SMN interagit-il avec PFNII pour accomplir une fonction neuronale? : développement d'un système d'intégration dirigé, stable, dans les cellules P19

Germain, Nathalie

January 2005

No description available.

AS

SMN

PFN

Protéine de fusion eGFP

Cre/LoxP

Flp/FRT

Cellules P19

Maladie neurodégénérative

The Use of Reverse Genetics to Clone and Rescue Infectious, Recombinant Human Parainfluenza Type 3 Viruses

Roth, Jason Peter

01 May 2009

Reverse genetics is a discipline that involves the use of genetic manipulation and modification to study an organism's altered phenotype. In this study, infectious recombinant viruses were rescued from altered cDNA clones encoding the antigenome of human parainfluenza virus type 3 and the resulting phenotypes were examined. In one clone, the gene for the enhanced green fluorescent protein was inserted into the virus antigenome to be expressed during viral replication, resulting in infected cells emitting green fluorescence. Viral titers, mRNA replication, and genomic replication for the virus expressing the enhanced green fluorescent protein were reduced when compared to the human parainfluenza virus type 3 wild-type strain. In addition, the sensitivity of the virus expressing the enhanced green fluorescent protein to antiviral compounds is increased when compared to the wild-type strain, which may lead to the identification of false positive antiviral compounds. An assay that measures the enhanced green fluorescent protein as a direct indicator of virus replication can be shortened to 3 days in duration and is a more robust assay compared to assays that measure cellular viability. In other clones, mutations were introduced into the phosphoprotein gene to eliminate the expression of the D domain of the PD protein in order to understand its function. The titers of two recombinant knockout viruses that are deficient in the expression of the D domain are reduced when compared to the wild-type strain in both MA-104 and A549 cells. In MA 104 cells, viral mRNA transcription and genomic replication of the two knockout viruses are reduced when compared to the wild-type strain. In A549 cells, cellular expression and secretion of antiviral cytokines infected with the two knockout viruses are either reduced or remain unchanged when compared to the wild-type strain. These results suggest that the D domain may play a role in viral RNA synthesis and not in counteracting the host cell's antiviral response. The results of these studies shed light on the influence an additional gene has on viral replication and possible functions of the D domain.

Antiviral Assay

cDNA clone

D Protein

EGFP

HPIV-3

Knockout Virus

Biology

Identificação da ligação direta de uma Fosfolipase D de Loxosceles gaucho às plaquetas. / Identification of direct binding of a Phospholipase D from Loxosceles gaucho to platelets.

Fukuda, Daniel Akio

10 August 2017

Fosfolipases D (FLD) do veneno das aranhas do gênero Loxosceles são capazes de causar entre outros efeitos, uma forte agregação plaquetária cujo mecanismo ainda não foi elucidado. Portanto, para estudar o papel das FLDs nesta atividade, uma FLD recombinante de L. gaucho (LgRec1) foi fusionada com a proteína fluorescente verde (EGFP) e utilizada como uma sonda para detectar a interação de LgRec1 com plaquetas. Essa quimera, denominada EGFP-LgRec1, manteve as principais características da LgRec1. A microscopia confocal das plaquetas mostrou que LgRec1 não requer componentes plasmáticos para se ligar às plaquetas, embora estes sejam necessários para que a LgRec1 induza agregação. Além disso, foi observado que a ação da LgRec1 leva à exposição de fosfatidilserina. Contudo, esta exposição não está relacionada à morte celular. Portanto, este trabalho mostrou que uma FLD de Loxosceles se liga a plaquetas, promovendo a exposição de fosfatidilserina, possibilitando a ligação de fatores de coagulação e resultando na agregação plaquetária. / Phospholipases D (PLD) from spider venom of the genus Loxosceles are capable of causing, among other effects, a strong aggregation of platelets and its mechanism has not yet been elucidated. Therefore, to study the role of PLDs in this activity, a recombinant L. gaucho PLD (LgRec1) was fused with a green fluorescent protein (EGFP) and used as a probe to detect the interaction of LgRec1 with platelets. This chimera, named EGFP-LgRec1, remained the main activities of LgRec1. Platelet confocal microscopy has shown that LgRec1 does not require plasma components to bind to platelets, although these are required for LgRec1 to induce aggregation. In addition, it has been observed that the action of LgRec1 leads to exposures of phosphatidylserine. However, this exposure is not related to cell death. Therefore, this work showed that a Loxosceles PLD binds to platelets, promoting an exposure of phosphatidylserine, that may act as a scaffold for coagulation factors, resulting in platelet aggregation.

Loxosceles gaucho

Loxosceles gaucho

Aranhas

Binding

Chimeric toxin

Citometria de fluxo

EGFP

EGFP

Flow cytometry

Fluorescent microscopy

Fosfolipase D

Green fluorecent protein

Ligação

Microscopia de fluorescência

Phospholipase D

Plaquetas

Platelets

Proteína verde fluorescente

Spiders

Toxina quimérica

Toxinas

Toxins

Charakterizace imunitního systém s využitím MHC II/ EGFP knock-in myši / Studying immune system using MHC II/ EGFP knock-in mouse

Zadražil, Zdeněk

January 2012

The immune system is essential for keeping the integrity of multicellular organisms. We were able to make a step forward in studying the complex immune reactions in mammals in vivo and/ or in situ using the major histocompatibility complex (MHC) class II/ enhanced green fluorescent protein (EGFP) knock-in mouse model. Due to the EGFP visualization of MHC II expressing cells we were able to observe antigen presenting cells, which are essential for the onset of immune responses, in their natural environment. Thus, we report some original features of the immune system. We have identified MHC II+ cell clusters with unknown, probably unique function, in the intestine. We have also described MHC II+ cell migration to the lactating mammary gland and tested few hypotheses about the role of this phenomenon for the development of the mammary gland, milk secretion or infant immune system establishment. Lastly, we observed residential macrophages in the cornea. The presence of APCs in the cornea is a very contradictory issue due to the fact that cornea is an immunologically privileged tissue and therefore harbors special immune features. key words: antigen presenting cells (APC), major histocompatibility complex class II (MHC II), enhanced green fluorescent protein (EGFP), immune system, knock-in mouse model

Identificação da ligação direta de uma Fosfolipase D de Loxosceles gaucho às plaquetas. / Identification of direct binding of a Phospholipase D from Loxosceles gaucho to platelets.

Daniel Akio Fukuda

10 August 2017

Fosfolipases D (FLD) do veneno das aranhas do gênero Loxosceles são capazes de causar entre outros efeitos, uma forte agregação plaquetária cujo mecanismo ainda não foi elucidado. Portanto, para estudar o papel das FLDs nesta atividade, uma FLD recombinante de L. gaucho (LgRec1) foi fusionada com a proteína fluorescente verde (EGFP) e utilizada como uma sonda para detectar a interação de LgRec1 com plaquetas. Essa quimera, denominada EGFP-LgRec1, manteve as principais características da LgRec1. A microscopia confocal das plaquetas mostrou que LgRec1 não requer componentes plasmáticos para se ligar às plaquetas, embora estes sejam necessários para que a LgRec1 induza agregação. Além disso, foi observado que a ação da LgRec1 leva à exposição de fosfatidilserina. Contudo, esta exposição não está relacionada à morte celular. Portanto, este trabalho mostrou que uma FLD de Loxosceles se liga a plaquetas, promovendo a exposição de fosfatidilserina, possibilitando a ligação de fatores de coagulação e resultando na agregação plaquetária. / Phospholipases D (PLD) from spider venom of the genus Loxosceles are capable of causing, among other effects, a strong aggregation of platelets and its mechanism has not yet been elucidated. Therefore, to study the role of PLDs in this activity, a recombinant L. gaucho PLD (LgRec1) was fused with a green fluorescent protein (EGFP) and used as a probe to detect the interaction of LgRec1 with platelets. This chimera, named EGFP-LgRec1, remained the main activities of LgRec1. Platelet confocal microscopy has shown that LgRec1 does not require plasma components to bind to platelets, although these are required for LgRec1 to induce aggregation. In addition, it has been observed that the action of LgRec1 leads to exposures of phosphatidylserine. However, this exposure is not related to cell death. Therefore, this work showed that a Loxosceles PLD binds to platelets, promoting an exposure of phosphatidylserine, that may act as a scaffold for coagulation factors, resulting in platelet aggregation.

Loxosceles gaucho

Aranhas

Citometria de fluxo

EGFP

Fosfolipase D

Ligação

Microscopia de fluorescência

Plaquetas

Proteína verde fluorescente

Toxina quimérica

Toxinas

Loxosceles gaucho

Binding

Chimeric toxin

EGFP

Flow cytometry

Fluorescent microscopy

Green fluorecent protein

Phospholipase D

Platelets

Spiders

Toxins

Genetic Engineering of Lactobacillus casei for Surface Displaying the Green Fluorescent Protein: An Effort towards Monitoring the Survival and Fate of Probiotic Bacteria in the Gastrointestinal Tract Environment

Chan, Colin H. L.

28 February 2014

With the introduction of antibiotics in animal feed becoming less popular, the agricultural industry has begun a shift towards the use of probiotics in animal feed. Since there is no current method to evaluate the risks of using genetically modified probiotics in animal feed. The goal of this project was to create a genetically modified model organism for risk assessment. The genetic marker for that was chosen was GFP that was to be expressed on the surface of the cell. The fluorescent properties allow for visualisation of the genetically modified bacteria and the surface expression would allow for the easy capture and recovery of the bacteria for culturing and cell counts. Genome wide screens were performed using the CW PRED algorithm to locate proteins with LPXTG motif for cell wall anchoring. 16 hypothetical proteins were detected and 6 were selected as candidates for possible surface display of GFP. Of these candidates, the novel L. casei protein LSEI_2320 was found to be expressed at the mRNA during early growth by RT PCR and at then protein level during stationary phase with western blot. This LPXTG protein was found at the surface of L. casei ATCC334 during stationary phase and late stationary phase with immunofluorescence microscopy. A genetically modified L. casei ATCC334 was constructed using the surface protein LSEI_2320 locus as a region for recombination with the pRV300 suicide plasmid. Genetic modification of the locus by the insertion of a GFP reporter region just before the predicted signal peptide site resulted in the abrogation of the expression of LSEI_2320 from the cell surface at the late stationary phase. It appears that this particular gene is not necessary to cell survival even though it is abundantly expressed on the cell surface and can be used as a location for genetic modification in L. casei ATCC334.

genetically modified bacteria

Lactobacillus casei

surface display

LPXTG protein

Sortase

eGFP knockin

double cross over recombination

genetic engineering

food safety

Genetic Engineering of Lactobacillus casei for Surface Displaying the Green Fluorescent Protein: An Effort towards Monitoring the Survival and Fate of Probiotic Bacteria in the Gastrointestinal Tract Environment

Chan, Colin H. L.

January 2014

With the introduction of antibiotics in animal feed becoming less popular, the agricultural industry has begun a shift towards the use of probiotics in animal feed. Since there is no current method to evaluate the risks of using genetically modified probiotics in animal feed. The goal of this project was to create a genetically modified model organism for risk assessment. The genetic marker for that was chosen was GFP that was to be expressed on the surface of the cell. The fluorescent properties allow for visualisation of the genetically modified bacteria and the surface expression would allow for the easy capture and recovery of the bacteria for culturing and cell counts. Genome wide screens were performed using the CW PRED algorithm to locate proteins with LPXTG motif for cell wall anchoring. 16 hypothetical proteins were detected and 6 were selected as candidates for possible surface display of GFP. Of these candidates, the novel L. casei protein LSEI_2320 was found to be expressed at the mRNA during early growth by RT PCR and at then protein level during stationary phase with western blot. This LPXTG protein was found at the surface of L. casei ATCC334 during stationary phase and late stationary phase with immunofluorescence microscopy. A genetically modified L. casei ATCC334 was constructed using the surface protein LSEI_2320 locus as a region for recombination with the pRV300 suicide plasmid. Genetic modification of the locus by the insertion of a GFP reporter region just before the predicted signal peptide site resulted in the abrogation of the expression of LSEI_2320 from the cell surface at the late stationary phase. It appears that this particular gene is not necessary to cell survival even though it is abundantly expressed on the cell surface and can be used as a location for genetic modification in L. casei ATCC334.

genetically modified bacteria

Lactobacillus casei

surface display

LPXTG protein

Sortase

eGFP knockin

double cross over recombination

genetic engineering

food safety

Variable Expression of GFP in Different Populations of Peripheral Cholinergic Neurons of ChAT^BAC-eGFP Transgenic Mice

Brown, T. Christopher, Bond, Cherie E., Hoover, Donald B.

01 March 2018

Immunohistochemistry is used widely to identify cholinergic neurons, but this approach has some limitations. To address these problems, investigators developed transgenic mice that express enhanced green fluorescent protein (GFP) directed by the promoter for choline acetyltransferase (ChAT), the acetylcholine synthetic enzyme. Although, it was reported that these mice express GFP in all cholinergic neurons and non-neuronal cholinergic cells, we could not detect GFP in cardiac cholinergic nerves in preliminary experiments. Our goals for this study were to confirm our initial observation and perform a qualitative screen of other representative autonomic structures for the presences of GFP in cholinergic innervation of effector tissues. We evaluated GFP fluorescence of intact, unfixed tissues and the cellular localization of GFP and vesicular acetylcholine transporter (VAChT), a specific cholinergic marker, in tissue sections and intestinal whole mounts. Our experiments identified two major tissues where cholinergic neurons and/or nerve fibers lacked GFP: 1) most cholinergic neurons of the intrinsic cardiac ganglia and all cholinergic nerve fibers in the heart and 2) most cholinergic nerve fibers innervating airway smooth muscle. Most cholinergic neurons in airway ganglia stained for GFP. Cholinergic systems in the bladder and intestines were fully delineated by GFP staining. GFP labeling of input to ganglia with long preganglionic projections (vagal) was sparse or weak, while that to ganglia with short preganglionic projections (spinal) was strong. Total absence of GFP might be due to splicing out of the GFP gene. Lack of GFP in nerve projections from GFP-positive cell bodies might reflect a transport deficiency.

ChAT -eGFP transgenic mice BAC

cholinergic markers

enteric nervous system

immunohistochemistry

intrinsic cardiac neurons

parasympathetic nervous system

Biomedical Sciences

A Functional Genomics Analysis of Glycine Max Vesicle Membrane Fusion Genes in Relation to Infection by Heterodera Glycine

Sharma, Keshav

14 August 2015

Soybean cyst nematode (SCN), a major pathogen of soybean worldwide, causes huge losses in soybean production. Various approaches including cloning of genes to combat this devastating disease help to better understand the cellular function and immune responses of plants. Membrane fusion genes are the important regulatory parts of vesicular transport system, which works through packaging of intracellular compounds and delivering them to apoplast or nematode feeding sites to induce an incompatible reaction. The incompatible nature of membrane fusion proteins such as SNAP25, Munc18, Syntaxin, Synaptobrevin, NSF, Synaptotagmin and alpha-SNAP are conserved in eukaryotes and regulate the intracellular function to combat abiotic and biotic stress in plants. Overexpression of these genes in G. max [Williams 82(PI518671)] which is a susceptible cultivar of soybean to nematodes resulted in a reduction of the SCN population providing further insights of molecular and genetic approaches to solve the SCN problems in agriculture.

plant parasites

genetic engineering

eGFP

snap25

munc18

vamp

nsf

syntaxin

systemic acquired resistance

overexpression

Snare

soybean Cyst Nematode

soybean

Quantitative analysis of glycinergic neurons including Ia inhibitory interneurons in the ventral spinal cord using a BAC-GlyT2-eGFP transgenic mouse model

Painter, Palak Rajeshkumar

28 September 2012

No description available.

Biomedical Research

Neurosciences

Physiology

Sensory motor circuit

reciprocal inhibition

GlyT2-eGFP trangenic mouse model

Ia inhibitiory interneurons