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Asp-89: A critical residue in maintaining the oligomeric structure of sheep liver cytosolic serine hydroxymethyltransferase

Rao, Krishna JV and Jagath, Junutula R and Sharma, Balasubramanya and Rao, Appaji N and Savithri, HS (1999) Asp-89: A critical residue in maintaining the oligomeric structure of sheep liver cytosolic serine hydroxymethyltransferase. In: Biochemical Journal, 343 (1). pp. 257-263.

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Abstract

Aspartate residues function as proton acceptors in catalysis and are involved in ionic interactions stabilizing subunit assembly. In an attempt to unravel the role of a conserved aspartate (D89) in sheep-liver tetrameric serine hydroxymethyltransferase (SHMT), it was converted into aspargine by site-directed mutagenesis. The purified D89N mutant enzyme had a lower specific activity compared with the wild-type enzyme. It was a mixture of dimers and tetramers with the proportion of tetramers increasing with an increase in the pyridoxal-5'-phosphate (PLP) concentration used during purification. The D89N mutant tetramer was as active as the wild-type enzyme and had similar kinetic and spectral properties in the presence of 500 muM PLP. The quinonoid spectral intermediate commonly seen in the case of SHMT was also seen in the case of D89N mutant tetramer, although the amount of intermediate formed was lower. Although the purified dimer exhibited visible absorbance at 425 nm, it had a neglig ible visible CD spectrum at 425 nm and was only 5 % active. The apo-D89N mutant tetramer was a dimer unlike the apo-form of the wild-type enzyme which was present predominantly as a tetramer. Furthermore the apo mutant dimer could not be reconstituted to the holo-form by the addition of excess PLP, suggesting that dimer-dimer interactions are weak in this mutant. The recently published crystal structure of human liver cytosolic recombinant SHMT indicates that this residue (D90 in the human enzyme) is located at the N-terminal end of the fourth helix of one subunit and packs against K39 from the second N-terminal helix of the other symmetry related subunit forming the tight dimer. D89 is at the interface of tight dimers where the PLP 5'-phosphate is also bound. Mutation of D89 could lead to weakened ionic interactions in the tight dimer interface, resulting in decreased affinity of the enzyme for the cofactor.

Item Type: Journal Article
Publication: Biochemical Journal
Publisher: The Biochemical Society
Additional Information: Copyright of this articles belongs to The Biochemical Society.
Keywords: pyridoxal-5-phosphate;site-directed mutagenesis;tetramer stability
Department/Centre: Division of Biological Sciences > Biochemistry
Date Deposited: 13 Oct 2007
Last Modified: 19 Sep 2010 04:39
URI: http://eprints.iisc.ac.in/id/eprint/11948

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