Pages that link to "Q28655696"

The following pages link to Enigmatic orthology relationships between Hox clusters of the African butterfly fish and other teleosts following ancient whole-genome duplication (Q28655696):

Displaying 14 items.

• Homeodomain proteins: an update (Q26783539) (← links)
• The Asian arowana (Scleropages formosus) genome provides new insights into the evolution of an early lineage of teleosts (Q28604088) (← links)
• Lineage-specific rediploidization is a mechanism to explain time-lags between genome duplication and evolutionary diversification (Q33796026) (← links)
• Timing and Scope of Genomic Expansion within Annelida: Evidence from Homeoboxes in the Genome of the Earthworm Eisenia fetida (Q34504890) (← links)
• Rapid genome reshaping by multiple-gene loss after whole-genome duplication in teleost fish suggested by mathematical modeling (Q36355017) (← links)
• Evolution and Expression of Tissue Globins in Ray-Finned Fishes. (Q37738547) (← links)
• Diversification of Hox Gene Clusters in Osteoglossomorph Fish in Comparison to Other Teleosts and the Spotted Gar Outgroup (Q38946875) (← links)
• Recent advances in understanding the roles of whole genome duplications in evolution. (Q41528421) (← links)
• Complex Genes Are Preferentially Retained After Whole-Genome Duplication in Teleost Fish. (Q48061812) (← links)
• Hagfish and lamprey Hox genes reveal conservation of temporal colinearity in vertebrates (Q58483255) (← links)
• De novo European eel transcriptome provides insights into the evolutionary history of duplicated genes in teleost lineages. (Q64889330) (← links)
• Atlantic salmon (Salmo salar L.) genetics in the 21st century: taking leaps forward in aquaculture and biological understanding. (Q64968956) (← links)
• The sterlet sturgeon genome sequence and the mechanisms of segmental rediploidization (Q90776971) (← links)
• Deeply conserved synteny resolves early events in vertebrate evolution (Q92094861) (← links)