Nonhuman genetics. Genomic basis for the convergent evolution of electric organs

Nonhuman genetics. Genomic basis for the convergent evolution of electric organs

Little is known about the genetic basis of convergent traits that originate repeatedly over broad taxonomic scales. The myogenic electric organ has evolved six times in fishes to produce electric fields used in communication, navigation, predation, or defense. We have examined the genomic basis of t...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2014-06, Vol.344 (6191), p.1522-1525
Hauptverfasser: Gallant, Jason R, Traeger, Lindsay L, Volkening, Jeremy D, Moffett, Howell, Chen, Po-Hao, Novina, Carl D, Phillips, Jr, George N, Anand, Rene, Wells, Gregg B, Pinch, Matthew, Güth, Robert, Unguez, Graciela A, Albert, James S, Zakon, Harold H, Samanta, Manoj P, Sussman, Michael R
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Biological Evolution
Catfishes - anatomy & histology
Catfishes - genetics
Catfishes - physiology
Cell Differentiation
Electric Fish - anatomy & histology
Electric Fish - genetics
Electric Fish - physiology
Electric Organ - anatomy & histology
Electric Organ - cytology
Electric Organ - physiology
Electrophorus - anatomy & histology
Electrophorus - genetics
Electrophorus - physiology
Gene Expression Regulation
Gene Regulatory Networks
Muscle, Skeletal - cytology
Muscle, Skeletal - physiology
Phylogeny
Transcription Factors - genetics
Transcription Factors - metabolism
Transcriptome
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Zusammenfassung:Little is known about the genetic basis of convergent traits that originate repeatedly over broad taxonomic scales. The myogenic electric organ has evolved six times in fishes to produce electric fields used in communication, navigation, predation, or defense. We have examined the genomic basis of the convergent anatomical and physiological origins of these organs by assembling the genome of the electric eel (Electrophorus electricus) and sequencing electric organ and skeletal muscle transcriptomes from three lineages that have independently evolved electric organs. Our results indicate that, despite millions of years of evolution and large differences in the morphology of electric organ cells, independent lineages have leveraged similar transcription factors and developmental and cellular pathways in the evolution of electric organs.
ISSN:1095-9203
DOI:10.1126/science.1254432