TY - JOUR
T1 - Complex loci in human and mouse genomes
AU - Engström, Pär G.
AU - Suzuki, Harukazu
AU - Ninomiya, Noriko
AU - Akalin, Altuna
AU - Sessa, Luca
AU - Lavorgna, Giovanni
AU - Brozzi, Alessandro
AU - Luzi, Lucilla
AU - Sin, Lam Tan
AU - Yang, Liang
AU - Kunarso, Galih
AU - Ng, Edwin Lian Chong
AU - Batalov, Serge
AU - Wahlestedt, Claes
AU - Kai, Chikatoshi
AU - Kawai, Jun
AU - Carninci, Piero
AU - Hayashizaki, Yoshihide
AU - Wells, Christine
AU - Bajic, Vladimir B.
AU - Orlando, Valerio
AU - Reid, James F.
AU - Lenhard, Boris
AU - Lipovich, Leonard
PY - 2006/4
Y1 - 2006/4
N2 - Mammalian genomes harbor a larger than expected number of complex loci, in which multiple genes are coupled by shared transcribed regions in antisense orientation and/or by bidirectional core promoters. To determine the incidence, functional significance, and evolutionary context of mammalian complex loci, we identified and characterized 5,248 cis-antisense pairs, 1,638 bidirectional promoters, and 1,153 chains of multiple cis-antisense and/or bidirectionally promoted pairs from 36,606 mouse transcriptional units (TUs), along with 6,141 cis-antisense pairs, 2,113 bidirectional promoters, and 1,480 chains from 42,887 human TUs. In both human and mouse, 25% of TUs resided in cis-antisense pairs, only 17% of which were conserved between the two organisms, indicating frequent species specificity of antisense gene arrangements. A sampling approach indicated that over 40% of all TUs might actually be in cis-antisense pairs, and that only a minority of these arrangements are likely to be conserved between human and mouse. Bidirectional promoters were characterized by variable transcriptional start sites and an identifiable midpoint at which overall sequence composition changed strand and the direction of transcriptional initiation switched. In microarray data covering a wide range of mouse tissues, genes in cis-antisense and bidirectionally promoted arrangement showed a higher probability of being coordinately expressed than random pairs of genes. In a case study on homeotic loci, we observed extensive transcription of nonconserved sequences on the noncoding strand, implying that the presence rather than the sequence of these transcripts is of functional importance. Complex loci are ubiquitous, host numerous nonconserved gene structures and lineage-specific exonification events, and may have a cis-regulatory impact on the member genes.
AB - Mammalian genomes harbor a larger than expected number of complex loci, in which multiple genes are coupled by shared transcribed regions in antisense orientation and/or by bidirectional core promoters. To determine the incidence, functional significance, and evolutionary context of mammalian complex loci, we identified and characterized 5,248 cis-antisense pairs, 1,638 bidirectional promoters, and 1,153 chains of multiple cis-antisense and/or bidirectionally promoted pairs from 36,606 mouse transcriptional units (TUs), along with 6,141 cis-antisense pairs, 2,113 bidirectional promoters, and 1,480 chains from 42,887 human TUs. In both human and mouse, 25% of TUs resided in cis-antisense pairs, only 17% of which were conserved between the two organisms, indicating frequent species specificity of antisense gene arrangements. A sampling approach indicated that over 40% of all TUs might actually be in cis-antisense pairs, and that only a minority of these arrangements are likely to be conserved between human and mouse. Bidirectional promoters were characterized by variable transcriptional start sites and an identifiable midpoint at which overall sequence composition changed strand and the direction of transcriptional initiation switched. In microarray data covering a wide range of mouse tissues, genes in cis-antisense and bidirectionally promoted arrangement showed a higher probability of being coordinately expressed than random pairs of genes. In a case study on homeotic loci, we observed extensive transcription of nonconserved sequences on the noncoding strand, implying that the presence rather than the sequence of these transcripts is of functional importance. Complex loci are ubiquitous, host numerous nonconserved gene structures and lineage-specific exonification events, and may have a cis-regulatory impact on the member genes.
UR - http://www.scopus.com/inward/record.url?scp=33646473694&partnerID=8YFLogxK
U2 - 10.1371/journal.pgen.0020047
DO - 10.1371/journal.pgen.0020047
M3 - Article
C2 - 16683030
AN - SCOPUS:33646473694
SN - 1553-7390
VL - 2
SP - 564
EP - 577
JO - PLOS Genetics
JF - PLOS Genetics
IS - 4
M1 - e47
ER -