Chen J, Smith D L, Griep M A
Department of Chemistry, University of Nebraska-Lincoln, 68588-0304, USA.
Protein Sci. 1998 Aug;7(8):1781-8. doi: 10.1002/pro.5560070813.
Differential chemical modification of the lysines and amino-terminus of Escherichia coli single-strand binding (SSB) protein was used to determine their roles in the binding of SSB to single-stranded DNA (ssDNA). A combination of isotope labeling and mass spectrometry was used to determine the rates at which SSB was acetylated by acetic anhydride. First, SSB was labeled by deuterated acetic anhydride for given lengths of time in the presence or absence of single-stranded ssDNA. Then, the protein was denatured and completely acetylated by nondeuterated acetic anhydride. Enzymatic digests of the completely acetylated, isotopically labeled SSB were analyzed by electrospray ionization mass spectrometry. The intensities of the deuterated and nondeuterated forms of acetylated peptides provided accurate quantification of the reactivity of the amines in native SSB, either free or bound to ssDNA. Acetylation rate constants were determined from time course measurements. In the absence of ssDNA, the terminal alpha-amine of SSB was 10-fold more reactive than Lys residues at positions 43, 62, 73, and 87. The reactivities of Lys 7 and 49 were much lower yet, suggesting that they have very limited access to solution under any condition. In the presence of ssDNA, the reactivities of the amino-terminus and Lys residues 43, 62, 73, and 87 were reduced by factors of 3.7-25, indicating that the environments around all of these amines is substantially altered by binding of SSB to ssDNA. Three of these residues are located near putative ssDNA binding sites, whereas Lys 87 is located at the monomer-monomer interface.
利用对大肠杆菌单链结合(SSB)蛋白的赖氨酸和氨基末端进行差异化学修饰,来确定它们在SSB与单链DNA(ssDNA)结合中的作用。采用同位素标记和质谱联用的方法来测定SSB被乙酸酐乙酰化的速率。首先,在有或没有单链ssDNA存在的情况下,用氘代乙酸酐对SSB进行给定时间的标记。然后,使蛋白质变性并用非氘代乙酸酐完全乙酰化。通过电喷雾电离质谱分析完全乙酰化、同位素标记的SSB的酶解产物。乙酰化肽段的氘代和非氘代形式的强度提供了对天然SSB中游离或与ssDNA结合的胺反应性的准确量化。根据时间进程测量确定乙酰化速率常数。在没有ssDNA的情况下,SSB的末端α-胺的反应性比第43、62、73和87位的赖氨酸残基高10倍。赖氨酸7和49的反应性则低得多,这表明它们在任何条件下与溶液的接触都非常有限。在有ssDNA存在的情况下,氨基末端以及第43、62、73和87位赖氨酸残基的反应性降低了3.7至25倍,这表明SSB与ssDNA结合后,所有这些胺周围的环境都发生了显著变化。这些残基中的三个位于假定的ssDNA结合位点附近,而赖氨酸87位于单体-单体界面处。