Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.1.31.1 (
micrococcal nuclease
)
2,818
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The energy derived from optimized van der Waals interactions in closely packed, folded proteins has been proposed to be of similar energetic magnitude to hydrophobicity in stabilizing the native state. If packing is this energetically important, it should influence the evolution of protein core sequences. To test this hypothesis, the occurrence of various amino acid side chains in the major hydrophobic core of
staphylococcal nuclease
and 42 homologous proteins was determined. Most such positions in this protein family are usually
isoleucine
, leucine, or valine. Previously we have constructed and measured the stabilities of 12 single, 44 double, 64 triple, and 32 quadruple mutants, representing all possible permutations of these three side chains at two overlapping sets of four positions in the core of
staphylococcal nuclease
. The stabilities and interaction energies of those mutants with various combinations of the most common, or consensus, sequence were compared to the stabilities of all other mutants. Mutants which had the consensus side-chain combinations were not necessarily the most stable, but usually were found to have the best interaction energies. In other words, these proteins were far more stable than would be predicted from simply summing the observed energetic effects of the component single mutations, apparently reflecting particularly favorable packing interactions that are possible for the most common side chains. An additional 12 mutants which tested possible alternate explanations of the results were constructed. The stabilities and interaction energies of these mutants also support the conclusion that packing is a crucial determinant guiding the sequence evolution of protein cores.
...
PMID:Packing is a key selection factor in the evolution of protein hydrophobic cores. 1173 10
A nativelike low-resolution structure has been shown to persist in the Delta 131 Delta denatured fragment of
staphylococcal nuclease
, even in the presence of 8 M urea. In this report, the physical-chemical basis of this structure is addressed by monitoring changes in structure reflected in residual dipolar couplings and diffusion coefficients as a function of changes in amino acid sequence. Ten large hydrophobic residues, previously shown to play dominant roles in the stability of the native state, are replaced with polar residues of similar shape. Modest increases in the Stokes radius determined by NMR methods result from replacement of five
isoleucine
/valine residues with threonine, one leucine with glutamine, and oxidation of four methionines to the sulfoxides. Yet in the presence of all ten hydrophobic to polar substitutions and 8 M urea, the NMR signature of a native-like topology is still largely intact. In addition, removal of 30 residues from either the N-terminus (which deletes a three-strand beta meander) or C-terminus (a long extended segment and the final alpha helix) produces only very small changes in long-range structure. These data indicate that both the general shape of the denatured state and the angular relationships of individual bond angles to the axes describing the spatial distribution of the protein chain are insensitive to large changes in the amino acid sequence, a finding consistent with the conclusion that the long-range structure of denatured proteins is encoded primarily by local steric interactions between side chains and the polypeptide backbone.
...
PMID:Robustness of the long-range structure in denatured staphylococcal nuclease to changes in amino acid sequence. 1242 42
Efforts to design proteins with greatly reduced sequence diversity have often resulted in proteins with so-called molten globule properties. Substitutions were made at six neighboring sites in the major hydrophobic core of
staphylococcal nuclease
to create variants with all leucine, all
isoleucine
or all valine at these sites. The mutant proteins with simplified cores constructed here are quite unstable and have poorly packed cores, attested to by interaction energies. Eight related mutants with greater sequence diversity were also constructed. Comparison to these mutants and 159 other permutations of these 3 aliphatic side chains at these same 6 sites previously constructed shows that the simplified cores are not unusual in their stabilities or interaction energies. Further, crystal structures of the two mutants with the worst packing, as measured by interaction energies, showed no unusual disorder in the core. Therefore, reduction of sequence diversity is not necessarily incompatible with a single stable native structure. Other factors must also contribute to previous protein design failures.
...
PMID:Proteins with simplified hydrophobic cores compared to other packing mutants. 1522 60
The global regulator CodY controls the expression of dozens of metabolism and virulence genes in the opportunistic pathogen Staphylococcus aureus in response to the availability of
isoleucine
, leucine and valine (ILV), and GTP. Using RNA-Seq transcriptional profiling and partial activity variants, we reveal that S. aureus CodY activity grades metabolic and virulence gene expression as a function of ILV availability, mediating metabolic reorganization and controlling virulence factor production in vitro. Strains lacking CodY regulatory activity produce a PIA-dependent biofilm, but development is restricted under conditions that confer partial CodY activity. CodY regulates the expression of
thermonuclease
(nuc) via the Sae two-component system, revealing cascading virulence regulation and factor production as CodY activity is reduced. Proteins that mediate the host-pathogen interaction and subvert the immune response are shut off at intermediate levels of CodY activity, while genes coding for enzymes and proteins that extract nutrients from tissue, that kill host cells, and that synthesize amino acids are among the last genes to be derepressed. We conclude that S. aureus uses CodY to limit host damage to only the most severe starvation conditions, providing insight into one potential mechanism by which S. aureus transitions from a commensal bacterium to an invasive pathogen.
...
PMID:A spectrum of CodY activities drives metabolic reorganization and virulence gene expression in Staphylococcus aureus. 2711 38
<< Previous
1
2
