Chimeric mitochondrial minichromosomes of the human body louse, Pediculus humanus: evidence for homologous and non-homologous recombination |
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| Authors: | Shao Renfu Barker Stephen C |
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| Affiliation: | The University of Queensland, School of Chemistry and Molecular Biosciences, Queensland 4072, Australia. r.shao@uq.edu.au |
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| Abstract: | ![]()
The mitochondrial (mt) genome of the human body louse, Pediculus humanus, consists of 18 minichromosomes. Each minichromosome is 3 to 4 kb long and has 1 to 3 genes. There is unequivocal evidence for recombination between different mt minichromosomes in P. humanus. It is not known, however, how these minichromosomes recombine. Here, we report the discovery of eight chimeric mt minichromosomes in P. humanus. We classify these chimeric mt minichromosomes into two groups: Group I and Group II. Group I chimeric minichromosomes contain parts of two different protein-coding genes that are from different minichromosomes. The two parts of protein-coding genes in each Group I chimeric minichromosome are joined at a microhomologous nucleotide sequence; microhomologous nucleotide sequences are hallmarks of non-homologous recombination. Group II chimeric minichromosomes contain all of the genes and the non-coding regions of two different minichromosomes. The conserved sequence blocks in the non-coding regions of Group II chimeric minichromosomes resemble the "recombination repeats" in the non-coding regions of the mt genomes of higher plants. These repeats are essential to homologous recombination in higher plants. Our analyses of the nucleotide sequences of chimeric mt minichromosomes indicate both homologous and non-homologous recombination between minichromosomes in the mitochondria of the human body louse. |
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| Keywords: | mt, mitochondrial mtDNA, mitochondrial DNA kb, kilobase rRNA, ribosomal RNA tRNA, transfer RNA PCR, polymerase chain reaction DNA, deoxyribonucleic acid CR, coding region NCR, non-coding region CSB, conserved sequence block DSB, double-strand break SSB, single-strand break ROS, reactive oxygen species atp6 and atp8, ATP synthase subunits 6 and 8 cox1-3, cytochrome c oxidase subunits 1, 2, and 3 cob, cytochrome b nad1-6 and 4L, NADH dehydrogenase subunits 1 to 6, and 4L pnad1, part of the gene for NADH dehydrogenase subunit 1 patp6, part of the gene for ATP synthase subunit 6 pcox2, part of the gene for cytochrome c oxidase subunit 2 pcox3, part of the gene for cytochrome c oxidase subunit 3 rrnL, large ribosomal RNA subunit rrnS, small ribosomal RNA subunit trnA, tRNA gene for alanine trnC, tRNA gene for cysteine trnD, tRNA gene for aspartic acid trnE, tRNA gene for glutamic acid trnF, tRNA gene for phenylalanine trnG, tRNA gene for glycine trnH, tRNA gene for histidine trnI, tRNA gene for isoleucine trnK, tRNA gene for lysine trnL1, tRNA gene for leucine (anticodon NAG) trnL2, tRNA gene for leucine (anticodon YAA) trnM, tRNA gene for methionine trnN, tRNA gene for asparagine trnP, tRNA gene for proline trnQ, tRNA gene for glutamine trnR, tRNA gene for arganine trnS1, tRNA gene for serine (anticodon NCU) trnS2, tRNA gene for serine (anticodon NGA) trnT, tRNA gene for threonine trnV, tRNA gene for valine trnW, tRNA gene for tryptophan trnY, tRNA gene for tyrosine |
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