In Vivo Fluorescent Adenosine 5'-Triphosphate (ATP) Imaging of Drosophila melanogaster and Caenorhabditis elegans by Using a Genetically Encoded Fluorescent ATP Biosensor Optimized for Low Temperatures

Taiichi Tsuyama; Jun-ichi Kishikawa; Yong-Woon Han; Yoshie Harada; Asako Tsubouchi; Hiroyuki Noji; Akira Kakizuka; Ken Yokoyama; Tadashi Uemura; Hiromi Imamura

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In Vivo Fluorescent Adenosine 5'-Triphosphate (ATP) Imaging of Drosophila melanogaster and Caenorhabditis elegans by Using a Genetically Encoded Fluorescent ATP Biosensor Optimized for Low Temperatures

机译：果蝇和秀丽隐杆线虫的体内荧光5'-三磷酸腺苷（ATP）成像通过使用针对低温优化的遗传编码荧光ATP生物传感器

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Adenosine 5'-triphosphate (ATP) is the major energy currency of all living organisms. Despite its important functions, the spatiotemporal dynamics of ATP levels inside living multicellular organisms is unclear. In this study, we modified the genetically encoded Forster resonance energy transfer (FRET)-based ATP biosensor ATeam to optimize its affinity at low temperatures. This new biosensor, AT1.03NL, detected ATP changes inside Drosophila S2 cells more sensitively than the original biosensor did, at 25℃. By expressing AT1.03NL in Drosophila melanogaster and Caenorhabditis elegans, we succeeded in imaging the in vivo ATP dynamics of these model animals at single-cell resolution.

机译：5'-三磷酸腺苷（ATP）是所有生物的主要能源。尽管具有重要功能，但尚不清楚活多细胞生物体内ATP水平的时空动态。在这项研究中，我们修改了基于遗传编码的Forster共振能量转移（FRET）的ATP生物传感器ATeam，以优化其在低温下的亲和力。在25℃时，这种新型生物传感器AT1.03NL比原生物传感器更敏感地检测了果蝇S2细胞内部的ATP变化。通过在果蝇和秀丽隐杆线虫中表达AT1.03NL，我们成功地以单细胞分辨率成像了这些模型动物的体内ATP动态。

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《Analytical chemistry》 |2013年第16期|共8页
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Taiichi Tsuyama; Jun-ichi Kishikawa; Yong-Woon Han; Yoshie Harada; Asako Tsubouchi; Hiroyuki Noji; Akira Kakizuka; Ken Yokoyama; Tadashi Uemura; Hiromi Imamura;
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1. In Vivo Fluorescent Adenosine 5'-Triphosphate (ATP) Imaging of Drosophila melanogaster and Caenorhabditis elegans by Using a Genetically Encoded Fluorescent ATP Biosensor Optimized for Low Temperatures [J] . Taiichi Tsuyama, Jun-ichi Kishikawa, Yong-Woon Han, Analytical chemistry . 2013,第16期

机译：果蝇和秀丽隐杆线虫的体内荧光5'-三磷酸腺苷（ATP）成像通过使用针对低温优化的遗传编码荧光ATP生物传感器
2. Striking ability of adenosine-2'(3')-deoxy-3'(2')-triphosphates and related analogues to replace ATP as phosphate donor for all four human, and the Drosophila melanogaster, deoxyribonucleoside kinases. [J] . Krawiec K, Kierdaszuk B, Kalinichenko EN, Nucleosides, nucleotides and nucleic acids . 2003,第2期

机译：腺苷2'（3'）-脱氧3'（2'）-三磷酸酯和相关类似物的替代能力，可以代替ATP作为所有四个人类以及果蝇黑果脱氧核糖核苷激酶的磷酸盐供体。
3. Synthesis and properties of 8-azido-1,N6-etheno adenosine triphosphate — a fluorescent and photosensitive ATP analog [J] . Gabriele Rathgeber, Hans-Jochen Sch?fer, Klaus Dose, Nucleic acids research . 1978,第4期

机译：荧光和光敏ATP类似物8-叠氮基-1，N6-乙炔基三磷酸腺苷的合成与性质
4. Wide-field lensless fluorescent imaging of transgenic Caenorhabditis Elegans on a chip [C] . Coskun Ahmet F., Sencan Ikbal, Su Ting-Wei, 2011 Conference on lasers and electro-optics . 2011

机译：转基因秀丽隐杆线虫芯片上的广角无透镜荧光成像
5. A systematic study of expression and function of Caenorhabditis elegans genes encoding P-type ATPases in subfamily IV, the group of putative transbilayer amphipath transporters. [D] . Lyssenko, Nicholas N. 2007

机译：系统地研究线虫秀丽隐杆线虫基因在亚家族IV（假定的跨双层两亲性转运蛋白）中的表达和功能。
6. Imaging extracellular ATP with a genetically-encoded, ratiometric fluorescent sensor [O] . Jason M. Conley, Saranya Radhakrishnan, Stephen A. Valentino, 2011

机译：使用遗传编码的比例荧光传感器对细胞外ATP进行成像
7. 3P-325 Spatio-temporal dynamics of intracellular ATP during apoptosis revealed by a genetically encoded fluorescent ATP indicator(The 46th Annual Meeting of the Biophysical Society of Japan) [O] . Hiromi Imamura, Kenta Saito, Ryota Iino, 2008

机译：遗传编码荧光ATP指标凋亡期间3P-325细胞内ATP的时空动态（日本生物物理学会第46次年会第46次年会）
8. Changes in Lung ATP (Adenosine Triphosphate) Concentration in the Rat After Low-Level Phosgene Exposure (Journal Version) [R] . Currie, W. D. , Hatch, G. E. , Frosolono, M. F. 1987

机译：低水平光气暴露后大鼠肺aTp（三磷酸腺苷）浓度的变化（期刊版）

In Vivo Fluorescent Adenosine 5'-Triphosphate (ATP) Imaging of Drosophila melanogaster and Caenorhabditis elegans by Using a Genetically Encoded Fluorescent ATP Biosensor Optimized for Low Temperatures

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