Conformationally driven protease-catalyzed splicing of peptide segments: V8 protease-mediated synthesis of fragments derived from thermolysin and ribonuclease A

Kumaran, Sangaralingam ; Datta, Debjani ; Roy, Rajendra P. (1997) Conformationally driven protease-catalyzed splicing of peptide segments: V8 protease-mediated synthesis of fragments derived from thermolysin and ribonuclease A Protein Science, 6 (10). pp. 2233-2241. ISSN 0961-8368

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Official URL: http://onlinelibrary.wiley.com/doi/10.1002/pro.556...

Related URL: http://dx.doi.org/10.1002/pro.5560061018

Abstract

We have studied the conformation as well as V8 protease-mediated synthesis of peptide fragments, namely amino acid residues 295-316 (TC-peptide) of thermolysin and residues 1-20 (S-peptide) of ribonuclease A, to examine whether "conformational trapping" of the product can facilitate reverse proteolysis. The circular dichroism study showed cosolvent-mediated cooperative helix formation in TC-peptide with attainment of about 30-35% helicity in the presence of 40% 1-propanol and 2-propanol solutions at pH 6 and 4°C. The thermal melting profiles of TC-peptide in the above cosolvents were very similar. V8 protease catalyzed the synthesis of TC-peptide from a 1:1 mixture of the noninteracting complementary fragments (TC295-302 and TC303-316) in the presence of the above cosolvents at pH 6 and 4°C. In contrast, V8 protease did not catalyze the ligation of S1-9 and S10-20, although S-peptide could assume helical conformation in the presence of the cosolvent used for the semisynthetic reaction. V8 protease was able to synthesize an analog of S-peptide (SA-peptide) in which residues 10-14 were substituted (RQHMD → VAAAK). While S-peptide exhibited helical conformation in the presence of aqueous propanol solutions, SA-peptide displayed predominantly β-sheet conformation. SA-peptide showed enhanced resistance to proteolysis as compared with S-peptide. Thus, failure of semisynthesis of S-peptide may be a consequence of high flexibility around the 9-10 peptide bond due to its proximity to the helix stop signal. The results suggest that protease-mediated ligations may be achieved by design and manipulation of the conformational aspects of the product.

Item Type:Article
Source:Copyright of this article belongs to Cold Spring Harbor Laboratory Press.
Keywords:Conformation; Organic Cosolvent; Proteosynthesis; Reverse Proteolysis; Semisynthesis
ID Code:52413
Deposited On:03 Aug 2011 14:03
Last Modified:03 Aug 2011 14:03

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