Revett S P, King G, Shabanowitz J, Hunt D F, Hartman K L, Laue T M, Nelson D J
Gustaf H. Carlson School of Chemistry, Clark University, Worcester, Massachusetts 01610, USA.
Protein Sci. 1997 Nov;6(11):2397-408. doi: 10.1002/pro.5560061113.
Parvalbumins are a class of calcium-binding proteins characterized by the presence of several helix-loop-helix (EF-hand) motifs. It is suspected that these proteins evolved via intragene duplication from a single EF-hand. Silver hake parvalbumin (SHPV) consists of three EF-type helix-loop-helix regions, two of which have the ability to bind calcium. The three helix-loop-helix motifs are designated AB, CD, and EF, respectively. In this study, native silver hake parvalbumin isoform B (SHPV-B) has been sequenced by mass spectrometry. The sequence indicates that this parvalbumin is a beta-lineage parvalbumin. SHPV-B was cleaved into two major fragments, consisting of the ABCD and EF regions of the native protein. The 33-amino acid EF fragment (residues 76-108), containing one of the calcium ion binding sites in native SHPV-B, has been isolated and studied for its structural characteristics, ability to bind divalent and trivalent cations, and for its propensity to undergo metal ion-induced self-association. The presence of Ca2+ does not induce significant secondary structure in the EF fragment. However, NMR and CD results indicate significant secondary structure promotion in the EF fragment in the presence of the higher charge-density trivalent cations. Sedimentation equilibrium analysis results show that the EF fragment exists in a monomer-dimer equilibrium when complexed with La3+.
小清蛋白是一类钙结合蛋白,其特征是存在几个螺旋-环-螺旋(EF手型)基序。据推测,这些蛋白质是通过单个EF手型的基因内复制进化而来的。银无须鳕小清蛋白(SHPV)由三个EF型螺旋-环-螺旋区域组成,其中两个区域具有结合钙的能力。这三个螺旋-环-螺旋基序分别命名为AB、CD和EF。在本研究中,通过质谱对天然银无须鳕小清蛋白同工型B(SHPV-B)进行了测序。序列表明该小清蛋白是β谱系小清蛋白。SHPV-B被切割成两个主要片段,由天然蛋白质的ABCD和EF区域组成。含有天然SHPV-B中一个钙离子结合位点的33个氨基酸的EF片段(第76-108位残基)已被分离出来,并对其结构特征、结合二价和三价阳离子的能力以及金属离子诱导的自缔合倾向进行了研究。Ca2+的存在不会在EF片段中诱导显著的二级结构。然而,核磁共振(NMR)和圆二色性(CD)结果表明,在存在更高电荷密度的三价阳离子时,EF片段中的二级结构会显著增强。沉降平衡分析结果表明,EF片段与La3+络合时以单体-二聚体平衡状态存在。