Systematic exchanges between nucleotides: Genomic swinger repeats and swinger transcription in human mitochondria

摘要

Chargaffs second parity rule, quasi-equal single strand frequencies for complementary nucleotides, presumably results from insertion of repeats and inverted repeats during sequence genesis. Vertebrate mitogenomes escape this rule because repeats are counterselected: their hybridization produces loop bulges whose deletion is deleterious. Some DNA/RNA sequences match mitogenomes only after assuming one among 23 systematic nucleotide exchanges (swinger DNA/RNA: nine symmetric, e.g. A <-> C; and 14 asymmetric, e.g. A -> C -> G -> A). Swinger-transformed repeats do not hybridize, escaping selection against deletions due to bulge formation. Blast analyses of the human mitogenome detect swinger repeats for all 23 swinger types, more than in randomized sequences with identical length and nucleotide contents. Mean genomic swinger repeat lengths increase with observed human swinger RNA frequencies: swinger repeat and swinger RNA productions appear linked, perhaps by swinger RNA retrotranscription. Mean swinger repeat lengths are proportional to reading frame retrievability, post-swinger transformation, by the natural circular code. Genomic swinger repeats confirm at genomic level, independently of swinger RNA detection, occurrence of swinger polymerizations. They suggest that repeats, and swinger repeats in particular, contribute to genome genesis. (C) 2015 Elsevier Ltd. All rights reserved.