1. Complementation testing identifies genes mediating effects at quantitative trait loci underlying fear-related behavior.
- Author
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Chen, Patrick, Chen, Rachel, LaPierre, Nathan, Chen, Zeyuan, Mefford, Joel, Marcus, Emilie, Heffel, Matthew, Soto, Daniela, Ernst, Jason, Luo, Chongyuan, and Flint, Jonathan Frederic Rest
- Subjects
QTL mapping ,fear conditioning ,inbred mouse strains ,quantitative complementation ,single-nucleus ATAC-seq ,single-nucleus RNA-seq ,Animals ,Female ,Male ,Mice ,Behavior ,Animal ,Chromosome Mapping ,Fear ,Mice ,Inbred C57BL ,Quantitative Trait Loci ,Genetic Complementation Test - Abstract
Knowing the genes involved in quantitative traits provides an entry point to understanding the biological bases of behavior, but there are very few examples where the pathway from genetic locus to behavioral change is known. To explore the role of specific genes in fear behavior, we mapped three fear-related traits, tested fourteen genes at six quantitative trait loci (QTLs) by quantitative complementation, and identified six genes. Four genes, Lamp, Ptprd, Nptx2, and Sh3gl, have known roles in synapse function; the fifth, Psip1, was not previously implicated in behavior; and the sixth is a long non-coding RNA, 4933413L06Rik, of unknown function. Variation in transcriptome and epigenetic modalities occurred preferentially in excitatory neurons, suggesting that genetic variation is more permissible in excitatory than inhibitory neuronal circuits. Our results relieve a bottleneck in using genetic mapping of QTLs to uncover biology underlying behavior and prompt a reconsideration of expected relationships between genetic and functional variation. more...
- Published
- 2024