6533b82cfe1ef96bd128eb41

RESEARCH PRODUCT

Sequence features and evolutionary mechanisms in the chicken avidin gene family

Alessandro GrapputoOlli H. LaitinenMarkku S. KulomaaMervi K. Ahlroth

subject

Nonsynonymous substitutionBiotin bindingGene ConversionBiophysicsBiologyBiochemistryEvolution MolecularExonGene clusterAnimalsGene familyGene conversionMolecular BiologyGeneAllelesPhylogenyGeneticsConcerted evolutionGenetic VariationExonsSequence Analysis DNACell BiologyAvidinIntronsMultigene FamilyChickens

description

The chicken avidin gene family comprises the avidin gene (avd) and several homologous avidin-related genes (avrs). The sequences of the avr genes are nearly identical to each other but exhibit nonrandomly distributed, frequently nonsynonymous nucleotide substitutions compared to avd. In this study, we determined the genetic distances and the phylogeny of the avd and avr genes and found differences between different exons and introns. Our results suggest the involvement of biased gene conversion in the evolution of the genes. Furthermore, one of the genes was identified as a putative fusion gene. The occurrence of both gene conversion and recombination supports the models suggesting a common initiation mechanism for conversion and crossing-over. The existence of avidin-related proteins (AVRs) is currently unknown, but the putative AVRs are expected to bind biotin similarly to avidin. However, the observed sequence differences may affect the stability and glycosylation patterns of the putative AVR proteins.

yearjournalcountryeditionlanguage
2001-07-17
10.1006/bbrc.2001.5163http://hdl.handle.net/11577/152758