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A CRISPR toolbox for generating intersectional genetic mouse models for functional, molecular, and anatomical circuit mapping
by
Fahey, Paul G.
, Patel, Jay
, Sun, Jenny J.
, Egbert, Jeremy R.
, McKinney, Andrew
, Allen, Genevera
, Ray, Russell S.
, Costa-Mattioli, Mauro
, Martinez, Vena K.
, Hunt, Patrick J.
, Jiang, Xiaolong
, Arenkiel, Benjamin R.
, Chang, Andersen
, Lusk, Savannah J.
, Zhu, Ping Jun
, Tolias, Andreas S.
in
Alleles
/ Animal models
/ Animals
/ Biomedical and Life Sciences
/ Brain mapping
/ Calcium
/ Cell lines
/ Cellular communication
/ Circuits
/ Circuits and Behavior
/ Clustered Regularly Interspaced Short Palindromic Repeats
/ Cre
/ CRISPR
/ CRISPR/Cas9
/ Deoxyribonucleic acid
/ DNA
/ Dre
/ Efficiency
/ Female
/ Flp
/ FLP recombinase
/ Follicle-stimulating hormone
/ Gene mapping
/ Gene targeting
/ Genetic aspects
/ Genetic engineering
/ In vivo methods and tests
/ Integrases - genetics
/ Integrases - metabolism
/ Intersectional genetics
/ Kinases
/ Life Sciences
/ Luteinizing hormone
/ Mapping
/ Methodology
/ Methodology Article
/ Mice
/ Mice, Transgenic
/ Molecular modelling
/ Neural circuitry
/ Neurons
/ Neurons - physiology
/ Plasmids
/ Population genetics
/ Populations
/ Proteins
/ Recombinases
/ Recombinases - genetics
/ Recombinases - metabolism
/ Respiration
/ Stem cells
/ Toolkits
/ Transgenic mice
2022
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A CRISPR toolbox for generating intersectional genetic mouse models for functional, molecular, and anatomical circuit mapping
by
Fahey, Paul G.
, Patel, Jay
, Sun, Jenny J.
, Egbert, Jeremy R.
, McKinney, Andrew
, Allen, Genevera
, Ray, Russell S.
, Costa-Mattioli, Mauro
, Martinez, Vena K.
, Hunt, Patrick J.
, Jiang, Xiaolong
, Arenkiel, Benjamin R.
, Chang, Andersen
, Lusk, Savannah J.
, Zhu, Ping Jun
, Tolias, Andreas S.
in
Alleles
/ Animal models
/ Animals
/ Biomedical and Life Sciences
/ Brain mapping
/ Calcium
/ Cell lines
/ Cellular communication
/ Circuits
/ Circuits and Behavior
/ Clustered Regularly Interspaced Short Palindromic Repeats
/ Cre
/ CRISPR
/ CRISPR/Cas9
/ Deoxyribonucleic acid
/ DNA
/ Dre
/ Efficiency
/ Female
/ Flp
/ FLP recombinase
/ Follicle-stimulating hormone
/ Gene mapping
/ Gene targeting
/ Genetic aspects
/ Genetic engineering
/ In vivo methods and tests
/ Integrases - genetics
/ Integrases - metabolism
/ Intersectional genetics
/ Kinases
/ Life Sciences
/ Luteinizing hormone
/ Mapping
/ Methodology
/ Methodology Article
/ Mice
/ Mice, Transgenic
/ Molecular modelling
/ Neural circuitry
/ Neurons
/ Neurons - physiology
/ Plasmids
/ Population genetics
/ Populations
/ Proteins
/ Recombinases
/ Recombinases - genetics
/ Recombinases - metabolism
/ Respiration
/ Stem cells
/ Toolkits
/ Transgenic mice
2022
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A CRISPR toolbox for generating intersectional genetic mouse models for functional, molecular, and anatomical circuit mapping
by
Fahey, Paul G.
, Patel, Jay
, Sun, Jenny J.
, Egbert, Jeremy R.
, McKinney, Andrew
, Allen, Genevera
, Ray, Russell S.
, Costa-Mattioli, Mauro
, Martinez, Vena K.
, Hunt, Patrick J.
, Jiang, Xiaolong
, Arenkiel, Benjamin R.
, Chang, Andersen
, Lusk, Savannah J.
, Zhu, Ping Jun
, Tolias, Andreas S.
in
Alleles
/ Animal models
/ Animals
/ Biomedical and Life Sciences
/ Brain mapping
/ Calcium
/ Cell lines
/ Cellular communication
/ Circuits
/ Circuits and Behavior
/ Clustered Regularly Interspaced Short Palindromic Repeats
/ Cre
/ CRISPR
/ CRISPR/Cas9
/ Deoxyribonucleic acid
/ DNA
/ Dre
/ Efficiency
/ Female
/ Flp
/ FLP recombinase
/ Follicle-stimulating hormone
/ Gene mapping
/ Gene targeting
/ Genetic aspects
/ Genetic engineering
/ In vivo methods and tests
/ Integrases - genetics
/ Integrases - metabolism
/ Intersectional genetics
/ Kinases
/ Life Sciences
/ Luteinizing hormone
/ Mapping
/ Methodology
/ Methodology Article
/ Mice
/ Mice, Transgenic
/ Molecular modelling
/ Neural circuitry
/ Neurons
/ Neurons - physiology
/ Plasmids
/ Population genetics
/ Populations
/ Proteins
/ Recombinases
/ Recombinases - genetics
/ Recombinases - metabolism
/ Respiration
/ Stem cells
/ Toolkits
/ Transgenic mice
2022
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A CRISPR toolbox for generating intersectional genetic mouse models for functional, molecular, and anatomical circuit mapping
Journal Article
A CRISPR toolbox for generating intersectional genetic mouse models for functional, molecular, and anatomical circuit mapping
2022
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Overview
Background
The functional understanding of genetic interaction networks and cellular mechanisms governing health and disease requires the dissection, and multifaceted study, of discrete cell subtypes in developing and adult animal models. Recombinase-driven expression of transgenic effector alleles represents a significant and powerful approach to delineate cell populations for functional, molecular, and anatomical studies. In addition to single recombinase systems, the expression of two recombinases in distinct, but partially overlapping, populations allows for more defined target expression. Although the application of this method is becoming increasingly popular, its experimental implementation has been broadly restricted to manipulations of a limited set of common alleles that are often commercially produced at great expense, with costs and technical challenges associated with production of intersectional mouse lines hindering customized approaches to many researchers. Here, we present a simplified CRISPR toolkit for rapid, inexpensive, and facile intersectional allele production.
Results
Briefly, we produced 7 intersectional mouse lines using a dual recombinase system, one mouse line with a single recombinase system, and three embryonic stem (ES) cell lines that are designed to study the way functional, molecular, and anatomical features relate to each other in building circuits that underlie physiology and behavior. As a proof-of-principle, we applied three of these lines to different neuronal populations for anatomical mapping and functional in vivo investigation of respiratory control. We also generated a mouse line with a single recombinase-responsive allele that controls the expression of the calcium sensor Twitch-2B. This mouse line was applied globally to study the effects of follicle-stimulating hormone (FSH) and luteinizing hormone (LH) on calcium release in the ovarian follicle.
Conclusions
The lines presented here are representative examples of outcomes possible with the successful application of our genetic toolkit for the facile development of diverse, modifiable animal models. This toolkit will allow labs to create single or dual recombinase effector lines easily for any cell population or subpopulation of interest when paired with the appropriate Cre and FLP recombinase mouse lines or viral vectors. We have made our tools and derivative intersectional mouse and ES cell lines openly available for non-commercial use through publicly curated repositories for plasmid DNA, ES cells, and transgenic mouse lines.
Publisher
BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC
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