Figure 1.
QTL mapping of Rbcstor1 and Rbcstor2. (A) B6 mice were crossed with FVB mice to generate an F1 generation. F1 mice were then interbred to generate an F2 generation. A total of 156 F2 mice were analyzed for their genetic backgrounds (SNP-based genotyping) and tested for RBC storage biology both by determining posttransfusion recoveries (depicted in panel B) and by high-resolution metabolomics (detailed in Table 1). (B) Twenty-four–hour recovery of stored RBCs was determined for each individual F2 mouse as depicted. Donor RBCs were stored for 7 days, spiked with a fresh HOD RBC tracer population, and then transfused into GFP mice with a B6xFVB F1 genetic background. Representative flow cytometry plots are shown. (C) QTL analysis using 24-hour recovery as a quantitative phenotype identified a single region of high significance over a broad range of chromosome 1, termed Rbcstor1. (D) QTL analysis using spontaneous hemolysis in the storage tube as a quantitative phenotype identified a single region of high significance over a broad range of chromosome 1, termed Rbcstor2. (E) QTL using 24-hour recovery as a phenotype on the subset of F2 mice containing the same allelotypes at Rbcstor1 did not identify any other contributing QTL. Likewise, taking a similar approach with spontaneous hemolysis and Rbcstor2, no additional contributing QTL was identified (data not shown). FDR, false discovery rate.