Structure Report for: 2QXU

Eerappa, Rajakumara, Acharya, Priyamvada, Ahmad, Shoeb, Rao, Nalam.M, Rajan, Sankaranarayanan

Title: Structural basis for the remarkable stability of Bacillus subtilis lipase (Lip A) at low pH
Rajakumara E, Acharya P, Ahmad S, Sankaranaryanan R, Rao NM
Ref: Biochimica & Biophysica Acta, 1784:302, 2008 : PubMed
Abstract


ESTHER: Rajakumara_2008_Biochim.Biophys.Acta_1784_302
PubMedSearch: Rajakumara 2008 Biochim.Biophys.Acta 1784 302
PubMedID: 18053819
Gene_locus related to this paper: bacsu-lip

Abstract

Understanding the structural basis of altered properties of proteins due to changes in temperature or pH provides useful insights in designing proteins with improved stability. Here we report the basis for the pH-dependent thermostability of the Bacillus subtilis lipase (Lip A) using spectroscopic and X-ray crystallographic studies. At pH values above 7, lipase denatures and aggregates when heated at temperatures above 45 degrees C. However, at pH below 6 lipase denatures upon heating but the activity and its native structure is completely recovered upon cooling. In order to obtain the structural basis of this unusual stability of lipase, we determined high-resolution crystal structures of the lipase in two different crystal forms at pH 4.5 and 5. These structures show linear oligomerization of lipase using only two types of dimeric associations and these inter-molecular interactions are completely absent in several crystal forms of wild-type and mutant proteins obtained at basic pH. In accordance with the crystallographic studies, spectroscopic investigations reveal an invariant secondary structure in the pH range of 4-10. Quaternary organization of lipase at low pH resulted in changes in the tryptophan environment and binding of 1-anilino-8-naphthalene sulfate (ANS) at low pH. Low pH stability of the lipase is not observed in the presence of sodium chloride (>0.2 M) indicating the importance of ionic interactions at low pH. Inter- and intra-molecular ionic interactions that occur at pH below 6.0 are proposed to trap the molecule in a conformation that allows its complete refolding upon cooling.



        

Title: Crystallization and preliminary X-ray crystallographic investigations on several thermostable forms of a Bacillus subtilis lipase
Rajakumara E, Acharya P, Ahmad S, Shanmugam VM, Rao NM, Sankaranarayanan R
Ref: Acta Crystallographica D Biol Crystallogr, 60:160, 2004 : PubMed
Abstract


ESTHER: Rajakumara_2004_Acta.Crystallogr.D.Biol.Crystallogr_60_160
PubMedSearch: Rajakumara 2004 Acta.Crystallogr.D.Biol.Crystallogr 60 160
PubMedID: 14684916
Gene_locus related to this paper: bacsu-lip

Abstract

Bacillus subtilis lipase loses activity above pH 10.5 and below pH 6.0. However, at low pH, i.e. below pH 5.0, the lipase acquires remarkable thermostability. Activity was unaltered for 2 h at 323 K at pH 4.0-5.0, although at pH values above 7.0 the activity was lost rapidly within minutes. Circular-dichroism studies indicate significant changes in the tertiary structure of the lipase, whereas the secondary-structural content remained unaltered. To elucidate the structural basis of the enhanced thermostability, three different forms have been crystallized at low pH along with three crystal forms of two thermostable mutants obtained using a directed-evolution approach.