Literature DB >> 28299555

Molecular characterization and homology modeling of spermidine synthase from Synechococcus sp. PCC 7942.

Apiradee Pothipongsa1,2, Saowarath Jantaro1, Tiina A Salminen2, Aran Incharoensakdi3.   

Abstract

Spermidine synthase (Spds) catalyzes the formation of spermidine by transferring the aminopropyl group from decarboxylated S-adenosylmethionine (dcSAM) to putrescine. The Synechococcus spds gene encoding Spds was expressed in Escherichia coli. The purified recombinant enzyme had a molecular mass of 33 kDa and showed optimal activity at pH 7.5, 37 °C. The enzyme had higher affinity for dcSAM (K m, 20 µM) than for putrescine (K m, 111 µM) and was highly specific towards the diamine putrescine with no activity observed towards longer chain diamines. The three-dimensional structural model for Synechococcus Spds revealed that most of the ligand binding residues in Spds from Synechococcus sp. PCC 7942 are identical to those of human and parasite Spds. Based on the model, the highly conserved acidic residues, Asp89, Asp159 and Asp162, are involved in the binding of substrates putrescine and dcSAM and Pro166 seems to confer substrate specificity towards putrescine.

Entities:  

Keywords:  Homology modeling; Spermidine; Spermidine synthase; Synechococcus sp. PCC 7942

Mesh:

Substances:

Year:  2017        PMID: 28299555     DOI: 10.1007/s11274-017-2242-5

Source DB:  PubMed          Journal:  World J Microbiol Biotechnol        ISSN: 0959-3993            Impact factor:   3.312


  33 in total

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Authors:  P Yodsang; W Raksajit; A-M Brandt; T A Salminen; P Mäenpää; A Incharoensakdi
Journal:  Biochemistry (Mosc)       Date:  2011-06       Impact factor: 2.487

3.  QMEAN: A comprehensive scoring function for model quality assessment.

Authors:  Pascal Benkert; Silvio C E Tosatto; Dietmar Schomburg
Journal:  Proteins       Date:  2008-04

4.  Structure is three to ten times more conserved than sequence--a study of structural response in protein cores.

Authors:  Kristoffer Illergård; David H Ardell; Arne Elofsson
Journal:  Proteins       Date:  2009-11-15

5.  Polyamine synthesis in plants: isolation and characterization of spermidine synthase from soybean (Glycine max) axes.

Authors:  S O Yoon; Y S Lee; S H Lee; Y D Cho
Journal:  Biochim Biophys Acta       Date:  2000-06-01

6.  Cloning and characterization of spermidine synthase and its implication in polyamine biosynthesis in Helicobacter pylori strain 26695.

Authors:  Mon-Juan Lee; Chung-Yu Huang; Yuh-Ju Sun; Haimei Huang
Journal:  Protein Expr Purif       Date:  2005-10       Impact factor: 1.650

7.  The crystal structure of spermidine synthase with a multisubstrate adduct inhibitor.

Authors:  Sergey Korolev; Yoshihiko Ikeguchi; Tatiana Skarina; Steven Beasley; Cheryl Arrowsmith; Aled Edwards; Andrzej Joachimiak; Anthony E Pegg; Alexei Savchenko
Journal:  Nat Struct Biol       Date:  2002-01

8.  Propylamine transferases in chinese cabbage leaves.

Authors:  R K Sindhu; S S Cohen
Journal:  Plant Physiol       Date:  1984-03       Impact factor: 8.340

9.  Cloning, expression, characterisation and three-dimensional structure determination of Caenorhabditis elegans spermidine synthase.

Authors:  Veronica T Dufe; Kai Lüersen; Marie-Luise Eschbach; Nashya Haider; Tobias Karlberg; Rolf D Walter; Salam Al-Karadaghi
Journal:  FEBS Lett       Date:  2005-10-05       Impact factor: 4.124

10.  Crystal structure of Plasmodium falciparum spermidine synthase in complex with the substrate decarboxylated S-adenosylmethionine and the potent inhibitors 4MCHA and AdoDATO.

Authors:  Veronica Tamu Dufe; Wei Qiu; Ingrid B Müller; Raymond Hui; Rolf D Walter; Salam Al-Karadaghi
Journal:  J Mol Biol       Date:  2007-08-02       Impact factor: 5.469
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