Toxins (Mar 2020)

Discovery of the Gene Encoding a Novel Small Serum Protein (SSP) of <i>Protobothrops flavoviridis</i> and the Evolution of SSPs

  • Kento Inamaru,
  • Ami Takeuchi,
  • Marie Maeda,
  • Hiroki Shibata,
  • Yasuyuki Fukumaki,
  • Naoko Oda-Ueda,
  • Shosaku Hattori,
  • Motonori Ohno,
  • Takahito Chijiwa

DOI
https://doi.org/10.3390/toxins12030177
Journal volume & issue
Vol. 12, no. 3
p. 177

Abstract

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Small serum proteins (SSPs) are low-molecular-weight proteins in snake serum with affinities for various venom proteins. Five SSPs, PfSSP-1 through PfSSP-5, have been reported in Protobothrops flavoviridis (“habu”, Pf) serum so far. Recently, we reported that the five genes encoding these PfSSPs are arranged in tandem on a single chromosome. However, the physiological functions and evolutionary origins of the five SSPs remain poorly understood. In a detailed analysis of the habu draft genome, we found a gene encoding a novel SSP, SSP-6. Structural analysis of the genes encoding SSPs and their genomic arrangement revealed the following: (1) SSP-6 forms a third SSP subgroup; (2) SSP-5 and SSP-6 were present in all snake genomes before the divergence of non-venomous and venomous snakes, while SSP-4 was acquired only by venomous snakes; (3) the composition of paralogous SSP genes in snake genomes seems to reflect snake habitat differences; and (4) the evolutionary emergence of SSP genes is probably related to the physiological functions of SSPs, with an initial snake repertoire of SSP-6 and SSP-5. SSP-4 and its derivative, SSP-3, as well as SSP-1 and SSP-2, appear to be venom-related and were acquired later.

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