Quantum Information Processing By NMR : Quantum State Discrimination, Hadamard Spectroscopy, Liouville Space Search, Use Of Geometric Phase For Gates And Algorithms

Gopinath, T

07 1900

The progess in NMRQIP can be outlined in to four parts.1) Implementation of theoretical protocols on small number of qubits. 2) Demonstration of QIP on various NMR systems. 3) Designing and implementing the algorithms for mixed initial states. 4) Developing the techniques for coherent and decoherent control on higher number(up to 15) of qubits. This thesis contains some efforts in the direction of first three points. Quantum-state discrimination has important applications in the context of quantum communication and quantum cryptography. One of the characteristic features of quantum mechanics is that it is impossible to devise a measurement that can distinguish nonorthogonal states perfectly. However, one can distinguish them with a finite probability by an appropriate measurement strategy. In Chapter 2, we describe the implementation of a theoretical protocol of programmable quantum-state discriminator, on a two-qubit NMR System. The projective measurement is simulated by adding two experiments. This device does the unambiguous discrimination of a pair of states of the data qubit that are symmetrically located about a fixed state. The device is used to discriminate both linearly polarized states and eillipitically polarized states. The maximum probability of successful discrimination is achieved by suitably preparing the ancilla quubit. The last step of any QIP protocol is the readout. In NMR-QIP the readout is done by using density matrix tomography. It was first proposed by Ernst and co-workers that a two-dimensional method can be used to correlate input and output states. This method uses an extra (aniclla) qubit, whose transitions indicate the quantum states of the remaining qubits. The 2D spectrum of ancilla qubit represent the input and output states along F1 and F2 dimensions respectively. However the 2D method requires several t1 increments to achieve the required spectral width and resolution in the indirect dimension, hence leads to large experimental time. In chapter 3, the conventional 2D NMRQIP method is speeded-up by using Hadamard spectroscopy. The Hadamard method is used to implement various two-, three-qubit gates and qutrit gates. We also use Hadamard spectroscopy for information storage under spatial encoding and to implement a parallel search algorithm. Various slices of water sample can be spatially encoded by using a multi-frequency pulse under the field gradient. Thus the information of each slice is projected to the frequency space. Each slice represents a classical bit, where excitation and no excitation corresponds to the binary values 0 and 1 respectively. However one has to do the experiment for each binary information, by synthesizing a suitable multi-frequency pulse. In this work we show that by recording the data obtained by various Hadamard encoded multi-frequency pulses, one can suitably decode it to obtain any birnary information, without doing further experiments. Geometric phases depend only on the geometry of the path executed in the projective Hilbert space, and are therefore resilient to certain types of errors. This leads to the possibility of an intrinsically fault-tolerant quantum computation. In liquid state NMRQIP. Controlled phase shift gates are achieved by using qubit selective pulses and J evolutions, and also by using geometir phases. In order to achieve higher number of qubits in NMR, one explores dipolar couplings which are larger in magnitude, yielding strongly coupled spectra. In such systems since the Hamiltonian consists of terms, it is difficult to apply qubit selective pulses. However such systems have been used for NMRQIP by considering 2n eigen states as basis states of an n-qubit system. In chapter 4, it is shown that non-adiabatic geometric phases can be used to implement controlled phase shift gates in strongly dipolar coupled systems. A detailed theoretical explanation of non-adiabatic geometric phases in NMR is given, by using single transition operators. Using such controlled phase shift gates, the implementation of Deutsch-Jozsa and parity algorithms are demonstrated. Search algorithms play an important role in the filed of information processing. Grovers quantum search algorithm achieves polynomial speed-up over the classical search algorithm. Bruschweiler proposed a Liouville space search algorithm which achieve polymonial speed-up. This algorithm requires a weakly coupled system with a mixed initial state. In chapter 5 we modified the Bruschweiler’s algorithm, so that it can be implemented on a weakly as well as strongly coupled system. The experiments are performed on a strongly dipolar coupled four-qubit system. The experiments from four spin-1/2 nuclei of a molecule oriented in a liquid crystal matrix. Chapter 6 describes the implementation of controlled phase shift gates on a quadrupolar spin-7/2 nucleus, using non-adiabatic geometric phases. The eight energy levels of spin-7/2 nucleus, form a three qubit system. A general procedure is given, for implementing a controlled phase shift gate on a system consisting of any number of energy levels. Finally Collin’s version of three-qubit DJ algorithm using multi-frequency pulses, is implemented in the spin-7/2 system.

Algorithm

Nuclear Magnetic Resonance

Quantum Theory

Quantum Information Processing

Quantum Algorithms

Hadamard NMR Spectroscopy

Liouville Space Search Algorithm

Quantum Computation

Non-Adiabatic Geometric Phases

Quantum State Discriminator

Quantum Gates

Parallel Search Algorithms

Dipolar Coupled Nuclear Spins

Deutsch-Jozsa Algorithm

Quantum Mechanics

Designed β-Hairpin, β-Sheet And Mixed α-β Structures In Synthetic Peptides

Das, Chittaranjan

10 1900

Synthetic construction of protein molecules has been widely pursued over the last two decades. A primary goal behind de novo protein design has been to build minimal systems by capturing the essential features of protein structures. Such minimal models can be used to understand underlying principles governing folding, structure, and function of proteins molecules. Several approaches envisioning successful construction of synthetic proteins have been described over the years, some of them being admirably successful (DeGrado et al, 1999; Richardson et al> 1992; Baltzer, 1998). Specific patterning of polar and apolar residues in synthetic sequences has been widely used to achieve designed polypeptide structures like helix bundles (DeGrado et ah, 1999) and (3-sheets (Smith and Regan, 1997; Lacroix et a/., 1998), with reliance on hydrophobic driving forces for folding. Our laboratory has been pursuing a distinctly alternative approach, that employs stereochemically constrained amino acids to generate specific secondary structures which can then be assembled into composite structures by appropriately chosen linking segments. This approach, which involves linking prefabricated modules of secondary structures can be termed as a "Meccano set" approach to protein design (Balaram, 1992). The studies embodied in the present thesis describe attempts at construction of synthetic polypeptide motifs using the stereochemically directing influence of conformationally constrained amino acid residues, such as DPro or Aib (α-aminoisobutyric acid). This thesis is subdivided into 8 chapters, with Chapter 1 providing a perspective of the field of protein design. Subsequent chapters (2-8) describe studies directed towards the specific goal of construction of polypeptide motifs. Chapter 2 describes synthesis and conformational characterization of two octapeptides Boc-Leu-Val-Val-DPro-LAla-Leu-Val-Val-OMe (1) and Boc-Leu-Val-Val-DPro-DAla-Leu-Val-Val-OMe (2), designed to investigate the effect of specific β-turn stereochemistry on β-hairpin structures. 500 MHz NMR studies establish that both peptides 1 and 2 adopt predominantly β-hairpin conformations in chloroform and methanol solutions, with interstrand registry established by observation of long-range nuclear Overhauser effects (NOEs). Specific NOEs provide evidence for a type II' β-turn conformation for the DPro-LAla segment in 1, while the NMR data suggest that a type I' DPro-DAla β-turn conformation predominates in the peptide 2. The crystal structure of 1 reveals two independent molecules in the crystallographic asymmetric unit, both of which adopt β-hairpin conformations nucleated by a type II’ β-turn across DPro-LAla and stabilized by 3 cross strand hydrogen bonds. These designed β-hairpins with defined tight turns produce characteristic vibrational circular dichroism (VCD) patterns, demonstrating the utility of VCD as a probe for conformational analysis of β-hairpins. In Chapter 3, we present conformational analysis on designed β-hairpin sequences incorporating a 'Phe-Phe' residue pair at a non-hydrogen bonding position. Two octapeptides Boc-Leu-Phe-Val-DPro-Gly-Leu-Phe-Val-OMe and Boc-Leu-Phe-Val-DPro-Ala-Leu-Phe-Val-OMe were synthesized and conformationally characterized by 500 MHz NMR spectroscopy. Specific NOEs observed in solution provide conclusive evidence favoring specific orientation effects pertaining to the 'Phe-Phe' pair. The peptides exhibited anomalous electronic CD, which has been explained in terms of aromatic contributions by the side chain chromophores. Interestingly, the VCD patterns obtained for these peptides were almost identical to those obtained for other β-hairpins, described in Chapter 2. Chapter 4 describes the synthesis and conformational analysis of designed decapeptide sequences with centrally located DPro-Xxx β-trun segments. Two sequences Boc-Met-Leu»Phe-Val'DPro-Ala-Leu-Val-Val-Phe-OMe (1) and Boc-Met-Leu-Val-Val-^ro-Gly-Leu-Val-Val-Phe-OMe (2) were designed to study the effect of chain length elongation, of β-strands, on designed β-hairpin structures. 500 MHz NMR studies establish β-hairpin folds in both these sequences, with strand segments aligned even at the termini of the structures. Multi-stranded, antiparallel β-sheet structures can be generated by successive placement of β-hairpin sequences in a single polypeptide chain. The successful construction of three stranded β-sheet structures is described in Chapter 5 of this dissertation. A 14-residue peptide Boc-Leu-Phe-Val-DPro-Gly-Leu-Val-Leu-Ala-DPro-Gly-Phe-Val-Leu-OMe (LFV14) was designed such that it is composed of three strand segments linked by two DPro-Gly turn segments. The peptide showed excellent solubility in apolar media, permitting detailed conformational analysis by 500 MHz NMR spectroscopy in organic solvents. Observation of long-range, interstrand NOEs, diagnostic of multiple hairpin structures, provides conclusive evidence for a predominantly populated three stranded β-sheet structure in solution. Extension of this strategy has been described in which an 18-residue peptide, Arg-Gly-Thr-Ile-Lys-DPro-Gly-Val-Thr-Phe-Ala-DPro-Ala-Thr-Lys-Tyr-Gly-Arg, was designed with enhanced solutility in water to probe (β-sheet structure formation in aqueous and mixed aqueous-methanol systems. NMR data provided conclusive evidence in favor of the desired structure being significantly populated in methanol and methanol-water mixtures (50 %, v/v). In water, spectroscopic evidence suggests that the long-range order expected of a three-stranded structure is lost, possibly due to water invading the interstrand hydrogen bonds. Successful construction of a four-stranded antiparallel β-sheet structure has been demonstrated in Chapter 6. A 26-residue peptide Arg-Gly-Thr-Ile-Lys»DPro-Gly-Ile-Thr- Phe-Ala-DPro-Ala-Thr-Val-Leu-Phe-Ala-Val-DPro-Gly-Lys-Thr-Leu-Tyr-Arg was designed to have four strand segments linked by three DPro-Xxx turn segments. The peptide exhibited excellent NMR properties permitting structure determination by analysis of NOE data, which revealed that a four stranded β-sheet structure is indeed populated in methanol. Structural studies on this peptide in mixed methanol-water established that the four stranded β-sheet is appreciably populated at a composition of 50 % (v/v) methanol-water mixture, with the β-sheet structure still detectable even at a composition of 70 % water-30 % methanol. In a completely aqueous environment, the β-sheet structures is significantly disrupted, presumably due to solvent invasion. The nucleating β-turns, however, appear to have retained their structural integrity even in this competitive environment. Chapter 7 describes the insertion of L-Lactic acid (Lac), a hydroxy acid, into polypeptide helices stabilized by a-aminoisobutyricacid (Aib). This study was undertaken to investigate the effect of hydrogen bond deletion on peptide helices. Crystal structure determination of three oligopeptides containing Lac residues has been performed. Peptide 1, Boc-Val-Ala-Leu-Aib-Val-Lac-Leu-Aib-Val-Ala-Leu-OMe, and peptide 2, Boc-Val-Ala-Leu-Aib-Val-Lac-Leu-Aib-Val-Leu-OMe adopt completely helical conformations in the crystalline state, with the Lac(6) residue comfortably accommodated in the center of a helix. NMR studies of peptide 1 and its all amide analog 4, Boc-Val-Ala-Leu-Aib-Val-Ala-Leu-Aib-Val-Ala-Leu-OMe, provide firm evidence for a continuous helical segment in both the cases. In a 14-residue peptide 3, Boc-Val-Ala-Leu-Aib- Val- Ala-Leu- Val- Ala-Leu- Aib-Val-Lac-Leu-OMe, residues Val( 1 )-Leu( 10) adopt a helical conformation, which is terminated by formation of a Schellman motif, with Aib(ll) as the site of chiral reversal. The loss of the hydrogen bond at the C-terminus appears to facilitate the chiral reversal at Aib(l 1). In the final section of this thesis, Chapter 8, successful construction of a synthetic motif containing two distinct elements of secondary structure, a (β-hairpin and a helix, has been described. The design of a 17-residue peptide Boc-Val-Ala-Leu-Aib-Val-Ala-Leu-Gly-Gly-Leu-Phe-Val-DPro-Gly-Leu-Phe-Val-OMe, BH17, is based on a modular approach, in which previously characterized β-hairpin (Leu-Phe-Val-DPro-Gly-Leu-Phe-Val) and helix (Val-Ala-Leu-Aib-Val-Ala-Leu) modules are linked by a Gly-Gly linker. The positioning of the achiral Gly residue at position 8 facilitates termination of the potential helical segment (residues 1-7) by formation of a Schellman motif. Gly(9) is anticipated to be the sole conformationally flexible residue. NMR studies on BH17 indicated the presence of both the helix (residues 1-7) and the β-hairpin (residues 10-17) structures in the sequence, with four major conformational possibilities at the linking segment. Crystal structure determination of BH17 revealed that the two elements of structure are approximately arranged in an orthogonal fashion. The crystal structure validates the original premise that a modular assembly strategy may be viable for the construction of larger synthetic structures. Chapter 9 summarises the major results of this thesis. (For formulae, please refer "pdf" format)

Biochemistry

β-Sheet

β-Hairpins

Synthetic Polypeptide

Synthetic Peptide

Protein Design

Beta Hairpins

Beta Sheet

Designed Peptides

Ramachandran Map

Peptide Helices

de novo Protein Design

Polypeptide Motifs

NMR Spectroscopy

Circular Dichroism

Electrosynthesis and characterization of thin copolymer films based on pyrrole and thiophene derivatives / Elektrosynthese and Charakterisierung dünner Copolymerfilme auf Basis von Pyrrol- and Thiophenderivaten

Dang, Xuan Dung

08 August 2005

Die Copolymerisation wurde mit dem Ziel untersucht, polymere Materialien zu synthetisieren, die die individuellen Eigenschaften der entsprechenden Homopolymere kombinieren. Die Dissertation konzentrierte sich auf die Elektrosynthese und Charakterisierung von leitfähigen Copolymerfilmen auf Basis von Pyrrol- und Thiophenderivaten. Mit einer Reihe von elektrochemischen, spektroskopischen und mikroskopischen Untersuchungsmethoden (Zyklovoltammetrie, elektrochemische Impedanz-spektroskopie, photoelektrochemische Spektroskopie, Elektrospray- Ionisations-Massenspektroskopie, Festkörper- NMR, Raman-Spektroskopie, Thermoanalyse und Rasterelektronenmikroskopie) wurde die Bildung echter Copolymere von Pyrrol mit Bithiophen und von 3-Methylthiophen mit Ethyl-3-thiophenazetat nachgewiesen. Die analytischen Ergebnisse bestätigen, dass Random- Copolymere und keine Block-Copolymere gebildet wurden. Die elektronischen und strukturellen Eigenschaften der Copolymerfilme liegen zwischen denen der jeweiligen Homopolymere und sind abhängig von der Copolymerzusammensetzung. Insbesondere die Halbleiterparameter der Copolymerfilme von Pyrrol mit Bithiophen wie Flachband-Potential, Bandlücken-Energie und Ladungsträgerdichte verschieben sich von denen des reinen Polypyrrols bis zum Polybithiophen, wenn der Gehalt an Bithiophen im Copolymerfilm vergrößert wird. Diese Parameter sind einstellbar durch Variation des Monomerverhältnisses oder des Polymerisationspotentials. Außerdem konnten die strukturellen und elektronischen Eigenschaften des funktionalisierten Polymers Ethyl-3-thiophenazetat durch Copolymerisation mit 3-Methylthiophen deutlich verbessert werden. Die synthetisierten leitfähigen Copolymerfilme können in der Sensorik Anwendung finden. / The copolymerization has been studied as a new strategy to synthesize polymer materials by combining interesting properties of the respective homopolymers. In this dissertation, the work focused on the electrosynthesis and characterization of conducting copolymer films based on pyrrole and thiophene derivatives. A variety of electrochemical, spectroscopic and microscopic techniques such as cyclic voltammetry, electrochemical impedance and photoelectrochemical spectroscopy, electrospray ionization mass spectroscopy, solid state NMR and Raman spectroscopy, thermal analysis and scanning electron microscopy supported the formation of true copolymers of pyrrole with bithiophene and 3-methylthiophene with ethyl-3-thiophene acetate. The analytical results exhibited that random copolymers were produced rather than block copolymers. The electronic and structural characteristics of the copolymer films were intermediate between those of the respective homopolymers and they were dependent on the copolymer composition. In particular, the semiconducting parameters of the copolymer films of pyrrole and bithiophene such as flat band potential, band gap energy and charge carrier density shifted from those of polypyrrole to polybithiophene with increasing bithiophene content of the copolymer films. Such parameters were controlled precisely by alternating either the monomer ratio or the polymerization potential. In addition, the morphological and electronic properties of the functionalized polymers of ethyl-3-thiophene acetate were increased significantly by copolymerization with 3-methylthiophene. The obtained conducting copolymer films were able to be applied in the field of sensoric.

Festkörper- NMR

-Spektroskopie

Organische Halbleiter

Polypyrrol

Polythiophen

leifähige Polymere

conductive polymers

organic semiconductors

polypyrrole

polythiophene

solid state NMR spectroscopy

ddc:540

rvk:VK 8007

Festkörper-NMR-Spektroskopie

Leitfähige Polymere

Organischer Halbleiter

Polypyrrole

Polythiophene

Dynamics and interactions of the voltage-dependent anion channel 1 studied by NMR spectroscopy / Untersuchung von Dynamik und Interaktionen des spannungsabhängigen Anionenkanals 1 mithilfe von NMR-Spektroskopie

Villinger, Saskia

21 February 2012

No description available.

500 Naturwissenschaften

RRA 300

SXL 000

WCC 000

Biology (incl. Psychology)

Membranproteine

NMR-Spektroskopie

Dynamik

Interaktionen

ATP

Calcium

Struktur

membrane proteins

NMR spectroscopy

dynamics

interactions

ATP

calcium

structure

35.25

35.62

42.12

NMR structural studies on the periplasmic domain of CitA and DcuS. / Strukturuntersuchungen an der periplasmatischen Domäne von CitA und DcuS mit NMR-Spektroskopie

Vijayan, Vinesh

03 May 2007

No description available.

540 Chemie

Mathematics and Computer Science

NMR-Spektroskopie

Protein Strukturuntersuchung

DcuS

CitA

PAS domäne

RDC

Pulssequenz

NMR-Spectroscopy

Protein structural studies

DcuS

CitA

PAS domaine

RDC

Pulse sequence

35.25

S

Versuche zur Erzeugung des Pentacyclopropylcyclopentadienyl-Kations, und Synthese von Cyclopropylierten Oligoenen, Carbo- und Heterocyclen / Attempts to the Generation of the Pentacyclopropylcyclopentadienyl Cation, and Synthesis of Cyclopropylated Oligoenes, Carbo- and Heterocycles

Redlich, Stefan

02 November 2004

No description available.

540 Chemie

Mathematics and Computer Science

Carbokationen

Kohlenwasserstoffe

Cyclopentadiene

Heterocyclen

NMR-Spektroskopie >

carbocations

hydrocarbons

cyclopentadienes

heterocycles

NMR-spectroscopy

35.52

35.60

35.69

Rapid Determination of Protein Structures in Solution Using NMR Dipolar Couplings / Schneller Proteinstrukturbestimmung in Lösung mittels NMR detektierter dipolarer Kopplungen

Jung, Young-Sang

26 January 2005

No description available.

500 Naturwissenschaften allgemein

Mathematics and Computer Science

NMR-Spektoskopie

automatische verfahren

genomik

proteinstrukturen

Signalzuordnung

NMR spectroscopy

automated techniques

genomics

protein structures

resonance assignment

42.12

Rapid Determination of High-Resolution Protein Structures by Solution and Solid-state NMR Spectroscopy / Beschleunigung der Bestimmung von hochaufgelösten Lösungs- und Festkörper-NMR Strukturen

Korukottu, Jegannath

22 January 2008

No description available.

530 Physik

RRA 300

Mathematics and Natural Science

Lösungs

NMR-Spektroskopie

Proteinen Strukture

Festkörper

Kaliotoxin

Kaliumkanal

Proteinstrukturbestimmung

Liquid-state

NMR Spectroscopy

Protein Structures

Solid-state

Kaliotoxin

Potassium channel

protein structure determination

42.12 Biophysik

Study of the diffusion in polymer solutions and hydrogels by NMR spectroscopy and NMR imaging

Wang, Yu Juan

11 1900

Afin d'étudier la diffusion et la libération de molécules de tailles inférieures dans un gel polymère, les coefficients d'auto-diffusion d'une série de polymères en étoile avec un noyau d'acide cholique et quatre branches de poly(éthylène glycol) (PEG) ont été déterminés par spectroscopie RMN à gradient de champ pulsé dans des solutions aqueuses et des gels de poly(alcool vinylique). Les coefficients de diffusion obtenus ont été comparés avec ceux des PEGs linéaires et dendritiques pour étudier l'effet de l'architecture des polymères. Les polymères en étoile amphiphiles ont des profils de diffusion en fonction de la concentration similaires à leurs homologues linéaires dans le régime dilué. Ils diffusent plus lentement dans le régime semi-dilué en raison de leur noyau hydrophobe. Leurs conformations en solution ont été étudiées par des mesures de temps de relaxation spin-réseau T1 du noyau et des branches. L'imagerie RMN a été utilisée pour étudier le gonflement des comprimés polymères et la diffusion dans la matrice polymère. Les comprimés étaient constitués d'amidon à haute teneur en amylose et chargés avec de l'acétaminophène (de 10 à 40% en poids). Le gonflement des comprimés, ainsi que l'absorption et la diffusion de l'eau, augmentent avec la teneur en médicament, tandis que le pourcentage de libération du médicament est similaire pour tous les comprimés. Le gonflement in vitro des comprimés d'un complexe polyélectrolyte à base d'amidon carboxyméthylé et de chitosane a également été étudié par imagerie RMN. Ces comprimés sont sensibles au pH : ils gonflent beaucoup plus dans les milieux acides que dans les milieux neutres en raison de la dissociation des deux composants et de la protonation des chaînes du chitosane. La comparaison des résultats avec ceux d'amidon à haute teneur en amylose indique que les deux matrices ont des gonflements et des profils de libération du médicament semblables dans les milieux neutres, alors que les comprimés complexes gonflent plus dans les milieux acides en raison de la dissociation du chitosane et de l'amidon. / In an effort to study the diffusion and release of small molecules in a polymeric system, the self-diffusion coefficients of a series of star polymers with a cholic acid core bearing four poly(ethylene glycol) (PEG) arms in aqueous solutions and gels of poly(vinyl alcohol) were determined by pulsed gradient spin-echo NMR techniques. The results have been compared with those of linear and dendritic PEGs to elucidate the effect of the architecture of the polymers. The amphiphilic star polymers show similar concentration-dependent diffusion behaviors in the dilute regime to their linear homologues. They diffuse more slowly in the semi-dilute regime than the linear PEGs due to the presence of the hydrophobic core. The conformation of the star polymers in the solutions was studied by measuring the T1 values of the core and the arms of the diffusants. NMR imaging was used to study the swelling of polymeric tablets and diffusion in the polymer matrix. The tablets investigated were made of cross-linked high amylose starch (CHAS) and loaded with acetaminophen (10, 20 and 40 wt%). The swelling, water uptake and diffusion in the CHAS network are faster at higher drug loading levels, while the drug release rates are similar among all the tablets. The in vitro swelling of the tablets made of a polyelectrolyte complex based on chitosan and carboxymethylated starch has also been studied by NMR imaging. These tablets showed pH-sensitive behavior. They swelled much more in acidic media than in neutral media due to dissociation of the two components and the protonation of the amino groups in the chitosan residues. The comparison of the results with those obtained with the CHAS tablets indicates that the two matrices have similar swelling and drug release profile in neutral media, while the complex tablets showed a greater extent of swelling in acidic media due the dissociation of the chitosan from the complex.

Pulsed gradient NMR spectroscopy

NMR imaging

Self-diffusion coefficients

Star polymer

Chitosan

RMN à gradient de champ pulsé

Imagerie RMN

Coefficients d'auto-diffusion

Polymère en étoile

Amidon à haute teneur en amylose

Chitosane

Enzymatisch vernetzte Caseine – Struktur und Anwendungspotential

Heber, Alexander

01 April 2014

Im Rahmen dieser Arbeit ist es durch die kombinierte Anwendung von P-31 Flüssigkeits (HR)- NMR-Spektroskopie sowie dynamischer Lichtstreuung (DLS) gelungen, die supramolekulare Struktur von mizellarem Casein aus ultrahocherhitzter (UHT) Milch unter dem Einfluss einer enzymatischen Vernetzung mittels mikrobieller Transglutaminase (mTG) zu charakterisieren. Die P-31 HR NMR-Spektroskopie erweist sich dabei als hervorragende Methode, um sowohl den Einbau von Casein aus dem Milchserum in die mizellaren Aggregate durch die enzymatische Reaktion als auch die bevorzugte mTG Vernetzung des beta-Caseins nachzuweisen. Durch die Kombination von P-31 HR NMR-Spektroskopie und Messungen der dynamischen Lichtstreuung war es weiterhin möglich, das Vorliegen vernetzter Caseinaggregate in Dispersionen mTG-behandelter Caseine zu belegen und besonders den Anteil an nicht vernetztem Casein „sichtbar“ zu machen, der durch EDTA-Zugabe aus den mTG-vernetzten Caseinnetzwerken freigesetzt wird. Es zeigt sich, dass die Caseinnetzwerke nach der EDTA-Behandlung eine geringere Proteindichte als mizellares Casein aufweisen, da sie nur ca. 20 % des Serinphosphats des mizellaren Caseins enthalten. P-31 Festkörper-NMR-spektroskopische Messungen legen außerdem nahe, dass die Beweglichkeit des phosphorylierten Ser149-Restes des kappa-Caseins in der äußeren Schicht der mizellaren Caseinaggregate durch die mTG-Behandlung nicht wesentlich verändert wird. Um die erhaltenen Caseinnetzwerke im Hinblick auf ihr Anwendungspotential zu untersuchen, wurden sie als Proteinkomponente bei der biomimetischen Calciumphosphatfällung sowie als Trägerstrukturen für bioaktives Lysozym verwendet. Durch den Einsatz von Caseinnetzwerken als Fällungsmedium während der Präzipitation von Calciumphosphat (CaP) ist es gelungen, eine hydratisierte, apatitische Phase zu stabilisieren, die sowohl ungeordnete als auch kristalline Bereiche enthält und damit strukturelle Ähnlichkeit zu biologisch und besonders biomimetisch gebildetem Apatit besitzt. Die in den Präzipitaten ebenfalls vorhandenen Phosphoratome in einer relativ ungeordneten OCP (Octacalciumphosphat)-ähnlichen Umgebung stehen höchstwahrscheinlich mit der apatitischen Phase in räumlich engem Kontakt und sind damit entweder Bestandteil dieser Phase oder befinden sich in einer getrennten Phase, die jedoch mit der apatitischen Phase in Form eines Nanokomposits mit sehr kleinen, eng benachbarten Kristalliten vorliegt. Bei der Fällung des Caseinnetzwerk/CaP-Präzipitats wird ebenfalls eine Dicalciumphosphat-Dihydrat (DCPD)-Phase gebildet. Diese ist separiert von den anderen CaP-Phasen und tritt in wesentlich geringerem Maße auf als in einem reinen CaP-Präzipitat, das ohne Proteinkomponente gefällt wurde. Damit konnte gezeigt werden, dass unter Bedingungen, bei denen ohne Proteinkomponente größtenteils DCPD entsteht, die Caseinnetzwerke eine apatitische Phase stabilisieren, die strukturelle Ähnlichkeit zu biologisch und biomimetisch gebildetem Apatit aufweist. Die qualitativ gleichen Ergebnisse konnten für vergleichsweise untersuchtes unvernetztes Casein gefunden werden. Die Caseinnetzwerke zeigen jedoch in Bezug auf die apatitische Phase einen stärkeren Stabilisierungseffekt als unvernetztes Casein. Es ist denkbar, dass dies unter anderem darauf zurückzuführen ist, dass die Phosphatzentren in den Caseinnetzwerken im Gegensatz zu Casein frei von CaP-Brücken sind, da diese durch die EDTA-Behandlung entfernt wurden. Da die Caseinnetzwerke zudem eine geringere Proteindichte und damit eine höhere „Porosität“ als die mizellaren Caseinaggregate aufweisen, kann sich die apatitische Phase möglicherweise auch innerhalb der Netzwerke bilden, während dies für die mizellaren Caseinaggregate wahrscheinlich nur begrenzt möglich ist. In der vorliegenden Arbeit konnte ebenfalls gezeigt werden, dass sich Caseinnetzwerke grundsätzlich als Transportsysteme für Lysozym eignen, da sie eine hohe Stabilität aufweisen und erfolgreich mit Lysozym beladen werden können. Während die Assoziation von Lysozym mit mizellaren Caseinaggregaten, die aus UHT-Milch gewonnenen wurden, zu einem fast vollständigen Verlust der Lysozymaktivität führt, bleibt die Aktivität des Enzyms bei der Bindung an Caseinnetzwerke erhalten. Das Anwendungspotential der Caseinnetzwerk/Lysozym-Assoziate wurde im Rahmen von zahnmedizinischen Versuchen in vitro und in situ untersucht. Es konnte nachgewiesen werden, dass die Caseinnetzwerk/Lysozym-Assoziate in vitro eine dauerhafte Immobilisierung des Lysozyms in der in situ gebildeten Pellikel bewirken. Eine deutliche Anreicherung des Enzyms in situ wird mithilfe der Caseinnetzwerke allerdings nicht beobachtet. Dies könnte darin begründet sein, dass die im Vergleich zu den in vitro vorgefundenen Verhältnissen deutlich komplexeren Bedingungen in situ zu einem selektiveren Anreicherungsprozess von Enzymen in der Pellikel führen.

P-31 NMR-Spektroskopie

Casein

mTG-Behandlung

Vernetzung

Calciumphosphat

Biomimetik

Trägerstruktur

Lysozym

P-31 NMR spectroscopy

Casein

mTG-treatment

Cross-linking

Calcium phosphate

Biomimetics

Carrier structure

Lysozyme

ddc:540

rvk: VG 9507