PLoS ONE (Jan 2022)

Evaluation of a library of loxP variants with a wide range of recombination efficiencies by Cre.

  • Yuji Yamauchi,
  • Hidenori Matsukura,
  • Keisuke Motone,
  • Mitsuyoshi Ueda,
  • Wataru Aoki

DOI
https://doi.org/10.1371/journal.pone.0276657
Journal volume & issue
Vol. 17, no. 10
p. e0276657

Abstract

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Sparse labeling of individual cells is an important approach in neuroscience and many other fields of research. Various methods have been developed to sparsely label only a small population of cells; however, there is no simple and reproducible strategy for managing the probability of sparse labeling at desired levels. Here, we aimed to develop a novel methodology based on the Cre-lox system to regulate sparseness at desired levels, and we purely analyzed cleavage efficiencies of loxP mutants by Cre. We hypothesized that mutations in the loxP sequence reduce the recognition efficiency by Cre, which enables the regulation of the sparseness level of gene expression. In this research, we mutagenized the loxP sequence and analyzed a library of loxP variants. We evaluated more than 1000 mutant loxP sequences, including mutants with reduced excision efficiencies by Cre ranging from 0.51% to 59%. This result suggests that these mutant loxP sequences can be useful in regulating the sparseness of genetic labeling at desired levels.