AUTHOR=Aska Elli-Mari , Zagidullin Bulat , Pitkänen Esa , Kauppi Liisa 

TITLE=Single-Cell Mononucleotide Microsatellite Analysis Reveals Differential Insertion-Deletion Dynamics in Mouse T Cells

JOURNAL=Frontiers in Genetics

VOLUME=13

YEAR=2022

URL=https://www.frontiersin.org/journals/genetics/articles/10.3389/fgene.2022.913163

DOI=10.3389/fgene.2022.913163

ISSN=1664-8021

ABSTRACT=<p>Microsatellite sequences are particularly prone to slippage during DNA replication, forming insertion-deletion loops that, if left unrepaired, result in <italic>de novo</italic> mutations (expansions or contractions of the repeat array). Mismatch repair (MMR) is a critical DNA repair mechanism that corrects these insertion-deletion loops, thereby maintaining microsatellite stability. MMR deficiency gives rise to the molecular phenotype known as microsatellite instability (MSI). By sequencing MMR-proficient and -deficient (<italic>Mlh1</italic><sup><italic>+/+</italic></sup> and <italic>Mlh1</italic><sup><italic>−/−</italic></sup>) single-cell exomes from mouse T cells, we reveal here several previously unrecognized features of <italic>in vivo</italic> MSI. Specifically, mutational dynamics of insertions and deletions were different on multiple levels. Factors that associated with propensity of mononucleotide microsatellites to insertions versus deletions were: microsatellite length, nucleotide composition of the mononucleotide tract, gene length and transcriptional status, as well replication timing. Here, we show on a single-cell level that deletions — the predominant MSI type in MMR-deficient cells — are preferentially associated with longer A/T tracts, long or transcribed genes and later-replicating genes.</p>