Nanosim: A Simulation Framework For Nanoscale Molecular Communication Networks

Gul, Ertan

01 June 2010

A number of nanomachines that cooperatively communicate and share information in order to achieve specific tasks is envisioned as a nanonetwork. Due to size and capabilities of nanomachines, the traditional communication paradigms cannot be used for nanonetworks in which network nodes may be composed of just several atoms or molecules and scale on the orders of few nanometers. Instead, the molecular communication is a promising solution approach for nanoscale communication paradigm. However, molecular communication must be thoroughly investigated to realize the nanoscale communication and nanonetworks for many envisioned applications such as nanoscale body area networks, nanoscale molecular computers. In this thesis, a simulation framework (NanoSim) for nanoscale molecular communication networks is presented. The objective of the framework is to provide a simulation experimental tool in order to create a better understanding of nanonetworks and facilitate the development of new communication techniques and validation of theoretical results. The NanoSim framework is built on top of core components of widely used network simulator (ns-2). It incorporates the simulation modules for various nanoscale communication paradigms based on diffusive molecular, motor-based and gap junction-based molecular communication channels. The details of NanoSim are discussed and some functional scenarios are defined to validate NanoSim. In addition to this, the numerical analyses of these functional scenarios and the experimental results for them are presented. The validation of NanoSim is done by comparing these experimental and numerical results.

Estudos estruturais de DM43: Um inibidor de metaloprotease de veneno de serpente extraído do soro do gambá Didelphis marsupialis. / Structural studies of DM43: a snake venom metalloprotease inhibitor extracted from Didelphis marsupialis opossum serum.

Makino, Débora Lika

26 June 2000

A resistência natural do gambá Didelphis marsupialis ao veneno de serpentes se deve a fatores antibiotrópicos presentes em seu soro, do qual DM43 é um dos responsáveis pela inibição da atividade hemorrágica. Com o objetivo de entender melhor o mecanismo de ação desta proteína contra a metaloprotease contida no veneno pretendeu-se, neste trabalho, otimizar as condições de cristalização de DM43, na tentativa de determinar sua estrutura por difração de raios-X. Ensaios de cristalização revelaram que o sulfato de amônio é o precipitante mais eficiente na produção de cristais de DM43. A visualização e indexação dos padrões de difração destes cristais permitiram apenas a determinação dos parâmetros de sua cela unitária, devido a baixa qualidade dos mesmos. Deste modo, os seguintes parâmetros de cela unitária foram encontrados: a = b = 117.34 (0.03) Å, c = 193.39 (0.02)Å, ?=?=90° e ? = 120°, correspondentes ao sistema cristalino trigonal ou hexagonal. A recente determinação da sequência de aminoácidos de DM43, possibilitou modelar sua estrutura tridimensional por homologia utilizando o método de satisfação das restrições espaciais. Os três domínios tipo imunoglobulina de DM43 foram modelados em duas partes a partir da estrutura de referência KIR2DL1(1nkr) homóloga a dois domínios C-terminais de DM43, com apenas 27.72% de identidade. O domínio N-terminal denominado D0, foi modelado separadamente contra o domínio C-terminal de KIR2DL1 com um grau de identidade igual a 28.89%. A partir do programa GRASP e PATCHES, foram detectadas as prováveis regiões de ligação entre as duas partes da molécula e uma possível região responsável pela dimerização no domínio D2 de DM43. Interessantemente, resíduos polares em KIR2DLs que foram substituídos por hidrofóbicos em DM43, concentrando-se em uma face do domínio D2 ausente de sítios de glicosilação, o que coincide com as observações de dimerização do receptor do hormônio de crescimento. Um motivo estrutural característico de receptores hematopoiéticos identificados como WSXWS box, foi encontrado em todos os domínios de DM43, especialmente no domínio D2. Supõe-se que a sua existência esteja relacionada com a orientação relativa dos domínios por manter o primeiro triptofano do motivo posicionado exatamente na interface entre os domínios. Surge ainda uma fita extra (F´), no domínio D2, não pertencente ao enovelamento imunoglobulina devido a presença da Pro273, muito bem conservada, a três resíduos do motivo WSXWS. Esta fita parece desempenhar um papel importante na orientação do motivo pois além de formar ligações de hidrogênio com a fita G do domínio anterior, posiciona corretamente o primeiro triptofano do motivo na interface. Somando-se a isto, a presença de resíduos hidrofóbicos na interface dos domínios D1 e D2pode estar contribuindo para a orientação angular relativa menor que 90° entre os dois domínios. Uma interpretação análoga a de hormônios de crescimento sugere que, os loops entre as fitas AB, CC´ e EF do domínio 1, BC e FG do domínio 2 e o linker entre estes dois domínios, estejam envolvidos na interação da metaloprotease com DM43. / The natural resistance of the opossum, Didelphis marsupialis, towards snake venom is due to antibothropic factors present in the blood serum, of which DM43 is one. It is responsible for the inhibition of the hemorrhagic activity of the venom. With a view to better understanding the mechanism of action of this protein against venom metalloproteases, one of the aims of the present work was to optimize the crystallization conditions of DM43 in order to determine its three-dimensional structure by X-ray diffraction. Crystallization trials revealed that ammonium sulphate was the best precipitant. Visualization and indexing of the diffraction patterns from such crystals only allowed for the determination of the unit cell parameters due to their inherently low quality. The values obtained were a = b = 117.34 (0.03) \'ANGSTRON\', c = 193.39 (0.02) Å, ?=?= 90° e ? = 120°, corresponding to the trigonal or hexagonal crystal systems. The recent determination of the amino acid sequence of DM43 permitted the homology modelling of its three-dimensional structure by satisfaction of spatial restraints. The three immunoglobulin-like domains of DM43 were modelled in two separate parts from the reference structure KIR2DL1 (1nkr), homologous to the two C-terminal domains of DM43, with which its shares 27.72% sequence identity. The N-terminal domain, denominated D0, was separately modelled based on the C-terminal domain of KIR2DL1, with which it shares 28.89% identity. The programs PATCHES and GRASP were used to detect the probable interface region between the two separate parts of the molecule as well as a region probably responsible for dimerisation. Polar residues in KIR2DL1 which had been substituted by hydrophobic residues in DM43 are observed concentrated on one face of the molecule devoid of glycosilation sites (D2) coinciding with the dimerisation interface observed in the growth hormone receptor. A structural motif characteristic of the haematopoetic receptor family, identified as the WSXWS box, was observed to some extent in all three domains of DM43 and most evident in domain D2. It is speculated that the existence of this motif is related to the relative orientation of the domains, by maintaining the first tryptophan of the motif positioned at the domain interface. An additional ?-strand (F) in D2, which is not characteristic of the immunoglobulin fold, is observed due to the presence of the conserved Pro273, three-residues prior to the WSXWS box. This strand appears to play an important role in correctly positioning the motif as it forms hydrogen bonds with strand G of the previous domain thus orientating the first tryptophan of the motif at the interface. The presence of hydrophobic residues at the interdomain interface, may also contribute to stabilizing the acute angular relationship between D1 and D2. An analogous interpretation to that given for the growth hormone receptor, suggests that the loops between ?-strands AB, CC\' and EF of domain D1 and between strands BC and FG do domain D2 plus the linker region, are involved in the binding of metalloproteinase by DM43.

DM43

DM43

Glicoproteína

Glycoprotein

Homology-based molecular modeling

Inibidor de metaloprotease

Metalloprotease inhibitor

Modelagem molecular por homologia

An acyl hydrazone based molecular walker and light driven molecular shuttles

Yasar, Fatma

January 2017

The work described in this thesis is inspired by natural-occurring molecules that are used throughout biology to perform specific, highly-selective tasks. This thesis illustrates the design, synthesis and investigation of novel molecular devices based on acyl hydrazones for the synthesis of a small molecule walker and light-driven molecular shuttles. Chapter One outlines a general overview of the design and synthesis of molecular devices, including molecular walkers and molecular shuttles. Some of the most important examples of walking molecules (both natural and synthetic) are described in detail, along with a comprehensive introduction of molecular shuttles and their synthetic mimics. Examples of stimuli-responsive molecular shuttles that have been developed are highlighted throughout the chapter. Chapter Two describes the design and synthetic progress towards a molecular walker, as well as detailing the optimisation of the synthetic steps achieved thus far. In this chapter, most of the work presented is based on the design and optimisation of the synthesis of an acyl hydrazone-based molecular walker, which will be able to walk directionally and repetitively along its conjugate track when the conditions are changed. A novel acyl hydrazone pyridine moiety is introduced to the system to achieve a high directional bias during the walking process. First, the concept and basis of the design is explained and further, the synthesis of the walker system is discussed in detail. Chapter Three illustrates the synthesis and operation of 1- and 2- station [2]-rotaxanes which exhibit all the requirements for a light-driven molecular shuttle. The effect of a new photo switchable binding station, an acyl pyridyl hydrazone, on the shuttling process is investigated by comparing the positional distribution of the macrocycle between the acyl hydrazone station and the succinamide-ester station, while the acyl hydrazone undergoes photo- and thermal isomerisation. The successful synthesis of this molecular architecture is described along with its operation, demonstrating high positional integrity and efficiency during the shuttling process.

540

First Principles Studies of Carbon Based Molecular Materials

Gao, Bin

January 2008

The aim of this thesis was to investigate carbon based molecular materials at first principles levels. Special attention has been paid to simulations of X-ray spectroscopies, including near edge X-ray absorption fine structure (NEXAFS), X-ray photoelectron, and X-ray emission spectroscopy, which can provide detailed information about core, occupied and unoccupied molecular orbitals of the systems under investigation. Theoretical calculations have helped to assign fine spectral structures in high resolution NEXAFS spectra of five azabenzenes (pyridine, pyrazine, pyrimidine, pyridazine and s-triazine), and to identify different local chemical environments among them. With the help of NEXAFS, the characters of important chemical bonds that might be responsible for the unique magnetic properties of the tetracyanoethylene compound has been revealed. Calculations have demonstrated that X-ray spectroscopies are powerful tools for isomer identification and structure determination of fullerenes and endohedral metallofullerenes. A joint experimental and theoretical study on metallofullerene Gd@C82 has firmly determined its equilibrium structure, in which the gadolinium atom lies above the hexagon on the C2 axis. It is found that the gadolinium atom could oscillate around its equilibrium position and that its oscillation amplitude increases with increasing temperature. In this thesis, several new computational schemes for large-scale systems have been proposed. Parallel implementation of a central insertion scheme (CIS) has been realized, which allows to effectively calculate electronic structures of very large systems, up to 150,000 electrons, at hybrid density functional theory levels. In comparison with traditional computational methods, CIS provides results with the same high accuracy but requires only a fraction of computational time. One of its applications is to calculate electronic structures of nanodiamond clusters varying from 0.76 nm (29 carbons) to 7.3 nm (20,959 carbons) in diameter, which enabled to resolve the long-standing debate about the validity of the quantum confinement model for nanodiamonds. Electronic structures and X-ray spectroscopies of a series of single-walled carbon nanotubes (SWCNTs) with different diameters and lengths have been calculated, which have made it possible to interpret the existing experimental results. / QC 20100727

first principles simulations

carbon based molecular materials

X-ray spectroscopies

Theoretical chemistry

Teoretisk kemi

Estudos estruturais de DM43: Um inibidor de metaloprotease de veneno de serpente extraído do soro do gambá Didelphis marsupialis. / Structural studies of DM43: a snake venom metalloprotease inhibitor extracted from Didelphis marsupialis opossum serum.

Débora Lika Makino

26 June 2000

A resistência natural do gambá Didelphis marsupialis ao veneno de serpentes se deve a fatores antibiotrópicos presentes em seu soro, do qual DM43 é um dos responsáveis pela inibição da atividade hemorrágica. Com o objetivo de entender melhor o mecanismo de ação desta proteína contra a metaloprotease contida no veneno pretendeu-se, neste trabalho, otimizar as condições de cristalização de DM43, na tentativa de determinar sua estrutura por difração de raios-X. Ensaios de cristalização revelaram que o sulfato de amônio é o precipitante mais eficiente na produção de cristais de DM43. A visualização e indexação dos padrões de difração destes cristais permitiram apenas a determinação dos parâmetros de sua cela unitária, devido a baixa qualidade dos mesmos. Deste modo, os seguintes parâmetros de cela unitária foram encontrados: a = b = 117.34 (0.03) Å, c = 193.39 (0.02)Å, ?=?=90° e ? = 120°, correspondentes ao sistema cristalino trigonal ou hexagonal. A recente determinação da sequência de aminoácidos de DM43, possibilitou modelar sua estrutura tridimensional por homologia utilizando o método de satisfação das restrições espaciais. Os três domínios tipo imunoglobulina de DM43 foram modelados em duas partes a partir da estrutura de referência KIR2DL1(1nkr) homóloga a dois domínios C-terminais de DM43, com apenas 27.72% de identidade. O domínio N-terminal denominado D0, foi modelado separadamente contra o domínio C-terminal de KIR2DL1 com um grau de identidade igual a 28.89%. A partir do programa GRASP e PATCHES, foram detectadas as prováveis regiões de ligação entre as duas partes da molécula e uma possível região responsável pela dimerização no domínio D2 de DM43. Interessantemente, resíduos polares em KIR2DLs que foram substituídos por hidrofóbicos em DM43, concentrando-se em uma face do domínio D2 ausente de sítios de glicosilação, o que coincide com as observações de dimerização do receptor do hormônio de crescimento. Um motivo estrutural característico de receptores hematopoiéticos identificados como WSXWS box, foi encontrado em todos os domínios de DM43, especialmente no domínio D2. Supõe-se que a sua existência esteja relacionada com a orientação relativa dos domínios por manter o primeiro triptofano do motivo posicionado exatamente na interface entre os domínios. Surge ainda uma fita extra (F´), no domínio D2, não pertencente ao enovelamento imunoglobulina devido a presença da Pro273, muito bem conservada, a três resíduos do motivo WSXWS. Esta fita parece desempenhar um papel importante na orientação do motivo pois além de formar ligações de hidrogênio com a fita G do domínio anterior, posiciona corretamente o primeiro triptofano do motivo na interface. Somando-se a isto, a presença de resíduos hidrofóbicos na interface dos domínios D1 e D2pode estar contribuindo para a orientação angular relativa menor que 90° entre os dois domínios. Uma interpretação análoga a de hormônios de crescimento sugere que, os loops entre as fitas AB, CC´ e EF do domínio 1, BC e FG do domínio 2 e o linker entre estes dois domínios, estejam envolvidos na interação da metaloprotease com DM43. / The natural resistance of the opossum, Didelphis marsupialis, towards snake venom is due to antibothropic factors present in the blood serum, of which DM43 is one. It is responsible for the inhibition of the hemorrhagic activity of the venom. With a view to better understanding the mechanism of action of this protein against venom metalloproteases, one of the aims of the present work was to optimize the crystallization conditions of DM43 in order to determine its three-dimensional structure by X-ray diffraction. Crystallization trials revealed that ammonium sulphate was the best precipitant. Visualization and indexing of the diffraction patterns from such crystals only allowed for the determination of the unit cell parameters due to their inherently low quality. The values obtained were a = b = 117.34 (0.03) \'ANGSTRON\', c = 193.39 (0.02) Å, ?=?= 90° e ? = 120°, corresponding to the trigonal or hexagonal crystal systems. The recent determination of the amino acid sequence of DM43 permitted the homology modelling of its three-dimensional structure by satisfaction of spatial restraints. The three immunoglobulin-like domains of DM43 were modelled in two separate parts from the reference structure KIR2DL1 (1nkr), homologous to the two C-terminal domains of DM43, with which its shares 27.72% sequence identity. The N-terminal domain, denominated D0, was separately modelled based on the C-terminal domain of KIR2DL1, with which it shares 28.89% identity. The programs PATCHES and GRASP were used to detect the probable interface region between the two separate parts of the molecule as well as a region probably responsible for dimerisation. Polar residues in KIR2DL1 which had been substituted by hydrophobic residues in DM43 are observed concentrated on one face of the molecule devoid of glycosilation sites (D2) coinciding with the dimerisation interface observed in the growth hormone receptor. A structural motif characteristic of the haematopoetic receptor family, identified as the WSXWS box, was observed to some extent in all three domains of DM43 and most evident in domain D2. It is speculated that the existence of this motif is related to the relative orientation of the domains, by maintaining the first tryptophan of the motif positioned at the domain interface. An additional ?-strand (F) in D2, which is not characteristic of the immunoglobulin fold, is observed due to the presence of the conserved Pro273, three-residues prior to the WSXWS box. This strand appears to play an important role in correctly positioning the motif as it forms hydrogen bonds with strand G of the previous domain thus orientating the first tryptophan of the motif at the interface. The presence of hydrophobic residues at the interdomain interface, may also contribute to stabilizing the acute angular relationship between D1 and D2. An analogous interpretation to that given for the growth hormone receptor, suggests that the loops between ?-strands AB, CC\' and EF of domain D1 and between strands BC and FG do domain D2 plus the linker region, are involved in the binding of metalloproteinase by DM43.

DM43

Glicoproteína

Inibidor de metaloprotease

Modelagem molecular por homologia

DM43

Glycoprotein

Homology-based molecular modeling

Metalloprotease inhibitor

BOTTOM-UP SYNTHESIS OF POLYMER NANOCOMPOSITES: ABSORPTION OF NANOPARTICULATE TO EMULSION PMMA

ROSSI, GREGORY B.

11 March 2002

No description available.

Engineering, Materials Science

polymer nanocomposites

bottom-up synthesis

emulsion PMMA

PMMA-based molecular and nanocomposites

benzobisimidazole polymer

Quest Towards the Design and Synthesis of Functional Metal-Organic Materials: A Molecular Building Block Approach

Sava, Dorina F

29 June 2009

The design of functional materials for specific applications has been an ongoing challenge for scientists aiming to resolve present and future societal needs. A burgeoning interest was awarded to developing methods for the design and synthesis of hybrid materials, which encompass superior functionality via their multi-component system. In this context, Metal-Organic Materials (MOMs) are nominated as a new generation of crystalline solid-state materials, proven to provide attractive features in terms of tunability and versatility in the synthesis process. In strong correlation with their structure, their functions are related to numerous attractive features, with emphasis on gas storage related applications. Throughout the past decade, several design approaches have been systematically developed for the synthesis of MOMs. Their construction from building blocks has facilitated the process of rational design and has set necessary conditions for the assembly of intended networks. Herein, the focus is on utilizing the single-metal-ion based Molecular Building Block (MBB) approach to construct frameworks assembled from predetermined MBBs of the type MNx(CO2)y. These MBBs are derived from multifunctional organic ligands that have at least one N- and O- heterochelate function and which possess the capability to fully saturate the coordination sphere of a single-metal-ion (of 6- or higher coordination number), ensuring rigidity and directionality in the resulting MBBs. Ultimately, the target is on deriving rigid and directional MBBs that can be regarded as Tetrahedral Building Units (TBUs), which in conjunction with appropriate heterofunctional angular ligands are capable to facilitate the construction of Zeolite-like Metal-Organic Frameworks (ZMOFs). ZMOFs represent a unique subset of MOMs, particularly attractive due to their potential for numerous applications, arising from their fully exploitable large and extra-large cavities. The research studies highlighted in this dissertation will probe the validity and versatility of the single-metal-ion-based MBB approach to generate a repertoire of intended MOMs, ZMOFs, as well as novel functional materials constructed from heterochelating bridging ligands. Emphasis will be put on investigating the structure-function relationship in MOMs synthesized via this approach; hydrogen and CO2 sorption studies, ion exchange, guest sensing, encapsulation of molecules, and magnetic measurements will be evaluated.

zeolite-like metal-organic frameworks

porosity

hydrogen storage

topology

American Studies

Arts and Humanities

Molecular DNA Sensors to Measure Distribution of Cytoskeletal Forces

Jayachandran, Christina

27 September 2019

No description available.

571.4

DNA based molecular force sensors

FRET

FLIM

Frequency response of networks

Bulk fluorescence measurements

Actin-DNA sensor networks

Biologie (PPN619462639)

Systèmes moléculaires pour la production d'hydrogène photo-induite dans l'eau associant des catalyseurs de cobalt à un photosensibilisateur de ruthénium ou un colorant organique / Molecular systems for photo-induced hydrogen production from water involving cobalt catalysts and a ruthénium photosensitizer or an organic dye

Gueret, Robin

04 December 2017

Les travaux de cette thèse sont centrés sur le développement de systèmes moléculaires en solution homogène pour la production photocatalytique de dihydrogène dans l'eau utilisant des catalyseurs de cobalt à ligands pentadentate tétrapyridinique ou tétra- et pentaaza macrocycliques. Associés au photosensibilisateur et à l’ascorbate comme donneur d’électron sacrificiel, les complexes à ligands macrocycliques présentent d’excellentes performances pour la production d’H2, bien supérieures à celles des complexes à ligands polypyridiniques en termes d’efficacité et de stabilité, en raison de la grande stabilité de leur état réduit «Co(I)». Enfin, [Ru(bpy)3]2+ a pu être substitué par un colorant organique très robuste du type triazatriangulénium conduisant à un système photocatalytique encore plus performant. Ces résultats démontrent que les colorants organiques sont une alternative viable aux photosensibilisateurs à base de métaux nobles, même en milieu aqueux acide. / The work of this manuscript is focused on the design of molecular systems in homogeneous solution for photocatalytic production of molecular hydrogen in water using cobalt catalysts with pentadentate tetrapyridinic and tetra- and pentaza macrocyclic ligands. In association with [Ru(bpy)3]2+ as photosensitizer and sodium ascorbate as sacrificial electron donor, the macrocycle based catalysts display high performances for H2 production, far exceeding those of the polypyridine based catalysts, both in terms of activity and stability, because of the stability of their reduced state «Co(I)». Finally, [Ru(bpy)3]2+ was successfully substituted with a robust organic dye belonging to the triazatriangulenium family, leading to an even more efficient photocatalytic system. These results demonstrate well that organic dyes are a truly efficient alternative to noble metal based photosensitizers, even in acidic aqueous medium.

Photocathode à base de NiO

Photocatalytic hydrogen production

NiO based photocathode

Noble-Metal-Free photosensitizers

Cobalt based molecular catalysts

540

570

Biochemical characterization of homing endonucleases encoded by fungal mitochondrial genomes

Guha, Tuhin

23 May 2014

The small ribosomal subunit gene of the Chaetomium thermophilum DSM 1495 is invaded by a nested intron at position mS1247, which is composed of a group I intron encoding a LAGLIDADG open reading frame interrupted by an internal group II intron. The first objective was to examine if splicing of the internal intron could reconstitute the coding regions and facilitate the expression of an active homing endonuclease. Using in vitro transcription assays, the group II intron was shown to self-splice only under high salt concentration. Both in vitro endonuclease and cleavage mapping assays suggested that the nested intron encodes an active homing endonuclease which cleaves near the intron insertion site. This composite arrangement hinted that the group II intron could be regulatory with regards to the expression of the homing endonuclease. Constructs were generated where the codon-optimized open reading frame was interrupted with group IIA1 or IIB introns. The concentration of the magnesium in the media sufficient for splicing was determined by the Reverse Transcriptase-Polymerase Chain Reaction analyses from the bacterial cells grown under various magnesium concentrations. Further, the in vivo endonuclease assay showed that magnesium chloride stimulated the expression of a functional protein but the addition of cobalt chloride to the growth media antagonized the expression. This study showed that the homing endonuclease expression in Escherichia coli can be regulated by manipulating the splicing efficiency of the group II introns which may have implications in genome engineering as potential ‘on/off switch’ for temporal regulation of homing endonuclease expression . Another objective was to characterize native homing endonucleases, cytb.i3ORF and I-OmiI encoded within fungal mitochondrial DNAs, which were difficult to express and purify. For these, an alternative approach was used where two compatible plasmids, HEase.pET28b (+)-kanamycin and substrate.pUC57-chloramphenicol, based on the antibiotic markers were maintained in Escherichia coli BL21 (DE3). The in vivo endonuclease assays demonstrated that these homing endonucleases were able to cleave the substrate plasmids when expressed, leading to the loss of the antibiotic markers and thereby providing an indirect approach to screen for potential active homing endonucleases before one invests effort into optimizing protein overexpression and purification strategies. / October 2016

Homing endonucleases

Small ribosomal subunit gene

Nested intron

Twintron

Ribozyme based molecular switch

Group I introns

Group II introns

Bioprospecting

Native homing endonuclease

Temporal regulation

Fungal mitochondrial DNA

Magnesium induction

Cobalt antagonization

DNA cutting enzymes

LAGLIDADG homing endonuclease

Splicing

Genome engineering