Abstract
To determine whether the distinctive features of Caenorhabditis elegans chromosomal organization are shared with the C. briggsae genome, we constructed a single nucleotide polymorphism–based genetic map to order and orient the whole genome shotgun assembly along the six C. briggsae chromosomes. Although these species are of the same genus, their most recent common ancestor existed 80–110 million years ago, and thus they are more evolutionarily distant than, for example, human and mouse. We found that, like C. elegans chromosomes, C. briggsae chromosomes exhibit high levels of recombination on the arms along with higher repeat density, a higher fraction of intronic sequence, and a lower fraction of exonic sequence compared with chromosome centers. Despite extensive intrachromosomal rearrangements, 1:1 orthologs tend to remain in the same region of the chromosome, and colinear blocks of orthologs tend to be longer in chromosome centers compared with arms. More strikingly, the two species show an almost complete conservation of synteny, with 1:1 orthologs present on a single chromosome in one species also found on a single chromosome in the other. The conservation of both chromosomal organization and synteny between these two distantly related species suggests roles for chromosome organization in the fitness of an organism that are only poorly understood presently.
Highlights
The comparative analysis of the related nematodes Caenorhabditis elegans and C. briggsae offers a powerful approach toward understanding the genetic basis for the form and function of these simple animals
single nucleotide polymorphism (SNP) Discovery To find a suitable strain for SNP discovery, we investigated four independent wild isolates that grow well in culture, are interfertile with the sequenced AF16 strain, and represent both tropical and temperate groups [10,11] (Table 1)
We initially aligned a small number of random genomic sequences against the AF16 assembled sequence to ascertain the approximate incidence of single nucleotide variation
Summary
The comparative analysis of the related nematodes Caenorhabditis elegans and C. briggsae offers a powerful approach toward understanding the genetic basis for the form and function of these simple animals. The two species are almost indistinguishable, despite the fact that their most recent common ancestor (MRCA) existed about 100 million years ago (Mya). Both are soil-dwelling, selffertilizing hermaphrodites, with facultative males. Genes isolated in one species will frequently rescue mutants in the other [3,4] Despite these similarities, nucleotide alignments (using the wobble-aware bulk aligner [WABA] algorithm [5]) of the complete genome sequence of C. elegans [6,7] with the draft sequence of C. briggsae strain AF16 reveals that 52.3% of the C. elegans genome and 50.1% of the C. briggsae genome aligns between the two species with the bulk of this in coding sequence [8].
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