Journal of Molecular Evolution

, Volume 53, Issue 6, pp 690–702 | Cite as

Identifications, Classification, and Evolution of the Vertebrate α-Amino-3-Hydroxy-5-Methyl-4-Isoxazole Propionic Acid (AMPA) Receptor Subunit Genes

  • Yu-Chia  Chen
  • Shieh-Shiuh  Kung
  • Bo-Yuan  Chen
  • Chi-Chang  Hung
  • Chun-Chen  Chen
  • Tzi-Yuan  Wang
  • Yi-Mi  Wu
  • Wei-Hsiang  Lin
  • Chyng-Shyan  Tzeng
  • Wei-Yuan  Chow
Article

Abstract

The AMPA receptor (AMPAR), a pharmacologically defined ionotropic glutamate receptor, mediates fast excitatory synaptic transmission in the vertebrate central nervous system. Mammalian and avian AMPARs are assembled from the products of four genes (GRIA1–GRIA4) conserved in their translated sequences and gene organizations. Teleost fish also express AMPAR subunits; however, the AMPAR genes have not been extensively investigated in lower vertebrates. To elucidate the evolution of vertebrate AMPAR genes, reverse-transcriptase PCR-based surveys of subunits expressed in the brains of eight nonmammalian vertebrates were performed. The newly cloned vertebrate AMPAR subunits were classified by their sequence identities to the mammalian AMPAR subunits. The results of molecular and phylogenetic analyses indicated that the members of the AMPAR gene family increased from two in the jawless hagfish to four in the tetrapods and the shark and to more than four in the teleost fish. The sizes of AMPAR gene families correlate well with those of many multigene families observed in various vertebrates. Moreover, all vertebrates expressed at least one AMPAR subunit bearing an arginine (R) at the Q/R site, at which no invertebrate glutamate receptor subunit has been found to have an R residue, suggesting that the low calcium-permeable AMPARs appeared at early evolutionary stages of vertebrate central nervous systems. Uniquely, the loop 1 (L1) regions between hydrophobic domain 1 and hydrophobic domain 2 of the hagfish putative GRIA2 and all the teleost GRIA1 subunits were much longer than those of the remaining known ionotropic glutamate receptor subunits. The length and sequence of the L1 of teleost GRIA1 subunits were heterogeneous, suggesting that the amino acid residues in L1 were not highly selected.

Key words: Vertebrate — Teleost — AMPA receptor subunit — RT-PCR — Gene duplication 

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Copyright information

© Springer-Verlag New York Inc. 2001

Authors and Affiliations

  • Yu-Chia  Chen
    • 1
  • Shieh-Shiuh  Kung
    • 1
  • Bo-Yuan  Chen
    • 1
  • Chi-Chang  Hung
    • 1
  • Chun-Chen  Chen
    • 1
  • Tzi-Yuan  Wang
    • 1
  • Yi-Mi  Wu
    • 1
  • Wei-Hsiang  Lin
    • 1
  • Chyng-Shyan  Tzeng
    • 1
  • Wei-Yuan  Chow
    • 1
  1. 1.Department of Life Science, National Tsing Hua University, 101, Sec 2, Kang Fu Road, Hsinchu, Taiwan 30043, Republic of ChinaTW

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