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Specificity of the lipase-specific foldases of gram-negative bacteria and the role of the membrane anchor 总被引:7,自引:0,他引:7
M. El Khattabi C. Ockhuijsen W. Bitter K.-E. Jaeger J. Tommassen 《Molecular & general genetics : MGG》1999,261(4-5):770-776
Folding of lipases that are secreted by Pseudomonads and other gram-negative bacteria via the type II secretion pathway is
facilitated by dedicated chaperones, called lipase-specific foldases (Lifs). Lifs are membrane-anchored proteins with a large
periplasmic domain. The functional interaction between the Lif and its cognate lipase is specific, since the Pseudomonas aeruginosa Lif was found not to substitute for Lifs from Burkholderia glumae or Acinetobacter calcoaceticus. However, the P. aeruginosa Lif was able to activate the lipase from the closely related species P. alcaligenes. Hybrid proteins constructed from parts of the P. aeruginosa and B. glumae Lifs revealed that the C-terminal 138 amino acids of the B. glumae Lif determine the specificity of the interaction with the cognate lipase. Furthermore, the periplasmic domain of the B. glumae Lif was functional when cloned in frame with a cleavable signal sequence, which demonstrates that the membrane anchor is
not essential for Lif function in vivo. However, the recombinant Lif was released into the medium, indicating that the function
of the membrane anchor is to prevent secretion of the Lif together with the lipase.
Received: 12 November 1998 / Accepted: 19 February 1999 相似文献
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The genes encoding the lipase (LipA) and lipase chaperone (LipB) from Acinetobacter calcoaceticus RAG-1 were cloned and sequenced. The genes were isolated from a genomic DNA library by complementation of a lipase-deficient transposon mutant of the same strain. Transposon insertion in this mutant and three others was mapped to a single site in the chaperone gene. The deduced amino acid (aa) sequences for the lipase and its chaperone were found to encode mature proteins of 313 aa (32.5 kDa) and 347 aa (38.6 kDa), respectively. The lipase contained a putative leader sequence, as well as the conserved Ser, His, and Asp residues which are known to function as the catalytic triad in other lipases. A possible trans-membrane hydrophobic helix was identified in the N-terminal region of the chaperone. Phylogenetic comparisons showed that LipA, together with the lipases of A. calcoaceticus BD413, Vibrio cholerae El Tor, and Proteus vulgaris K80, were members of a previously described family of Pseudomonas and Burkholderia lipases. This new family, which we redefine as the Group I Proteobacterial lipases, was subdivided into four subfamilies on the basis of overall sequence homology and conservation of residues which are unique to the subfamilies. LipB, moreover, was found to be a member of an analogous family of lipase chaperones. We propose that the lipases produced by P. fluorescens and Serratia marcescens, which comprise a second sequence family, be referred to as the Group II Proteobacterial lipases. Evidence is provided to support the hypothesis that both the Group I and Group II families have evolved from a combination of common descent and lateral gene transfer. 相似文献
3.
Molecular chaperones are central to cellular protein homeostasis. In mammals, protein misfolding diseases and aging cause
inflammation and progressive tissue loss, in correlation with the accumulation of toxic protein aggregates and the defective
expression of chaperone genes. Bacteria and non-diseased, non-aged eukaryotic cells effectively respond to heat shock by inducing
the accumulation of heat-shock proteins (HSPs), many of which molecular chaperones involved in protein homeostasis, in reducing
stress damages and promoting cellular recovery and thermotolerance. We performed a meta-analysis of published microarray data
and compared expression profiles of HSP genes from mammalian and plant cells in response to heat or isothermal treatments
with drugs. The differences and overlaps between HSP and chaperone genes were analyzed, and expression patterns were clustered
and organized in a network. HSPs and chaperones only partly overlapped. Heat-shock induced a subset of chaperones primarily
targeted to the cytoplasm and organelles but not to the endoplasmic reticulum, which organized into a network with a central
core of Hsp90s, Hsp70s, and sHSPs. Heat was best mimicked by isothermal treatments with Hsp90 inhibitors, whereas less toxic
drugs, some of which non-steroidal anti-inflammatory drugs, weakly expressed different subsets of Hsp chaperones. This type
of analysis may uncover new HSP-inducing drugs to improve protein homeostasis in misfolding and aging diseases. 相似文献
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This communication reports a new design of peptide disulfide, RKCGCFF, for facilitating oxidative protein refolding. The new design mimics the properties of protein disulfide isomerase (PDI) by introducing hydrophobic and positively charged patches into the two terminals of disulfide CGC. RKCGCFF was found more effective than the traditional oxidant oxidized glutathione (GSSG) as well as its counterpart, RKCGC, in facilitating the oxidative refolding of lysozyme. More importantly, RKCGCFF could improve lysozyme refolding yield at a high concentration (0.7 mg/mL). The research proved that incorporation of hydrophobic and charged patches into the CGC disulfide made the oxidant more similar to PDI in structure and properties. 相似文献
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