2015
DOI: 10.1371/journal.pone.0130289
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Structural Rigidity and Protein Thermostability in Variants of Lipase A from Bacillus subtilis

Abstract: Understanding the origin of thermostability is of fundamental importance in protein biochemistry. Opposing views on increased or decreased structural rigidity of the folded state have been put forward in this context. They have been related to differences in the temporal resolution of experiments and computations that probe atomic mobility. Here, we find a significant (p = 0.004) and fair (R 2 = 0.46) correlation between the structural rigidity of a well-characterized set of 16 mutants of lipase A from Bacillu… Show more

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Cited by 69 publications
(86 citation statements)
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“…then represents the chemical potential energy (E CNA ) due to non‐covalent bonding, obtained from the coarse‐grained, residue‐wise network representation of the underlying biomolecular structure . A per‐residue decomposition of Equation (4), which is the chemical potential energy of residue i obtained by summation over all n short‐range rigid contacts the residue is involved in (Figure S7 in the Supporting Information), is computed according to Equation : trueEi,CNA=4pt12jinrcij,neighbor …”
Section: Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…then represents the chemical potential energy (E CNA ) due to non‐covalent bonding, obtained from the coarse‐grained, residue‐wise network representation of the underlying biomolecular structure . A per‐residue decomposition of Equation (4), which is the chemical potential energy of residue i obtained by summation over all n short‐range rigid contacts the residue is involved in (Figure S7 in the Supporting Information), is computed according to Equation : trueEi,CNA=4pt12jinrcij,neighbor …”
Section: Methodsmentioning
confidence: 99%
“…DE CNA has been shown to be ar obustl ocal stability measure for predicting the thermals tability of proteins. [36] From the DE i,CNA values, we identified regionsi nt he receptors that correlate with the rank-ordering of the systems with respect to basal activity (Figure 8b): The structurals tability of the systems increases with increasing levels of basal activity for the regions enclosing residues F54 2.43 -P70 2.59 in helix TM II as well as W90 3.28 -T92 3.30 and S109 3.47 -D111 3.49 in helix TM III. In contrast, the structurals tabilityo ft he systemsd ecreases with increasing levels of basal activity for residues V184 5.48 -V190 5.54 in TM Vas well as A306 6.38 -G310 6.42 and V314 6.46 -A317 6.49 in TM VI.…”
Section: Shift In Structural Stability Occurs With Changing Basal Actmentioning
confidence: 99%
“…Altered biomolecular stability along a constraint dilution trajectory was quantified based on neighbor stability maps (rc ij, neighbor with i, j being residue numbers; Eq. 1) (65).…”
Section: Rigidity Analysismentioning
confidence: 99%
“…yields the chemical potential energy (E CNA ) due to noncovalent bonding, obtained from the coarse-grained, residue-wise network representation of the underlying biomolecular structure (35,65). A per-residue decomposition of Eq.…”
Section: Rigidity Analysismentioning
confidence: 99%
“…The thermal stability of a protein is strongly dependent on its spatial structure, meaning that partial structural disruption for a protein may decrease its heat stability (Rathi, Jaeger, & Gohlke, 2015;Vihinen, 1987). In this study DSC was applied to provide supportive data for the potential structural unfolding of PPA indicated by red-shifted maximum λ em .…”
Section: Discussionmentioning
confidence: 99%