Fabrication and characterizations of hydrogels for cartilage repair

Kaur, Payal, Khaghani, Seyed A., Oluwadamilola, Agbabiaka, Khurshid, Z., Zafar, M.S., Mozafari, M., Youseffi, Mansour, Sefat, Farshid

26 September 2017

Yes / Articular cartilage is a vascular tissue with limited repair capabilities, leaving an afflicted person in extreme pain. The tissue experiences numerous forces throughout its lifetime. This study focuses on development of a novel hydrogel composed of chitosan and β-glycerophosphate for articular cartilage repair. The aim of this study was to investigate the mechanical properties and swelling behaviour of a novel hydrogel composed of chitosan and β-glycerophosphate for cartilage repair. The mechanical properties were measured for compression forces. Mach-1 mechanical testing system was used to obtain storage and loss modulus for each hydrogel sample to achieve viscoelastic properties of fabricated hydrogels. Two swelling tests were carried out to compare water retaining capabilities of the samples. The hydrogel samples were made of five different concentrations of β-glycerophosphate cross-linked with chitosan. Each sample with different β-glycerophosphate concentration underwent sinusoidal compression forces at three different frequencies -0.1Hz, 0.316Hz and 1Hz. The result of mechanical testing was obtained as storage and loss modulus. Storage modulus represents the elastic component and loss modulus represents the viscosity of the samples. The results obtained for 1Hz were of interest because the knee experiences frequency of 1Hz during walking.

Articular cartilege

Chitosan

Cross-linker

Hydrogel

Loss modulus

Scaffold

Storage modulus

Swelling property

Viscoelastic

An Investigation into the Effect of Backbone Amide Linker Position on the Solid Phase Peptide Synthesis of a Cyclic Pentapeptide

Khalil Castillo-Aponte (17551896)

05 December 2023

<p dir="ltr">A study on the impact of the position of the attachment of the photolabile, backbone amide linker, 4-formyl-3-hydroxy-5-nitrobenzoic acid, on the synthesis of a model cyclic pentapeptide was conducted. The peptide was synthesized on a solid support and cleaved photolytically. The crude product was analyzed for the effect of changing position by LC/MS, 1HNMR, and yield. The target peptide could not be identified convincingly by LC/MS or NMR. It was observed that attachment of the backbone amide linker to the N alpha of tyrosine provided the highest crude product yield.</p>

Organic chemical synthesis

Novel Methods for Synthesis of High Quality Oligonucleotides

Semenyuk, Andrey

January 2006

<p>The first part of the work describes a procedure of oligonucleotide purification using a reversed-phase cartridge. The developed method employs a very efficient yet mild oligonucleotide detritylation on the cartridge support allowing fast purification of oligonucleotides regardless of their 5´-modification. Thiol- and amino-modified oligonuc-leotides were detritylated and purified with the same high efficiency as non-modified oligonucleotides. The method enables fast, parallel and automated purification of many oligonucleotide probes that was not possible before. In combination with the method of removal of tritylated failure fragments oligonucleotides were produced with purity superior to that of oligonucleotides purified using RP HPLC.</p><p>In the second part of the present study a method of solid-phase RNA synthesis using 2´-tert-butyldithiomethyl (2´-O-DTM) is discussed. The stability of the DTM group during oligonucleotide assembly and deprotection in ammonia, together with its ability for rapid deprotection under mild conditions, allowed the synthesis of RNA with the quality similar to that of synthetic DNA oligonucleotides. The advantage of the 2´-O-DTM group is that it is completely orthogonal to all protecting groups used for the traditional solid-phase DNA synthesis. Therefore, the synthesis can be performed using a standard DNA synthesis procedure – no changes are needed for the product assembly. RNA oligonucleotides synthesized with retained 5´-terminal trityl group can be subjected to a cartridge-based purification using the procedure described in the first part of the study. The phosphoramidite synthesis was optimized for a large scale preparation and gives versatility for introduction of other alkyldithiomethyl groups according to the preference to their certain properties.</p><p>The third part of the thesis describes the synthesis of a dithiomethyl linker and its utility for reversible conjugation of oligonucleotides. A dithiomethyl group, cleavable under mild conditions, was introduced onto 3´-OH of tritylated nucleosides via 3´-O-methylthiomethyl derivatives. The influence of different alkyl substituents on the disulfide bond stability was investigated, and stable analogues were employed in oligosyntheses. Two applications were developed using the present linker: 1) purification of oligonucleotides linked to the solid support; and 2) cartridge-based purification of tritylated oligonucleotides having an additional hydrophobic group on their 3´- terminus.</p>

Organic chemistry

oligonucleotide

solid-phase synthesis

RNA synthesis

phosphoramidite

abasic sites

depurination

2'-O-DTM

protecting group

cartridge

conjugate

dithiomethyl linker

base-stable linker

oligonucleotide purification

nucleoside

Organisk kemi

Novel Methods for Synthesis of High Quality Oligonucleotides

Semenyuk, Andrey

January 2006

The first part of the work describes a procedure of oligonucleotide purification using a reversed-phase cartridge. The developed method employs a very efficient yet mild oligonucleotide detritylation on the cartridge support allowing fast purification of oligonucleotides regardless of their 5´-modification. Thiol- and amino-modified oligonuc-leotides were detritylated and purified with the same high efficiency as non-modified oligonucleotides. The method enables fast, parallel and automated purification of many oligonucleotide probes that was not possible before. In combination with the method of removal of tritylated failure fragments oligonucleotides were produced with purity superior to that of oligonucleotides purified using RP HPLC. In the second part of the present study a method of solid-phase RNA synthesis using 2´-tert-butyldithiomethyl (2´-O-DTM) is discussed. The stability of the DTM group during oligonucleotide assembly and deprotection in ammonia, together with its ability for rapid deprotection under mild conditions, allowed the synthesis of RNA with the quality similar to that of synthetic DNA oligonucleotides. The advantage of the 2´-O-DTM group is that it is completely orthogonal to all protecting groups used for the traditional solid-phase DNA synthesis. Therefore, the synthesis can be performed using a standard DNA synthesis procedure – no changes are needed for the product assembly. RNA oligonucleotides synthesized with retained 5´-terminal trityl group can be subjected to a cartridge-based purification using the procedure described in the first part of the study. The phosphoramidite synthesis was optimized for a large scale preparation and gives versatility for introduction of other alkyldithiomethyl groups according to the preference to their certain properties. The third part of the thesis describes the synthesis of a dithiomethyl linker and its utility for reversible conjugation of oligonucleotides. A dithiomethyl group, cleavable under mild conditions, was introduced onto 3´-OH of tritylated nucleosides via 3´-O-methylthiomethyl derivatives. The influence of different alkyl substituents on the disulfide bond stability was investigated, and stable analogues were employed in oligosyntheses. Two applications were developed using the present linker: 1) purification of oligonucleotides linked to the solid support; and 2) cartridge-based purification of tritylated oligonucleotides having an additional hydrophobic group on their 3´- terminus.

Organic chemistry

oligonucleotide

solid-phase synthesis

RNA synthesis

phosphoramidite

abasic sites

depurination

2'-O-DTM

protecting group

cartridge

conjugate

dithiomethyl linker

base-stable linker

oligonucleotide purification

nucleoside

Organisk kemi

The influence of post-translational modifications on biology of the linker histone HIS-24 in Caenorhabditis elegans / Der Einfluss posttranslationaler Modifikationen auf die Biologie des Linker-Histons HIS-24 in Caenorhabditis elegans

Studencka, Maja

11 June 2012

No description available.

570 Biowissenschaften, Biologie

WF 200

Biology (incl. Psychology)

Linker-Histon

Heterochromatin Proteine 1

posttranslationaler Modifikationen

Hox-Gene

C. elegans

linker histone

heterochromatin protein 1

post-translational modifications

Hox genes

C. elegans

42

Tuning DNA Compaction / DNA-Kompaktion

Dootz, Rolf

19 February 2008

No description available.

530 Physik

Mathematics and Computer Science

DNA

DNA-Kompaktion

Histone

Linker-Histone

H1

Dendrimere

PAMAM

PPI

Mikrofluidik

SAXS

Röntgen

Röntgenkleinwinkelstreuung

Raman

DNA

DNA compaction

histones

linker-histones

H1

dendrimers

PAMAM

PPI

microfluidics

microdevice

SAXS

X-ray

Raman

42.12

WC 000: Biophysik

Thermodynamische und strukturelle Charakterisierung Importinβ-abhängiger Kernimportprozesse / Thermodynamical and structural characterisation of importinβ dependent nuclear import processes

Wohlwend, Daniel

22 January 2008

No description available.

570 Biowissenschaften, Biologie

WA 000

Mathematics and Natural Science

Kerntransport

Kernimport

NPC

Importinβ

Importin7

Linker Histon

Spleißosom

U snRNP

RanGTP

nuclear transport

nuclear import

NPC

importinβ

importin7

linker histone

spliceosome

U snRNP

RanGTP

30.42

Transcriptional regulation of wood formation in eucalyptus : Role of MYB transcription factors and protein-protein interactions / Régulation transcriptionnelle de la formation du bois chez l'eucalyptus : rôle des facteurs de transcription MYB et des interactions protéines-protéines

Plasencia Casadevall, Anna

15 December 2015

Notre objectif était de mieux comprendre la régulation de la biosynthèse des parois secondaires lors de la formation du bois chez l'Eucalyptus, le feuillu le plus planté au monde et le deuxième dont le génome est séquencé. Nous avons caractérisé trois facteurs de transcription de la famille MYB-R2R3 et montré que EgMYB137 était un nouveau régulateur de la biosynthèse des parois secondaires. Nous avons aussi démontré que l'activité transcriptionnelle de EgMYB1, un répresseur de la biosynthèse des lignines, était régulée par une interaction protéine-protéine impliquant une histone linker (EgH1.3). Enfin, nous avons mis au point une méthode de transformation homologue chez l'Eucalyptus via A. rhizogenes. Les " hairy roots " transgéniques sont adaptées à la caractérisation fonctionnelle de gènes reliés à la formation du xylème. Nos résultats ont permis de découvrir de nouveaux acteurs impliqués dans la régulation des parois secondaires, mettant en lumière la complexité de ce processus mais aussi offrant de nouvelles perspectives pour l'amélioration du bois pour des applications industrielles comme la production de bioéthanol de deuxième génération. / Our objective was to better understand the regulation of the biosynthesis of the lignified secondary cell walls during wood formation in Eucalyptus, the most planted hardwood tree, and the second whose genome has been sequenced. We functionally characterized three Eucalyptus transcription factors of the R2R3-MYB family and identified EgMYB137 as a new regulator of secondary cell wall deposition. We also showed that the transcriptional activity of EgMYB1, a repressor of lignin biosynthesis was modulated by protein-protein interactions involving a linker histone (EgH1.3). Finally, we set up a homologous transformation system for Eucalyptus using Agrobacterium rhizogenes. The transgenic hairy roots are suitable for high throughput functional characterization of cell wall-related genes. Our findings not only allowed getting new insights into the complexity of the network regulating secondary cell walls but also open new avenues to improve wood quality for industrial applications such as second-generation bioethanol.

Eucalyptus

Formation du bois

Xylème

Paroi secondaire

Lignine

Facteurs de transcription MYB

Histone linker

Hairy roots

Métabolites secondaires

Bioéthanol de deuxième génération

Eucalyptus

Wood formation

Xylem

Secondary cell wall

Lignin

MYB transcription factor

Linker histone

Hairy roots

Secondary metabolites

Second-generation bioethanol

Study of the role of plant nuclear envelope and lamina-like components in nuclear and chromatin organisation using 3D imaging / Analyse du rôle de l'enveloppe nucléaire et des composants de la lamina-like dans l'organisation chromatinienne et nucléaire chez les plantes en utilisant de l'imagerie 3D

Poulet, Axel

06 June 2016

Le complexe linker of nucleoskeleton and cytoskeleton (LINC) est un complexe protéique conservé au cours de l’évolution, reliant les compartiments cytoplasmiques et nucléaires au travers la membrane nucléaire. Bien que les données récentes montrent une de ce complexe dans la régulation de la morphologie nucléaire et de la méiose, son implication dans l’organisation de la chromatine a été moins étudié chez les plantes. Le premier objectif de ce travail était de développer un plugin NucleusJ ImageJ dédié à la caractérisation de la morphologie nucléaire et de l’organisation de la chromatine en 3D. NucleusJ calcul 15 paramètres, y compris la forme et la taille des noyaux ainsi que des objets intra-nuclaires et leur position dans le noyau. Une documentation pour ce programme est disponible pour son utilisation, ainsi que des qu’un jeu données de noyaux pour tester ce programme. Plusieurs améliorations sont en cours pour développer une nouvelle version de ce plugin. Dans une deuxième partie de ce travail, des méthodes d’imagerie 3D ont été utilisées pour étudier la morphologie nucléaire et l’organisation de la chromatine dans les noyaux interphasiques chez Arabidopsis thaliana dans lequel les domaines d’htrochromatique sont groupés en régions detectable appelés chromocentres. Ces chromocentres forment un environnement répressif contribuant la rpression transcriptionnelle de séquences répétées permettant la stabilité du génome. Des mesures quantitatives de la position 3D de chromocentres dans le noyau montrent que la plupart chromocentres sont situés proximité de la périphérie du noyau, mais que cette distance peut être modifiée par le volume nucléaire ou dans certains mutants affectant le complexe LINC. Ce complexe LINC est proposé pour contribuer l’organisation de la chromatine et à son positionnement, de plus la mutation de ce complexe est associée une dérégulation l’inactivation de la transcription, ainsi qu’a une décompaction des séquences hétérochromatiques. La dernière partie de ce travail tire profit de séquences gnomiques disponibles et les données de RNA-seq pour explorer l’évolution des protines de la NE chez les plantes. Au Final, le travail réalisé durant cette thèse associe la génétique, la biologie moléculaire, la bioinformatique et de l’imagerie afin de mieux comprendre la contribution de l’enveloppe nucléaire dans l’organisation de la morphologie du noyaux et de la chromatine et suggère l’implication fonctionnelle du complexe LINC dans ces processus. / The linker of nucleoskeleton and cytoskeleton (LINC) complex is an evolutionarily well-conserved protein bridge connecting the cytoplasmic and nuclear compartments across the nuclear membrane. While recent data supports its function in nuclear morphology and meiosis, its implication for chromatin organisation has been less studied in plants. The first aim of this work was to develop NucleusJ a simple and user-friendly ImageJ plugin dedicated to the characterisation of nuclear morphology and chromatin organisation in 3D. NucleusJ quantifies 15 parameters including shape and size of nuclei as well as intra-nuclear objects and their position within the nucleus. A step-by-step documentation is available for self-training, together with data sets of nuclei with different nuclear organisation. Several improvements are ongoing to release a new version of this plugin. In a second part of this work, 3D imaging methods have been used to investigate nuclear morphology and chromatin organisation in interphase nuclei of the plant model Arabidopsis thaliana in which heterochromatin domains cluster in conspicuous chromatin regions called chromocentres. Chromocentres form a repressive chromatin environment contributing to the transcriptional silencing of repeated sequences a general mechanism needed for genome stability. Quantitative measurements of 3D position of chromocentres in the nucleus indicate that most chromocentres are situated in close proximity to the periphery of the nucleus but that this distance can be altered according to nuclear volume or in specific mutants affecting the LINC complex. Finally, the LINC complex is proposed to contribute at the proper chromatin organisation and positioning since its alteration is associated with the release of transcriptional silencing as well as decompaction of heterochromatic sequences. The last part of this work takes advantage of available genomic sequences and RNA-seq data to explore the evolution of NE proteins in plants and propose a minimal requirement to built the simplest functional nuclear envelope. Altogether, work achieved in this thesis associate genetics, molecular biology, bioinformatics and imaging to better understand the contribution of the nuclear envelope in nuclear morphology and chromatin organisation and suggests the functional implication of the LINC complex in these processes.

Morphologie nucléaire

Organisation de la chromatine

ImageJ

NucleusJ

Enveloppe nucléaire

Hétérochromatine

Noyau

Chromocenter

Imagerie 3D

Nuclear morphology

Chromatin organisation

ImageJ

NucleusJ

Nuclear envelope

Heterochromatin

Nucleus

Chromocenter

3D imaging

Conception de nouveaux biocatalyseurs par fusion de domaines catalytiques / Design ofbiocatalysts by domain fusion and scaffolding

Rabeharindranto, Mamy Hery Ny Aina

08 July 2019

La production microbienne de molécules d'intérêt pourrait être améliorée par des stratégies d'ingénierie du vivant. L'ingénierie enzymatique joue un rôle central dàns la conception d'organismes hôtes efficaces car l'efficacité de la voie dépend en premier lieu de l'efficacité des enzymes. Aujourd'hui, il est utile de savoir quelles conceptions d'enzymes synthétiques sont efficaces et quels paramètres doivent être testés pour les caractériser. La colocalisation spatiale d'enzymes à l'intérieur de la voie métabolique pourrait améliorer la production de la molécule d'intérêt finale en permettant une biotransformation rapide des intermédiaires de la voie de biosynthèse. Des protéines multidomaines regroupant plusieurs activités enzymatiques sont décrites dans la littérature. Ces travaux ont permis la création de fusions synthétiques d'enzymes caroténogéniques pour la production de bêta-carotène chez Saccharomyces cerevisiae. Différents types de fusions et de configurations enzymatiques ont été testés. L'étude a permis ia création d'une fusion enzymatique tripartite efficace produisant deux fois moins d'intermédiaires et deux fois plus de bêta-carotène. Les mesures précises de la concentration de chaque caroténoïde, associées à la quantification des enzymes, ont permis de caractériser l'efficacité de chaque enzyme synthétique. D'autres stratégies de colocalisation spatiale d'enzymes ont également été testées en utilisant des domaines d'interaction tels que la cohesinedockérine ou la protéine oligomériques CcmK2. Certaines enzymes caroténogéniques préservent leur fonctionnalité au sein de ces configurations. Des systèmes enzymatiques construites modifient le flux métabolique des caroténoïdes et produisent des caroténoïdes différents de ceux des enzymes naturelles. Un contrôle plus affiné des activités enzymatiques pourrait permettre un contrôle précis de la nature du caroténoïde final produit / Microbial production of molecules of interest can be improved by severa! engineering strategies. Enzymatic engineering has a central role in the conception of efficient host because pathway's efficiency depends in first place on the efficiency of the enzymes. Knowing which synthetic enzymes conceptions are efficient and knowing to characterize the best candidates are essential. Enzyme colocalisation inside metabolic pathway might improve the production of final molecule of interest by allowing rapid biotransformation of intermediates of the pathway. Multidomain proteins regrouping severa! enzymatic activities are described in the literature. This work has focused in part on the creation of synthetic fusion of sorne carotenogenic enzymes for the production of beta carotene in Saccharomyces cerevisiae. Different types of enzymatic fusions and configurations have been tested and. characterized. The study allowed the creation of an efficient tripartite enzyme. fusion which produces two times Jess intermediates and two times more beta carotene. Precise measurement of each caro teno id' s concentration coupled with quantification of enzymes allows the characterization of the efficiency of each synthetic enzyme. Other strategies for enzyme spatial co localisation have also been tested using domains of interaction like cohesin-dockerin or the oligomeric protein CcmK2. Sorne carotenogenic enzymes are still functional using those configurations. Sorne of the enzymatic systems modify the metabolic flow ofcarotenoids and produce carotenoids different from the natural systems. Sorne strategies have changed the metabolic flux of carotenoids inside the pathway. Interestingly, a fine control of activity of enzyme might allow a fine control of the nature of the final carotenoid

Ingénierie métabolique

Ingénierie enzymatique

Colocalisation d'enzyme

Linker

Domaines d'interaction

Caroténoïdes

Enzymes membranaires

Composés insolubles

Saccharomyces cerevisiae

Metabolic engineering

Enzymatic engineering

Enzyme colocalisation

Linker

Interaction domains

Carotenoids

Membrane enzymes

Insoluble molecules

Saccharomyces cerevisiae

572

579