Zhang-qun Chen scite author profile

Vertebrate evolution has been largely driven by the duplication of genes that allow for the acquisition of new functions. The ATP-binding cassette (ABC) proteins constitute a large and functionally diverse family of membrane transporters. The members of this multigene family are found in all cellular organisms, most often engaged in the translocation of a wide variety of substrates across lipid membranes. Because of the diverse function of these genes, their large size, and the large number of orthologs, ABC genes represent an excellent tool to study gene family evolution. We have identified ABC proteins from the sea squirt (Ciona intestinalis), zebrafish (Danio rerio), and chicken (Gallus gallus) and, using phylogenetic analysis, identified those genes with a one-to-one orthologous relationship to human ABC proteins. All ABC protein subfamilies found in Ciona and zebrafish correspond to the human subfamilies, with the exception of a single ABCH subfamily gene found only in zebrafish. Multiple gene duplication and deletion events were identified in different lineages, indicating an ongoing process of gene evolution. As many ABC genes are involved in human genetic diseases, and important drug transport phenotypes, the understanding of ABC gene evolution is important to the development of animal models and functional studies.

show abstract

The Essential Vertebrate ABCE1 Protein Interacts with Eukaryotic Initiation Factors

Chen

Dong

Ishimura

et al. 2006

Journal of Biological Chemistry

135

118

View full text Add to dashboard Cite

The ABCE1 gene is a member of the ATP-binding cassette (ABC) multigene family and is composed of two nucleotide binding domains and an N-terminal Fe-S binding domain. The ABCE1 gene encodes a protein originally identified for its inhibition of ribonuclease L, a nuclease induced by interferon in mammalian cells. The protein is also required for the assembly of the HIV and SIV gag polypeptides. However, ABCE1 is one of the most highly conserved proteins and is found in one or two copies in all characterized eukaryotes and archaea. Yeast ABCE1/RLI1 is essential to cell division and interacts with translation initiation factors in the assembly of the pre-initiation complex. We show here that the human ABCE1 protein is essential for in vitro and in vivo translation of mRNA and that it binds to eIF2␣ and eIF5. Inhibition of the Xenopus ABCE1 arrests growth at the gastrula stage of development, consistent with a block in translation. The human ABCE1 gene contains 16 introns, and the extremely high degree of amino acid identity allows the evolution of its introns to be examined throughout eukaryotes. The demonstration that ABCE1 plays a role in vertebrate translation initiation extends the known functions of this highly conserved protein. Translation is a highly regulated process important to development and pathologies such as cancer, making ABCE1 a potential target for therapeutics. The evolutionary analysis supports a model in which an ancestral eukaryote had large number of introns and that many of these introns were lost in non-vertebrate lineages. The induction of ribobuclease L (RNase L)2 represents an important viral defense mechanism of mammalian cells against RNA viruses (1, 2). RNase L is present in the cell in an inactive form and can be activated by interferon. Interferon causes the activation of oligoadenylate synthases producing 2Ј-5Ј-oligoadenylate. Bisbal et al. (3) described the isolation of a 68-kDa protein that binds to and inhibits RNase L and cloning of the gene. Although originally termed RNase L inhibitor (RLI) the gene is part of the ABC multigene family and its gene symbol is ABCE1. ABCE1 is induced during infection of cells with HIV-1 and an antisense construct directed against ABCE1 resulted in a reduction of viral load (4). In cell-free extracts HIV-1 gag protein can assemble into viral capsids (5). This process is ATP-dependent and was shown to require a 68-kDa protein (HP68) identified as ABCE1/RLI. This same protein also functions in the assembly of HIV-2 and SIVmac (6).Most of the ABC family genes encode large transport proteins that contain 6 -17 transmembrane domains (7). ABCE1 is one of four human ABC genes that contain only nucleotide binding domains and are therefore not likely to be transporters. Of the 48 human ABC proteins, ABCE1 is the most conserved with a single copy of the gene in every characterized eukaryote, except for Arabidopsis, which has two ABCE1-like genes. In addition, there is an ABCE1-related gene in all characterized archae but not in prokaryotes, demonstrating t...

show abstract

A Radiation Hybrid Map of the Cat Genome: Implications for Comparative Mapping

Murphy¹,

Sun²,

Chen³

et al. 2000

Genome Res.

121

100

View full text Add to dashboard Cite

Ordered gene maps of mammalian species are becoming increasingly valued in assigning gene variants to function in human and animal models, as well as recapitulating the natural history of genome organization. To extend this power to the domestic cat, a radiation hybrid (RH) map of the cat was constructed integrating 424 Type I-coding genes with 176 microsatellite markers, providing coverage over all 20 feline chromosomes. Alignment of parallel RH maps of human and cat reveal 100 conserved segments ordered (CSOs) between the species, nearly three times the number observed with reciprocal chromosome painting analyses. The observed number is equivalent to theoretical predictions of the number of conserved segments to be found between cat and human, implying that 300-400 Type I gene markers is sufficient to reveal nearly all conserved segments for species that exhibit the most frequently observed "slow" rate of genome reorganization. The cat-human RH map comparisons provide a new genomic tool for comparative gene mapping in the cat and related Felidae, and provide confirmation that the cat genome organization is remarkably conserved compared with human. These data demonstrate that ordered RH-based gene maps provide the most precise assessment of comparing genomes, short of contig construction or full-sequence determination.

show abstract

Extensive Conservation of Sex Chromosome Organization Between Cat and Human Revealed by Parallel Radiation Hybrid Mapping

Murphy¹,

Sun²,

Chen³

et al. 1999

Genome Res.

106

View full text Add to dashboard Cite

A radiation hybrid (RH)-derived physical map of 25 markers on the feline X chromosome (including 19 Type I coding loci and 6 Type II microsatellite markers) was compared to homologous marker order on the human and mouse X chromosome maps. Complete conservation of synteny and marker order was observed between feline and human X chromosomes, whereas the same markers identified a minimum of seven rearranged syntenic segments between mouse and cat/human X chromosome marker order. Within the blocks, the feline, human, and mouse marker order was strongly conserved. Similarly, Y chromosome locus order was remarkably conserved between cat and human Y chromosomes, with only one marker (SMCY) position rearranged between the species. Tight linkage and a conserved gene order for a segment encoding three genes, DFFRY-DBY-UTY in human, mouse, and cat Y chromosomes, coupled with demonstrated deletion effects of these genes on reproductive impairment in both human and mouse, implicates the region as critical for Y-mediated sperm production.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.

Zhang-qun Chen

Evolution of the vertebrate ABC gene family: Analysis of gene birth and death

The Essential Vertebrate ABCE1 Protein Interacts with Eukaryotic Initiation Factors

A Radiation Hybrid Map of the Cat Genome: Implications for Comparative Mapping

Extensive Conservation of Sex Chromosome Organization Between Cat and Human Revealed by Parallel Radiation Hybrid Mapping

Contact Info

Product

Resources

About