Abstract
In photosynthetic organisms many processes are light dependent and sensing of light requires light-sensitive proteins. The supposed eyespot photoreceptor protein Babo1 (formerly Vop1) has previously been classified as an opsin due to the capacity for binding retinal. Here, we analyze Babo1 and provide evidence that it is no opsin. Due to the localization at the basal bodies, the former Vop1 and Cop1/2 proteins were renamed V.c. Babo1 and C.r. Babo1. We reveal a large family of more than 60 Babo1-related proteins from a wide range of species. The detailed subcellular localization of fluorescence-tagged Babo1 shows that it accumulates at the basal apparatus. More precisely, it is located predominantly at the basal bodies and to a lesser extent at the four strands of rootlet microtubules. We trace Babo1 during basal body separation and cell division. Dynamic structural rearrangements of Babo1 particularly occur right before the first cell division. In four-celled embryos Babo1 was exclusively found at the oldest basal bodies of the embryo and on the corresponding d-roots. The unequal distribution of Babo1 in four-celled embryos could be an integral part of a geometrical system in early embryogenesis, which establishes the anterior-posterior polarity and influences the spatial arrangement of all embryonic structures and characteristics. Due to its retinal-binding capacity, Babo1 could also be responsible for the unequal distribution of retinoids, knowing that such concentration gradients of retinoids can be essential for the correct patterning during embryogenesis of more complex organisms. Thus, our findings push the Babo1 research in another direction.
Highlights
The multicellular, spherical green microalga Volvox carteri (Volvox) serves as a model for the investigation of developmental processes including cell division, morphogenesis, and cellular differentiation (Kirk, 1998; Hallmann, 2006; Herron et al, 2009; Matt and Umen, 2016)
The unequal distribution of Babo1 in four-celled embryos could be an integral part of a geometrical system in early embryogenesis, which establishes the anterior–posterior polarity and influences the spatial arrangement of all embryonic structures and characteristics
Due to its retinal-binding capacity, Babo1 could be responsible for the unequal distribution of retinoids, knowing that such concentration gradients of retinoids can be essential for the correct patterning during embryogenesis of more complex organisms
Summary
The multicellular, spherical green microalga Volvox carteri (Volvox) serves as a model for the investigation of developmental processes including cell division, morphogenesis, and cellular differentiation (Kirk, 1998; Hallmann, 2006; Herron et al, 2009; Matt and Umen, 2016). A close unicellular relative of Volvox, Chlamydomonas reinhardtii, has largely been used for studying photosynthesis, phototaxis, and light perception (Harris, 2001; Manuell and Mayfield, 2006; Harris et al, 2009; Sasso et al, 2018). If phototaxis and light perception of multicellular organisms with differentiated cells is under review, Volvox is a well suited model organism (Drescher et al, 2010; Ueki et al, 2010; Goldstein, 2015). The mortal somatic cells are equipped with two flagella and an eyespot apparatus for light perception. These cells are responsible for light-regulated movement of the spheroid, whereas the potentially immortal reproductive cells represent the germline
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