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The role of G-density in switch region repeats for immunoglobulin class switch recombination.

Nucleic acids research (2014-11-08)
Zheng Z Zhang, Nicholas R Pannunzio, Chih-Lin Hsieh, Kefei Yu, Michael R Lieber
ABSTRACT

The boundaries of R-loops are well-documented at immunoglobulin heavy chain loci in mammalian B cells. Within primary B cells or B cell lines, the upstream boundaries of R-loops typically begin early in the repetitive portion of the switch regions. Most R-loops terminate within the switch repetitive zone, but the remainder can extend a few hundred base pairs further, where G-density on the non-template DNA strand gradually drops to the genome average. Whether the G-density determines how far the R-loops extend is an important question. We previously studied the role of G-clusters in initiating R-loop formation, but we did not examine the role of G-density in permitting the elongation of the R-loop, after it had initiated. Here, we vary the G-density of different portions of the switch region in a murine B cell line. We find that both class switch recombination (CSR) and R-loop formation decrease significantly when the overall G-density is reduced from 46% to 29%. Short 50 bp insertions with low G-density within switch regions do not appear to affect either CSR or R-loop elongation, whereas a longer (150 bp) insertion impairs both. These results demonstrate that G-density is an important determinant of the length over which mammalian genomic R-loops extend.

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Sigma-Aldrich
Ganciclovir, ≥99% (HPLC), powder
Sigma-Aldrich
Kit di minipreparazione dell′RNA totale di mammifero GenElute, sufficient for 350 purifications
Ganciclovir, European Pharmacopoeia (EP) Reference Standard