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Optimizing Nervous System-Specific Gene Targeting with Cre Driver Lines: Prevalence of Germline Recombination and Influencing Factors.

Publication ,  Journal Article
Luo, L; Ambrozkiewicz, MC; Benseler, F; Chen, C; Dumontier, E; Falkner, S; Furlanis, E; Gomez, AM; Hoshina, N; Huang, W-H; Hutchison, MA ...
Published in: Neuron
April 8, 2020

The Cre-loxP system is invaluable for spatial and temporal control of gene knockout, knockin, and reporter expression in the mouse nervous system. However, we report varying probabilities of unexpected germline recombination in distinct Cre driver lines designed for nervous system-specific recombination. Selective maternal or paternal germline recombination is showcased with sample Cre lines. Collated data reveal germline recombination in over half of 64 commonly used Cre driver lines, in most cases with a parental sex bias related to Cre expression in sperm or oocytes. Slight differences among Cre driver lines utilizing common transcriptional control elements affect germline recombination rates. Specific target loci demonstrated differential recombination; thus, reporters are not reliable proxies for another locus of interest. Similar principles apply to other recombinase systems and other genetically targeted organisms. We hereby draw attention to the prevalence of germline recombination and provide guidelines to inform future research for the neuroscience and broader molecular genetics communities.

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Published In

Neuron

DOI

EISSN

1097-4199

Publication Date

April 8, 2020

Volume

106

Issue

1

Start / End Page

37 / 65.e5

Location

United States

Related Subject Headings

  • Spermatozoa
  • Recombination, Genetic
  • Oocytes
  • Neurons
  • Neurology & Neurosurgery
  • Mosaicism
  • Mice, Transgenic
  • Mice
  • Male
  • Integrases
 

Citation

APA
Chicago
ICMJE
MLA
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Luo, L., Ambrozkiewicz, M. C., Benseler, F., Chen, C., Dumontier, E., Falkner, S., … Craig, A. M. (2020). Optimizing Nervous System-Specific Gene Targeting with Cre Driver Lines: Prevalence of Germline Recombination and Influencing Factors. Neuron, 106(1), 37-65.e5. https://doi.org/10.1016/j.neuron.2020.01.008
Luo, Lin, Mateusz C. Ambrozkiewicz, Fritz Benseler, Cui Chen, Emilie Dumontier, Susanne Falkner, Elisabetta Furlanis, et al. “Optimizing Nervous System-Specific Gene Targeting with Cre Driver Lines: Prevalence of Germline Recombination and Influencing Factors.Neuron 106, no. 1 (April 8, 2020): 37-65.e5. https://doi.org/10.1016/j.neuron.2020.01.008.
Luo L, Ambrozkiewicz MC, Benseler F, Chen C, Dumontier E, Falkner S, et al. Optimizing Nervous System-Specific Gene Targeting with Cre Driver Lines: Prevalence of Germline Recombination and Influencing Factors. Neuron. 2020 Apr 8;106(1):37-65.e5.
Luo, Lin, et al. “Optimizing Nervous System-Specific Gene Targeting with Cre Driver Lines: Prevalence of Germline Recombination and Influencing Factors.Neuron, vol. 106, no. 1, Apr. 2020, pp. 37-65.e5. Pubmed, doi:10.1016/j.neuron.2020.01.008.
Luo L, Ambrozkiewicz MC, Benseler F, Chen C, Dumontier E, Falkner S, Furlanis E, Gomez AM, Hoshina N, Huang W-H, Hutchison MA, Itoh-Maruoka Y, Lavery LA, Li W, Maruo T, Motohashi J, Pai EL-L, Pelkey KA, Pereira A, Philips T, Sinclair JL, Stogsdill JA, Traunmüller L, Wang J, Wortel J, You W, Abumaria N, Beier KT, Brose N, Burgess HA, Cepko CL, Cloutier J-F, Eroglu C, Goebbels S, Kaeser PS, Kay JN, Lu W, Mandai K, McBain CJ, Nave K-A, Prado MAM, Prado VF, Rothstein J, Rubenstein JLR, Saher G, Sakimura K, Sanes JR, Scheiffele P, Takai Y, Umemori H, Verhage M, Yuzaki M, Zoghbi HY, Kawabe H, Craig AM. Optimizing Nervous System-Specific Gene Targeting with Cre Driver Lines: Prevalence of Germline Recombination and Influencing Factors. Neuron. 2020 Apr 8;106(1):37-65.e5.
Journal cover image

Published In

Neuron

DOI

EISSN

1097-4199

Publication Date

April 8, 2020

Volume

106

Issue

1

Start / End Page

37 / 65.e5

Location

United States

Related Subject Headings

  • Spermatozoa
  • Recombination, Genetic
  • Oocytes
  • Neurons
  • Neurology & Neurosurgery
  • Mosaicism
  • Mice, Transgenic
  • Mice
  • Male
  • Integrases