Marcello Zambonin scite author profile

The folding of a polypeptide chain of a relatively large globular protein into its unique three-dimensional and functionally active structure occurs via folding intermediates. These partly folded states of proteins are difficult to characterize, because they are usually short lived or exist as a distribution of possible conformers. A variety of experimental techniques and approaches have been utilized in recent years in numerous laboratories for characterizing folding intermediates that occur at equilibrium, including spectroscopic techniques, solution X-ray scattering, calorimetry and gel filtration chromatography, as well as genetic methods and theoretical calculations. In this review, we focus on the use of proteolytic enzymes as probes of the structure and dynamics of folding intermediates and we show that this simple biochemical technique can provide useful information, complementing that obtained by other commonly used techniques and approaches. The key result of the proteolysis experiments is that partly folded states (molten globules) of proteins can be sufficiently rigid to prevent extensive proteolysis and appear to maintain significant native-like structure.

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Correlation between sites of limited proteolysis and segmental mobility in thermolysin

Fontana¹,

Fassina²,

Vita³

et al. 1986

Biochemistry

311

246

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Limited proteolysis or autolysis of thermolysin under different experimental conditions leads to fission of a small number of peptide bonds located in exposed surface segments of the polypeptide chain characterized by highest mobility, as given by the temperature factors (B values) determined crystallographically [Holmes, M.A., & Matthews, B.W. (1982) J. Mol. Biol. 160, 623-639]. Considering also similar findings observed previously with other protein systems, it is proposed that this correlation between segmental mobility and sites of limited proteolysis in globular proteins is quite general. Thus, flexibility of the polypeptide chain of a globular protein at the site of proteolytic attack promotes optimal binding and proper interaction with the active site of the protease. These findings emphasize that apparent thermal motion seen in protein crystals is relevant to motion in solution and appear to be of general significance in protein-protein recognition processes.

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Probing protein structure by limited proteolysis.

Fontana¹,

Laureto²,

Spolaore³

et al. 2004

Acta Biochim Pol

408

226

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Limited proteolysis experiments can be successfully used to probe conformational features of proteins. In a number of studies it has been demonstrated that the sites of limited proteolysis along the polypeptide chain of a protein are characterized by enhanced backbone flexibility, implying that proteolytic probes can pinpoint the sites of local unfolding in a protein chain. Limited proteolysis was used to analyze the partly folded (molten globule) states of several proteins, such as apomyoglobin, alpha-lactalbumin, calcium-binding lysozymes, cytochrome c and human growth hormone. These proteins were induced to acquire the molten globule state under specific solvent conditions, such as low pH. In general, the protein conformational features deduced from limited proteolysis experiments nicely correlate with those deriving from other biophysical and spectroscopic techniques. Limited proteolysis is also most useful for isolating protein fragments that can fold autonomously and thus behave as protein domains. Moreover, the technique can be used to identify and prepare protein fragments that are able to associate into a native-like and often functional protein complex. Overall, our results underscore the utility of the limited proteolysis approach for unravelling molecular features of proteins and appear to prompt its systematic use as a simple first step in the elucidation of structure-dynamics-function relationships of a novel and rare protein, especially if available in minute amounts.

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Probing the conformational state of apomyoglobin by limited proteolysis 1 1Edited by P. E. Wright

Fontana

Zambonin

Laureto

et al. 1997

Journal of Molecular Biology

191

190

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Probing the molten globule state of .alpha.-lactalbumin by limited proteolysis

Laureto

Filippis²,

Bello³

et al. 1995

Biochemistry

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Limited proteolysis has been used to probe the partially folded state of bovine alpha-lactalbumin (BLA) at acid pH (A-state) or dissolved in aqueous trifluoroethanol (TFE-state). The sites of proteolytic fission have been determined by isolation of the various BLA fragments and comparison of their N-terminal amino acid sequence and amino acid composition after acid hydrolysis, as well as their molecular mass determined by mass spectrometry, with the known sequence of BLA. Incubation of BLA with pepsin at 20-22 degrees C and pH 2.0 in the presence of 0.1 M NaCl results in very rapid cleavage of the 123-residue chain at peptide bond Ala40-Ile41 and subsequently at Leu52-Phe53, leading to a nicked species of BLA constituted by the two fragments 1-40 and 53-123 cross-linked by the four disulfide bridges of the protein. Much slower proteolytic cleavage occurs at Tyr103-Trp104. The highly helical conformational state acquired by BLA when dissolved in aqueous buffer (pH 7.0) containing 50% (v/v) TFE was probed by the TFE-resistant thermolysin. Proteolytic cleavage occurs at the peptide bond Ala40-Ile41 and much more slowly at Phe80-Leu81. Moreover, the peptide bond Gln2-Leu3 at the N-terminus of the chain is partially cleaved by thermolysin. Conversely, native BLA in a pH 7.0 buffer is rather resistant to proteolysis.(ABSTRACT TRUNCATED AT 250 WORDS)

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