MicroRNAs and the advent of vertebrate morphological complexity

Heimberg, Alysha M.; Sempere, Lorenzo F.; Moy, Vanessa N.; Donoghue, Philip C. J.; Peterson, Kevin J.

doi:10.1073/pnas.0712259105

Cited by 370 publications

(369 citation statements)

References 43 publications

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“…Rare genomic changes have also provided some evidence in its favor: the domain structure of cadherins (Oda et al, 2002), a unique amino-acid insertion in fibrillar collagen (Wada et al, 2006), and the distribution of micro RNAs (miRNAs) (Heimberg et al, 2008). Finally, the Branchiostoma floridae genome helps confirming the sistergroup relationship between tunicates and vertebrates in offering additional evidence from analyses of intron dynamics (Putnam et al, 2008).…”

Section: Corroborative Evidence For Olfactores Monophylymentioning

confidence: 99%

“…The comparison of miRNA repertoires in metazoans has also recently unearthed some potential signatures for the sister-group relationship of tunicates and vertebrates (Heimberg et al, 2008). miRNAs are small noncoding RNAs involved in regulation of gene expression in eukaryotes and play an important role in the development of metazoans.…”

Section: Corroborative Evidence For Olfactores Monophylymentioning

confidence: 99%

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Additional molecular support for the new chordate phylogeny

Delsuc

Tsagkogeorga

Lartillot

et al. 2008

Genesis

211

173

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Summary: Recent phylogenomic analyses have suggested tunicates instead of cephalochordates as the closest living relatives of vertebrates. In direct contradiction with the long accepted view of Euchordates, this new phylogenetic hypothesis for chordate evolution has been the object of some skepticism. We assembled an expanded phylogenomic dataset focused on deuterostomes. Maximum-likelihood using standard models and Bayesian phylogenetic analyses using the CAT site-heterogeneous mixture model of amino-acid replacement both provided unequivocal support for the sister-group relationship between tunicates and vertebrates (Olfactores). Chordates were recovered as monophyletic with cephalochordates as the most basal lineage. These results were robust to both gene sampling and missing data. New analyses of ribosomal rRNA also recovered Olfactores when compositional bias was alleviated. Despite the inclusion of 25 taxa representing all major lineages, the monophyly of deuterostomes remained poorly supported. The implications of these phylogenetic results for interpreting chordate evolution are discussed in light of recent advances from evolutionary developmental biology and genomics. genesis 46:592-604, 2008. V V C 2008 Wiley-Liss, Inc.

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Section: Corroborative Evidence For Olfactores Monophylymentioning

confidence: 99%

Section: Corroborative Evidence For Olfactores Monophylymentioning

confidence: 99%

Additional molecular support for the new chordate phylogeny

Delsuc

Tsagkogeorga

Lartillot

et al. 2008

Genesis

211

173

View full text Add to dashboard Cite

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“…1B and Table 1), and found that major expansions of the new human miRNA family emergence also coincides with the advent of vertebrates, mammals and primates. Heimberg et al [8] found that a greatly expanded set of miRNAs have occurred in vertebrates as compared with bilaterian invertebrates and also identified 41 miRNA families evolved at the base of vertebrate. However, in our study, we revealed 72 miRNA families emerged from the vertebrate lineages, and further found that the number of the new human miRNA family reached a peak in the mammalian lineage.…”

Section: Evolutionary Distribution Of Human Mirnasmentioning

confidence: 99%

“…The phylogenetic distribution and evolution of animal and plant miRNAs have been studied in recent reports [2][3][4][5][6][7][8][9][10][11][12]. In animals, the expansion of miRNAs is an ongoing process [5].…”

Section: Introductionmentioning

confidence: 99%

Systematic analysis of human microRNA divergence based on evolutionary emergence

et al. 2010

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a b s t r a c tMicroRNAs (miRNAs) play important roles in post-transcriptional gene expression control. To gain new insight into human miRNAs, we performed comprehensive sequence-based homology search for known human miRNAs to study the evolutionary distribution of human miRNAs. Furthermore, we carried out a series of studies to compare various features for different lineage-specific human miRNAs. Our results showed that major expansions of human miRNA genes coincide with the advent of vertebrates, mammals and primates. Further system-level analysis revealed significant differences in human miRNAs that arose from different evolutionary time points for a number of characteristics, implicating genetic and functional diversification for different human miRNAs during evolution. Our finds provide more useful knowledge for further exploring origins and evolution of human miRNA genes.

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“…Other ways that new miRNAs can arise include the modification or duplication of pre-existing miRNAs [108]. A rapid increase in the diversity of miRNAs in existing genomes is often correlated to a burst of new morphological diversity, and thus miRNA may be crucial to the development of complex morphologies because of its regulatory activity [71,110,134].…”

Section: Evolution Of Mirnamentioning

confidence: 99%

Diversity, evolution, and therapeutic applications of small RNAs in prokaryotic and eukaryotic immune systems

Cooper

Overstreet

2014

Physics of Life Reviews

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Recent evidence supports that prokaryotes exhibit adaptive immunity in the form of CRISPR (Clustered Regularly Interspersed Short Palindromic Repeats) and Cas (CRISPR associated proteins). The CRISPR-Cas system confers resistance to exogenous genetic elements such as phages and plasmids by allowing for the recognition and silencing of these genetic elements. Moreover, CRISPR-Cas serves as a memory of past exposures. This suggests that the evolution of the immune system has counterparts among the prokaryotes, not exclusively among eukaryotes. Mathematical models have been proposed which simulate the evolutionary patterns of CRISPR, however large gaps in our understanding of CRISPR-Cas function and evolution still exist. The CRISPR-Cas system is analogous to small RNAs involved in resistance mechanisms throughout the tree of life, and a deeper understanding of the evolution of small RNA pathways is necessary before the relationship between these convergent systems is to be determined. Presented in this review are novel RNAi therapies based on CRISPR-Cas analogs and the potential for future therapies based on CRISPR-Cas system components.

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MicroRNAs and the advent of vertebrate morphological complexity

Cited by 370 publications

References 43 publications

Additional molecular support for the new chordate phylogeny

Additional molecular support for the new chordate phylogeny

Systematic analysis of human microRNA divergence based on evolutionary emergence

Diversity, evolution, and therapeutic applications of small RNAs in prokaryotic and eukaryotic immune systems

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