Graduate School of Science and Engineering, Yamagata University, 4-3-16 Jonan, Yonezawa, Yamagata, 992-8510, Japan.
Biomolecular Network Dynamics, Biochemistry, Molecular and Structural Biology Section, KU Leuven, Celestijnenlaan 200g, Post Box 2403, 3001, Leuven, Belgium.
Photochem Photobiol Sci. 2023 Jul;22(7):1591-1601. doi: 10.1007/s43630-023-00399-0. Epub 2023 Mar 21.
Diadumene lineata is a colorful sea anemone with orange stripe tissue of the body column and plain tentacles with red lines. We subjected Diadumene lineata to expression cloning and obtained genes encoding orange (OFP: DiLiFP561) and red fluorescent proteins (RFPs: DiLiFP570 and DiLiFP571). These proteins formed obligatory tetramers. All three proteins showed bright fluorescence with the brightness of 58.3 mM·cm (DiLiFP561), 43.9 mM·cm (DiLiFP570), and 31.2 mM·cm (DiLiFP571), which were equivalent to that of commonly used red fluorescent proteins. Amplitude-weighted average fluorescence lifetimes of DiLiFP561, DiLiFP570 and DiLiFP571 were determined as 3.7, 3.6 and 3.0 ns. We determined a crystal structure of DiLiFP570 at 1.63 Å resolution. The crystal structure of DiLiFP570 revealed that the chromophore has an extended π-conjugated structure similar to that of DsRed. Most of the amino acid residues surrounding the chromophore were common between DiLiFP570 and DiLiFP561, except M159 of DiLiFP570 (Lysine in DiLiFP561), which is located close to the chromophore hydroxyl group. Interestingly, a similar K-to-M substitution has been reported in a red-shifted variant of DsRed (mRFP1). It is a striking observation that the naturally evolved color-change variants are consistent with the mutation induced via protein engineering processes. The newly cloned proteins are promising as orange and red fluorescent markers for imaging with long fluorescence lifetime.
线纹菊花珊瑚是一种颜色鲜艳的海葵,其体柱呈橙色条纹组织,触手呈红色条纹。我们对线纹菊花珊瑚进行了表达克隆,获得了编码橙色(OFP:DiLiFP561)和红色荧光蛋白(RFPs:DiLiFP570 和 DiLiFP571)的基因。这些蛋白形成必需的四聚体。这三种蛋白都表现出明亮的荧光,亮度分别为 58.3 mM·cm(DiLiFP561)、43.9 mM·cm(DiLiFP570)和 31.2 mM·cm(DiLiFP571),与常用的红色荧光蛋白相当。DiLiFP561、DiLiFP570 和 DiLiFP571 的振幅加权平均荧光寿命分别确定为 3.7、3.6 和 3.0 ns。我们测定了 DiLiFP570 的晶体结构,分辨率为 1.63 Å。DiLiFP570 的晶体结构表明,生色团具有与 DsRed 相似的扩展 π 共轭结构。除了 DiLiFP570 中的 M159(DiLiFP561 中的赖氨酸)外,生色团周围的大多数氨基酸残基在 DiLiFP570 和 DiLiFP561 之间是相同的,M159 位于生色团羟基附近。有趣的是,在 DsRed 的红色位移变体(mRFP1)中也报道了类似的 K 到 M 的取代。令人惊讶的是,自然进化的颜色变化变体与通过蛋白质工程过程诱导的突变一致。新克隆的蛋白有望成为具有长荧光寿命的成像的橙色和红色荧光标记物。
