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  • Title: Limited hydrolysis of bovine plasma albumin at neutral and alkaline pH catalyzed by associated proteinases.
    Author: Aoki K, Foster JF.
    Journal: Biochemistry; 1975 Aug 12; 14(16):3566-72. PubMed ID: 240384.
    Abstract:
    Proteinase contaminants in some plasma albumin samples have previously been shown to produce cleavage of the albumin molecule at acid pH. The F conformer, existing at pH 3.8, is cleaved near erisidue number 400 to yield a large N-terminal fragment of approximately 46,000 daltons. No cleavage was found at pH above approximately 4.4. It is shown in this paper that the proteinase contaminants are active over a broad pH range from 2.5 to 11.4 provided conditions are such as to induce some breakdown of the native conformation of the albumin molecule. Addition of Tris-borate buffer (0.1 M) at pH 7.5-9 is sufficient to permit cleavage. At pH near 9 this occurs predominantly 42,000 and 27,000 daltons. Near neutral pH substantial cleavage occurs in 4-8 M urea solution or in the presence of sodium dodecyl sulfate (AD110 complex). Under these conditions there are two large fragments (42,000 and 47,000 daltons) and essentially two small ones (20,000-27,000 daltons). Under conditions where there is no cleavage at 38-40 degrees, substantial cleavage results at 50-65 degrees but enzyme inactivation also occurs toward the top of this range. The alkaline activity is inhibited by soybean trypsin inhibitor but not by pepstatin; the reverse is true of the low pH activity. Cleavage at neutral or alkaline pH under the various conditions occurs primarily at X-Leu bonds while the low pH activity was already shown to occur at X-Phe. These facts suggest the presence of at least two enzymes. There is surprisingly little pH dependence over the range 7.5-9 in any of the media examined, even though albumin is known to undergo a significant conformational change in this range, the N leads to B transition. This transition is thought to be essentially a tertiary change with little loss of helix content. It is suggested that loss of native secondary structure, especially uncoiling of helical regions, is crucial to permit attack by these enzymes.
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