NMR and biophysical elucidation of structural effects on extra N-terminal methionine residue of recombinant amphibian RNases from Rana catesbeiana
Author(s) -
ChunHua Hsu,
YunRu Pan,
YouDi Liao,
ShihHsiung Wu,
C. Chen
Publication year - 2010
Publication title -
the journal of biochemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.28
H-Index - 115
eISSN - 1756-2651
pISSN - 0021-924X
DOI - 10.1093/jb/mvq058
Subject(s) - library science , chemistry , computer science
The stability, structures and steric hindrances of recombinant RNases 2 and 4 expressed in bacteria were studied by circular dichroism (CD) and NMR techniques, and the results were compared with those of their authentic RNases extracted from oocytes of Rana catesbeiana. Although the overall structures of the recombinant and authentic proteins are almost identical, the extra N-terminal Met residue of the recombinant protein remarkably affects catalytic activity and stability. NMR chemical shift comparison of recombinant RNases and the authentic proteins indicated that the structural differences are mainly confined to the N-terminal helical and S2 anti-parallel beta-sheet regions. Significant shift changes for the residues located on the S2 region indicate that the major influences on the structure around the N terminus is due to the loss of the hydrogen bond between Pyr(1) and Val(95(96)) in recombinant RNases 2 and 4. We concluded the apparent steric hindrances of the extra Met to the binding pocket. As well, the affected conformational changes of active residues are attributed to the reduced activities of recombinant RNases. The structural integrity exerted by the N-terminal Pyr(1) residue may be crucial for amphibian RNases and the greatest structural differences occur on the network of the Pyr(1) residue and S2 beta-sheet region.
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