The visual system of the longest-living vertebrate, the Greenland shark

The Greenland shark (Somniosus microcephalus) is the longest-living vertebrate and inhabits the extremely dim and cold waters of the Arctic deep sea. This has led to speculations that it may have lost functional vision. Here, we present genomic, transcriptomic, histological and functional evidence that the Greenland shark retains an intact visual system well-adapted for life in dim light. Histology andin vitroopsin expression revealed visual adaptations typical of deep-sea species, including densely packed, elongated rods and a short-wavelength shift in rod visual pigment sensitivity. RNAscope confirmed the presence of essential visual cell types, such as rods, Müller glia, and bipolar, amacrine, and ganglion cells. Moreover, despite being centuries old, the examined specimens showed no signs of retinal degeneration. Using whole genome and retinal RNA-sequencing, we further show that dim-light (rod-based) vision genes are intact and robustly expressed, while many bright-light (cone-based) vision genes have become pseudogenized and/or are no longer expressed. Finally, our data suggest that efficient DNA repair mechanisms may contribute to the long-term preservation of retinal function over centuries in the Greenland shark.