Molecular studies of the synaptic protein otoferlin

Müller, Alexandra

08 April 2016

No description available.

610

Otoferlin

Hearing

Gene Gun

Temperature sensitivity

Real-time PCR

Cloning

Biologie (PPN619462639)

Finite Element Simulation of the Atomization of Liquid Membrane in Gene Gun

Lin, Wei-ting

14 August 2012

In recent years, with advances in medical treatment, the demand of medical beauty market has increased year by year. With the continuous innovation of nanotechnology, medical technology with nanometer level is becoming the one of the most important issue of the development of medical biotechnology in recent years. In order to make the products effective, the products have to be transported into the human skin. In traditional medical treatments, the devices of contacting type or invading type were adopted, and might cause some infected problems. To avoid these situations, some medical companies have developing the non-contact type device¡Ð gene gun. This device use nitrogen as motive force to atomize the thin film of the injection products, then delivering these products to derma. This research utilizes computational fluid dynamics software to build the FEM simulation model of Venturi tube inside of a gene gun. Then, analyzing the speed and atomization of fluid which inside or outside of Venturi tube. A FEM simulated mechanism for the atomization of multiphase flow was constructed in this research successfully. The effects of variations of some geometric parameters of Venturi tube on the atomization of thin film were studied also. The obtained results can shorten cost and time in relevant development.

Computational fluid dynamics

Venturi tube

Gene gun

Atomization

Medical beauty delivering device

Micro-Particles and Gas Dynamics in an Axi-Symmetric Supersonic Nozzle

Soliman, Salah M.

26 September 2011

No description available.

Aerospace Materials

CFD

Supersonic nozzle

3-D numerical study

Biolistic Gene gun

Particles-gas flows

Vývoj experimentálních protinádorových DNA vakcín / Development of experimental antitumor DNA vaccines

Kaštánková, Iva

January 2017

No description available.

Studien zur Transfektion von Schistosoma mansoni (Digenea)

Heyers, Oliver

18 May 2004

Schistosomen verursachen die Tropenparasitose Schistosomiasis mit 250-300 Millionen infizierten Menschen weltweit. Zur Analyse von Genfunktionen, durch die wirksame Medikamente entwickelt werden könnten, wird ein System zur Herstellung transgener Schistosomen benötigt. In dieser Arbeit wurde daher versucht, ein System zur Transfektion von Schistosoma mansoni von der transienten Expression von Reportergenen ausgehend zu entwickeln. Die Funktionalität der hergestellten Plasmide zur transienten Transfektion wurde durch die Expression der Reporter Enhanced Green Fluorescent Protein (EGFP) und beta-Galatosidase unter der Kontrolle der schistosomalen Promotoren für das Calreticulin, die 28 kDa-Glutathion-S-Transferase und das 70 kDa-Hitzeschockprotein in cos7-Zellen nachgewiesen. Für den Gentransfer in S. mansoni wurden Mikroinjektion, Elektroporation und Mikroprojektilbeschuss eingesetzt. Der Mikroprojektilbeschuss erwies sich als geeignete Methode, Plasmid-DNA zur transienten Expression von EGFP und beta-Galaktosidase in adulte und larvale Stadien zu transferieren. Da die beobachtete Reportergenexpression schwach war, wurde durch den Einsatz von Discosoma Red Fluorescent Protein (DsRed) als Reportergen versucht, das Transfektionsssytem zu optimieren. Außerdem wurden die potentiellen Promotoren für das Cathepsin D und für ein Aktin durch inverse PCR aus genomischer DNA isoliert. Die Funktionalität dieser Promotoren wurde in cos7- bzw. HeLa-Zellen nachgewiesen, eine verbesserte Expression in S. mansoni dagegen wurde mit diesen zwei Promotoren und unter Einsatz von DsRed nicht erreicht. Da S. mansoni sich in vitro nicht kultivieren lässt, muss für die Etablierung eines Transfektionssystems ein in seinen Keimzellen transgenes Stadium in den Lebenszyklus eingeschleust werden. Durch Mikroprojektilbeschuss transfizierte Mirazidien (freilebende Stadien des Parasiten) infizierten Zwischenwirtsschnecken und entwickelten sich zu transgenen Sporozysten, was durch die Transkription von EGFP nachgewiesen wurde. Für eine stabile Integration in das Genom werden unter anderem mobile genetische Elemente eingesetzt. Boudicca ist ein endogenes long terminal repeat (LTR) Retroelement. In dieser Arbeit wurde gezeigt, dass es in adulten Würmern, Sporozysten und Zerkarien transkribiert wird. Das LTR kann in vitro als Promotor zur Expression von EGFP eingesetzt werden. Außerdem wurde eine transkribierte Kopie kloniert und analysiert. Die in dieser Arbeit gewonnen Ergebnisse weisen darauf hin, dass Boudicca als Vektor zur stabilen Transfektion von S. mansoni eingesetzt werden kann. / Schistosomiasis caused by schistosomes affects about 250-300 million people world wide. The establishment of a transgenesis system for schistosomes is a pre-requisite to the identification of new drug targets and to the analysis of gene regulation and will add to our knowledge of parasite physiology and development. In this study, plasmids expressing Enhanced Green Fluorescent Protein (EGFP) and beta-galactosidase driven by the schistosomal promoters of the calreticulin, the 28kDa-glutathione-S-transferase and the 70kDa-heatshock protein were cloned and successfully tested in cos7-cells. Microinjection, electroporation and particle bombardment were used to introduce plasmid DNA into Schistosoma mansoni. Adult and larval stages of S. mansoni subjected to particle bombardment transiently expressed the reporter genes, although the observed transfection rates were very low. To optimize the transfection system Discosoma Red Fluorescent Protein (DsRed) was used as a reporter gene. Furthermore, the schistosomal promoters of the aspartic protease cathepsin D and a cytoplasmatic actin gene were isolated from genomic DNA using inverse PCR. The isolated promoters were able to drive EGFP and DsRed expression in cos7- or HeLa-cells, but improved expression could not be observed in S. mansoni. Due to the complexity of the life cycle S. mansoni cannot be cultured in vitro. In order to develop a transgenesis system for schistosomes, the life cycle must consequently be completed by genetically modified parasites. In this study it was shown that the free-living and mobile miracidium that infects the intermediate host snail could be transformed by particle bombardment and reintroduced in the life cycle using the natural path of infection. Development into transgenic sporocysts was shown through the isolation of EGFP transcripts from intermediate host snails. Mobile genetic elements are used as molecular tools to achieve stable integration of a foreign gene into a genome. Boudicca is an endogeneous long-terminal repeat (LTR) transposon in the schistosomal genome. In this study it was shown that it is transcribed in adult worms, sporocysts and cercariae. The LTR drives EGFP expression in cell cultures. Furthermore, a Boudicca transcript was cloned and analyzed by sequencing. The results suggest that Boudicca can be used as a molecular tool for stable integration of transgenes into the schistosomal genome.

GFP

Schistosoma mansoni

transgene Parasiten

Gene Gun

Transfektion

Retrotransposon

LTR

Boudicca

transformation

GFP

Schistosoma mansoni

transgenic parasite

particle bombardment

retrotransposon

long terminal repeat

Boudicca

570 Biowissenschaften, Biologie

32 Biologie

YD 9800

ddc:570

The Characterisation of Putative Nuclear Pore-Anchoring Proteins in Arabidopsis thaliana

Collins, Patrick

January 2013

The nuclear pore complex (NPC) is perhaps the largest protein complex in the eukaryotic cell, and controls the movement of molecules across the nuclear envelope. The NPC is composed of up to 30 proteins termed nucleoporins (Nups), each grouped in different sub-complexes. The transmembrane ring sub-complex is composed of Nups responsible for anchoring the NPC to the nuclear envelope. Bioinformatic analysis has traced all major sub-complexes of the NPC back to the last eukaryotic common ancestor, meaning that the nuclear pore structure and function is conserved amongst all eukaryotes. In this study Arabidopsis T-DNA knockout lines for these genes were investigated to characterise gene function. Differences in plant growth and development were observed for the ndc1 knockout line compared to wild-type but gp210 plants showed no phenotypic differences. The double knockout line gp210 ndc1 was generated through crosses to observe plant response to the knockout of two anchoring-Nup genes. No synergistic affect from this double knockout was observed, suggesting that more, as yet unidentified Nups function the transmembrane ring in plants. The sensitivity to nuclear export inhibitor leptomycin B (LMB) was tested also for knockout lines, although growth sensitivity to the drug was not observed. Nucleocytoplasmic transport of knockout lines was measured in cells transformed by particle bombardment. To express fluorescent protein constructs actively transported through the NPC, localisation of protein determined the nucleocytoplasmic transport of the cell. The ndc1single knockout and the double knockout gp210 ndc1 exhibited decreased nuclear export. Further experiments in determining NDC1 localisation and identification of other Nups in the transmembrane ring sub-complex would bring a more comprehensive understanding to the plant NPC.

Arabidopsis thaliana

transformation

insert

transient expression

epidermal cells

root cells

gene

protein

plant

bolting

flowering

root growth

knockout

ndc1

gp210

At1g73240

At5g40480

SALK

SAIL

Columbia

seed

germination

DNA sequencing

light microscopy

stereo-fluorescence microscopy

DNA extraction

cell

nucleus

cytoplasm

nucleoplasm

nuclear pore complex

nucleoporin

nuclear envelope

putative

nuclear pore-anchoring protein

leptomycin B

gene gun

particle bombardment

agrobacterium

T-DNA

fasciation

rhodococcus fascians

cross

reverse genetics

nucleocytoplasmic transport

cross

self

synergistic

silique

transmembrane ring

dihybrid

pumilo homology domain protein

GFP

YFP

RFP

PCR

homozygote

heterozygote

inhibition