Role of Histidine 310 in Amydetes vivianii firefly luciferase pH and metal sensitivities and improvement of its color tuning properties

IF 2.7 3区 化学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Photochemical & Photobiological Sciences Pub Date : 2024-05-01 DOI:10.1007/s43630-024-00570-1
Gabriel F. Pelentir, Atílio Tomazini, Vanessa R. Bevilaqua, Vadim R. Viviani
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Abstract

Firefly luciferases emit yellow-green light and are pH-sensitive, changing the bioluminescence color to red in the presence of heavy metals, acidic pH and high temperatures. These pH and metal-sensitivities have been recently harnessed for intracellular pH indication and toxic metal biosensing. However, whereas the structure of the pH sensor and the metal binding site, which consists mainly of two salt bridges that close the active site (E311/R337 and H310/E354), has been identified, the specific role of residue H310 in pH and metal sensing is still under debate. The Amydetes vivianii firefly luciferase has one of the lowest pH sensitivities among the group of pH-sensitive firefly luciferases, displaying high bioluminescent activity and special spectral selectivity for cadmium and mercury, which makes it a promising analytical reagent. Using site-directed mutagenesis, we have investigated in detail the role of residue H310 on pH and metal sensitivity in this luciferase. Negatively charged residues at position 310 increase the pH sensitivity and metal sensitivity; H310G considerably increases the size of the cavity, severely impacting the activity, H310R closes the cavity, and H310F considerably decreases both pH and metal sensitivities. However, no substitution completely abolished pH and metal sensitivities. The results indicate that the presence of negatively charged and basic side chains at position 310 is important for pH sensitivity and metals coordination, but not essential, indicating that the remaining side chains of E311 and E354 may still coordinate some metals in this site. Furthermore, a metal binding site search predicted that H310 mutations decrease the affinity mainly for Zn, Ni and Hg but less for Cd, and revealed the possible existence of additional binding sites for Zn, Ni and Hg.

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组氨酸 310 在 Amydetes vivianii 萤火虫荧光素酶 pH 值和金属敏感性中的作用及其颜色调节特性的改进
萤火虫荧光素酶发出黄绿色光,对 pH 值敏感,在重金属、酸性 pH 值和高温条件下,生物发光颜色会变为红色。这些 pH 值和金属敏感性最近已被用于细胞内 pH 值指示和有毒金属生物传感。然而,虽然 pH 传感器和金属结合部位的结构(主要由封闭活性位点的两个盐桥(E311/R337 和 H310/E354)组成)已经确定,但残基 H310 在 pH 和金属传感中的具体作用仍有争议。在对 pH 值敏感的萤火虫荧光素酶中,Amydetes vivianii 萤火虫荧光素酶的 pH 值敏感性最低,但它具有很高的生物发光活性和对镉和汞的特殊光谱选择性,这使它成为一种很有前景的分析试剂。利用定点突变,我们详细研究了残基 H310 对该荧光素酶的 pH 值和金属敏感性的作用。310 位带负电荷的残基增加了 pH 敏感性和金属敏感性;H310G 大大增加了空腔的大小,严重影响了活性,H310R 关闭了空腔,而 H310F 则大大降低了 pH 敏感性和金属敏感性。然而,没有任何取代能完全消除 pH 值和金属敏感性。结果表明,310 位带负电荷和碱性侧链的存在对 pH 值敏感性和金属配位很重要,但并非必不可少,这表明 E311 和 E354 的其余侧链仍可能在该位点配位一些金属。此外,金属结合位点搜索预测,H310 突变主要降低了对 Zn、Ni 和 Hg 的亲和力,但对 Cd 的亲和力较低,并揭示了可能存在 Zn、Ni 和 Hg 的额外结合位点。
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来源期刊
Photochemical & Photobiological Sciences
Photochemical & Photobiological Sciences 生物-生化与分子生物学
CiteScore
5.60
自引率
6.50%
发文量
201
审稿时长
2.3 months
期刊介绍: A society-owned journal publishing high quality research on all aspects of photochemistry and photobiology.
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