Abstract
BackgroundIn eukaryotes, ABC transporters that utilize the energy of ATP hydrolysis to expel cellular substrates into the environment are responsible for most of the efflux from cells. Many members of the superfamily of ABC transporters have been linked with resistance to multiple drugs or toxins. Owing to their medical and toxicological importance, members of the ABC superfamily have been studied in several model organisms and warrant examination in newly sequenced genomes.ResultsA total of 165 ABC transporter genes, constituting a highly expanded superfamily relative to its size in other eukaryotes, were identified in the macronuclear genome of the ciliate Tetrahymena thermophila. Based on ortholog comparisons, phylogenetic topologies and intron characterizations, each highly expanded ABC transporter family of T. thermophila was classified into several distinct groups, and hypotheses about their evolutionary relationships are presented. A comprehensive microarray analysis revealed divergent expression patterns among the members of the ABC transporter superfamily during different states of physiology and development. Many of the relatively recently formed duplicate pairs within individual ABC transporter families exhibit significantly different expression patterns. Further analysis showed that multiple mechanisms have led to functional divergence that is responsible for the preservation of duplicated genes.ConclusionGene duplications have resulted in an extensive expansion of the superfamily of ABC transporters in the Tetrahymena genome, making it the largest example of its kind reported in any organism to date. Multiple independent duplications and subsequent divergence contributed to the formation of different families of ABC transporter genes. Many of the members within a gene family exhibit different expression patterns. The combination of gene duplication followed by both sequence divergence and acquisition of new patterns of expression likely plays a role in the adaptation of Tetrahymen a to its environment.
Highlights
In eukaryotes, ATP-binding cassette (ABC) transporters that utilize the energy of ATP hydrolysis to expel cellular substrates into the environment are responsible for most of the efflux from cells
Identification and classification of ABC transporter genes in T. thermophila A total of 165 putative ABC transporter genes were identified in T. thermophila (Additional file 1), making it the largest superfamily of ABC transporter genes described in any species to date
Three ABCA genes (ABCA1, ABCA8, and ABCA15) in Tetrahymena are highly similar to the suABCA gene in sea urchins, which was found in sperm membrane vesicles and is involved in changing the immature sperm membrane to produce the terminally differentiated mature spermatozoa [34]
Summary
ABC transporters that utilize the energy of ATP hydrolysis to expel cellular substrates into the environment are responsible for most of the efflux from cells. Many members of the superfamily of ABC transporters have been linked with resistance to multiple drugs or toxins Owing to their medical and toxicological importance, members of the ABC superfamily have been studied in several model organisms and warrant examination in newly sequenced genomes. Products of ABC genes have been implicated as factors contributing to resistance against chemotherapeutics [8], and in insects, ABC genes have been linked to pesticide resistance [9,10,11] These medical and toxicological roles make ABC transporters important in pharmacological research [12], therapeutic applications [13], and toxicology [14]. The ABC transporter superfamily in unicellular free-living species requires additional study
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