Putida grown on Toluene in Batch and Continuous Culture Conditions

Dockery, Keith Foorest 18 November 1994 (has links)
Utilization of toluene by Pseudomonas putida as its sole carbon and energy source affects morphology, outer membrane protein composition, and glycolipid production. Two strains of P. putida were found to utilize toluene and to coexist in continuous and batch culture. The two strains were designated translucent and opaque, based upon their readily identifiable coloration when grown on Luria agar. The translucent strain was the dominant strain in continuous culture conditions. The outer membrane proteins of P. putida were separated by sodium dodecyl sulphate polyacrylamide gel electrophoresis. When toluene is the carbon and energy source, the trend in protein composition was towards a general increase in concentration of lower molecular weight proteins (wt). A similar decrease occurred in the concentration of higher molecular weight proteins in the range of 70X104-9X104 mol wt. P. putida produces glycolipids when grown on toluene as a sole carbon and energy source. Three glycolipids have been isolated from chemostat and batch culture spent media, using thin layer chromatography on silica gel GF254· The glycolipids are believed to be previously reported mono- and di-rhamnolipids that function as biosurfactants. The release of glycolipid into the media is believed to function to emulsify toluene, aiding in toluene uptake.
15

Characterisation of a Mycobacterium smegmatis transposon mutant with defects in cell envelope mannolipid synthesis

Kovačević, Svetozar January 2002 (has links)
Abstract not available
16

Synthesis and protein curing abilities of membrane glycolipids

Wikström, Malin January 2006 (has links)
There are many types of membrane lipids throughout Nature. Still little is known about synthesizing pathways and how different lipids affect the embedded membrane proteins. The most common lipids are glycolipids since they dominate plant green tissue. Glycolipids also exist in mammal cells as well as in most Gram-positive bacteria. Glycosyltransferases (GTs) catalyze the final enzymatic steps for these glycolipids. In the bacteria Acholeplasma laidlawii and Streptococcus pneumonie and in the plant Arabidopsis thaliana, GTs for mono-/di-glycosyl-diacylglycerol (-DAG) are suggested to be regulated to keep a certain membrane curvature close to a bilayer/nonbilayer phase transition. The monoglycosylDAGs are nonbilayer-prone with small headgroups, hence by themselves they will not form bilayer structures. Here we have determined the genes encoding the main glycolipids of A. laidlawii and S. pneumonie. We have also shown that these GTs belong to a large enzyme group widely spread in Nature, and that all four enzymes are differently regulated by membrane lipids. The importance of different lipid properties were traced in a lipid mutant of Escherichia coli lacking the major (75 %), nonbilayer-prone/zwitterionic, lipid phosphatidylethanolamine. Introducing the genes for the GTs of A. laidlawii and two analogous genes from A. thaliana yielded new strains containing 50 percent of glyco-DAG lipids. The monoglyco-DAG strains contain significant amounts of nonbilayer-prone lipids while the diglyco-DAG strains contain no such lipids. Comparing these new strains for viability and the state of membrane-associated functions made it possible to connect different functions to certain lipid properties. In summary, a low surface charge density of anionic lipids is important in E.coli membranes, but this fails to be supportive if the diluting species have a too large headgroup. This indicates that a certain magnitude of the curvature stress is crucial for the membrane bilayer in vivo.
17

STRONG ANTIBODY REACTION AGAINST GLYCOSPHINGOLIPIDS INJECTED IN LIPOSOMEEMBEDDED FORMS IN β3GN-T5 KNOCKOUT MICE

FURUKAWA, KOICHI, KIKKAWA, KOJI, OKAJIMA, TETSUYA, NARIMATSU, HISASHI, TOGAYACHI, AKIRA, SHIBATA, KIYOSUMI, FURUKAWA, KEIKO, ZHANG, QING, UMEZU, TOMOKAZU, ANDO, REIKO, OHMI, YUHSUKE, TOKUDA, NORIYO, KONDO, YUJI, FAN, XIAOYAN 08 1900 (has links)
No description available.
18

Phospholipid membranes in biosensor applications : stability, activity and kinetics of reconstituted proteins and glycolipids in supported membranes /

Gustafson, Inga, January 2004 (has links)
Diss. (sammanfattning) Umeå : Univ., 2004. / Härtill 4 uppsatser.
19

Intradermal and Systemic Response of Immunized Mice to Mycobacterial Glycopeptidolipids

Duncan, Ulric D. (Ulric Dave) 08 1900 (has links)
Glycopeptidolipid (GPL) antigens isolated from Mycobacterium intracellulare were used to sensitize BALB/c mice. Primary footpad challenge of mice sensitized with GPL antigens suspended in phosphate buffered saline demonstrated an increased footpad swelling reaction.
20

Structural and Synthetic Studies of Bioactive Natural Products

Tang, Shoubin 14 April 2006 (has links)
As part of an ongoing investigation for anticancer agents from natural resources, four plant extracts were determined to contain interesting bioactivity. These extracts were separated by chromatography to afford a number of bioactive compounds that were characterized by spectral analysis. Fractionation of the fruit extract of Cryptocarya crassifolia led to the isolation of two known flavonoids and two known cryptocaryalactones. Fractionation of the bark extract of the same plant also gave the same two cryptocaryalactones. All these compounds were weakly active in a cytotoxicity assay. Two new isoflavones were isolated from the roots of an Egyptian lotus plant, Lotus polyphyllos. Both compounds were characterized by UV, NMR, and mass spectroscopic analysis The methanol extract from the leaves and bark of a Brexiella sp. were found to display significant cytotoxic activity versus the A2780 mammalian cell line. Two highly active cardenolides, glucodigimetholide and xysmalogenin glucoside, were isolated and found to be responsible for the bioactivities. Both compounds were characterized by spectroscopic analysis and comparison to the known literature data. Two marine extracts were also investigated. The pyridoacridine alkaloids, amphimedine and neoampimedine, were isolated from the marine sponge Petrosia sp., and three bromo-tyrosine alkaloids were isolated from the marine sponge Porphyria flintae. The structures of these known compounds were all elucidated by comparison to literature data. Two 6-amino-glycoglycerolipids had been previously isolated from a marine algae species and shown to inhibit the activity of the enzyme Myt-1 kinase. These compounds and some related compounds were synthesized and their bioactivities against Myt1 kinase were determined. Two isotopically labeled paclitaxel analogs (2D, 19F) were prepared in preparation for studies of the tubulin-binding conformation of paclitaxel by REDOR NMR. A new macrocyclic A-nor-paclitaxel was also synthesized, and was found to have good cytotoxicity and improved tubulin-binding activity as compared with paclitaxel. / Ph. D.

Page generated in 0.0485 seconds