Center for Translational Nuclear Medicine and Molecular Imaging, ‡Martinos Center for Biomedical Imaging, Department of Radiology, and §Cardiovascular Research Center, Cardiology Division, Massachusetts General Hospital, Harvard Medical School , Boston, Massachusetts 02114, United States.
Inorg Chem. 2013 Nov 4;52(21):12216-22. doi: 10.1021/ic400404g. Epub 2013 May 6.
Molecules that fluoresce upon binding DNA are widely used in assaying and visualizing DNA in cells and tissues. However, using light to visualize DNA in animals is limited by the attenuation of light transmission by biological tissues. Moreover, it is now clear that DNA is an important mediator of dead cell clearance, coagulation reactions, and an immunogen in autoimmune lupus. Attaching metals (e.g., superparamagnetic nanoparticles, gadolinium ions, radioactive metal ions) to DNA-binding fluorochromes provides a way of imaging DNA in whole animals, and potentially humans, without light. Imaging metal-bearing, DNA-binding fluorochromes and their target DNA by magnetic resonance imaging may shed light on the many key roles of DNA in health and disease beyond the storage of genetic information.
荧光分子与 DNA 结合后会发生荧光,因此被广泛用于检测和可视化细胞和组织中的 DNA。然而,利用光线在动物体内可视化 DNA 受到生物组织对光传输的衰减的限制。此外,现在已经很清楚,DNA 是清除死细胞、凝血反应以及自身免疫性狼疮中的免疫原的重要介质。将金属(例如超顺磁纳米粒子、钆离子、放射性金属离子)附着到与 DNA 结合的荧光染料上,为在不使用光线的情况下对整个动物(甚至人类)体内的 DNA 进行成像提供了一种方法。通过磁共振成像对携带金属的、与 DNA 结合的荧光染料及其靶 DNA 进行成像,可能会揭示 DNA 在健康和疾病中除了存储遗传信息之外的许多关键作用。