Picotti Paola, Marabotti Anna, Negro Alessandro, Musi Valeria, Spolaore Barbara, Zambonin Marcello, Fontana Angelo
CRIBI Biotechnology Centre, University of Padua, Viale G. Colombo 3, I-35121 Padua, Italy.
Protein Sci. 2004 Jun;13(6):1572-85. doi: 10.1110/ps.04635304.
The conformational features of native and mutant forms of sperm-whale apomyoglobin (apoMb) at neutral pH were probed by limited proteolysis experiments utilizing up to eight proteases of different substrate specificities. It was shown that all proteases selectively cleave apoMb at the level of chain segment 82-94 (HEAELKPLAQSHA), encompassing helix F in the X-ray structure of the holo form of the native protein; for example, thermolysin cleaves the Pro 88-Leu 89 peptide bond. These results indicate that helix F is highly flexible or largely disrupted in apoMb. Because helix F contains the helix-breaking Pro 88 residue, we propose that helix F is kept in place in the native holo protein by a variety of helix-heme stabilizing interactions. To modulate the stability of helix F, the Pro88Ala and Pro88Gly mutants were prepared by site-directed mutagenesis, and their conformational properties investigated by both far-UV circular dichroism spectroscopy and limited proteolysis. The helix content of the Pro88Ala mutant was somewhat enhanced with respect to that of both native and Pro88Gly mutant, as expected from the fact that Ala is the strongest helix inducer among the 20 amino acid residues. The rate of limited proteolysis of the three apoMb variants by thermolysin and proteinase K was in the order native > Pro88Gly >> Pro88Ala, in agreement with the scale of helix propensity of Ala, Gly, and Pro. The possible role of the flexible/unfolded chain segment 82-94 for the function and fate of apoMb at the cellular level is discussed.
利用多达八种具有不同底物特异性的蛋白酶,通过有限蛋白水解实验探究了中性pH条件下抹香鲸脱辅基肌红蛋白(apoMb)天然形式和突变形式的构象特征。结果表明,所有蛋白酶均在链段82 - 94(HEAELKPLAQSHA)水平选择性切割apoMb,该链段在天然蛋白质全酶形式的X射线结构中包含螺旋F;例如,嗜热菌蛋白酶切割Pro 88 - Leu 89肽键。这些结果表明,在apoMb中螺旋F具有高度灵活性或在很大程度上被破坏。由于螺旋F包含破坏螺旋的Pro 88残基,我们提出在天然全酶蛋白中,螺旋F通过多种螺旋 - 血红素稳定相互作用保持在原位。为了调节螺旋F的稳定性,通过定点诱变制备了Pro88Ala和Pro88Gly突变体,并通过远紫外圆二色光谱和有限蛋白水解研究了它们的构象性质。正如从丙氨酸是20种氨基酸残基中最强的螺旋诱导剂这一事实所预期的那样,Pro88Ala突变体的螺旋含量相对于天然和Pro88Gly突变体有所增加。嗜热菌蛋白酶和蛋白酶K对三种apoMb变体进行有限蛋白水解的速率顺序为天然形式> Pro88Gly >> Pro88Ala,这与丙氨酸、甘氨酸和脯氨酸的螺旋倾向程度一致。讨论了柔性/未折叠链段82 - 94在细胞水平上对apoMb的功能和命运可能发挥的作用。