Author: Monika Abedin Sigg; Tabea Menchen; Jeffery Johnson; Chanjae Lee; Semil P. Choksi; Galo Garcia; Henriette Busengdal; Gerard Dougherty; Petra Pennekamp; Claudius Werner; Fabian Rentzsch; Nevan Krogan; John B. Wallingford; Heymut Omran; Jeremy F. Reiter
Title: Evolutionary proteomics uncovers ciliary signaling components Document date: 2017_6_22
ID: 9y8r277c_57
Snippet: axonemal dyneins, Nexin-Dynein regulatory complex components, radial spoke proteins, 553 SPAG17, HYDIN). Other highly conserved ciliary proteins, such as components of the transition 554 zone and basal body, were not detected as our methods amputated cilia distal to the basal bodies 555 and transition zones (Sanders and Salisbury, 1994; Stephens, 1995) . Similarly, we did not detect 556 ciliopathy-associated proteins that are not ciliary componen.....
Document: axonemal dyneins, Nexin-Dynein regulatory complex components, radial spoke proteins, 553 SPAG17, HYDIN). Other highly conserved ciliary proteins, such as components of the transition 554 zone and basal body, were not detected as our methods amputated cilia distal to the basal bodies 555 and transition zones (Sanders and Salisbury, 1994; Stephens, 1995) . Similarly, we did not detect 556 ciliopathy-associated proteins that are not ciliary components, such as those PCD-associated 557 proteins that function within the cytoplasm to assembly dynein arms (Kott et In addition to EVC and EVC2, we identified a structurally related protein called EVC3 in 571 the ciliomes of sea urchins, sea anemone and choanoflagellates. The phylogenetic distribution of 572 the EVC complex components and EVC3 suggests that EVC3 may represent an ancestral ciliary 573 protein, with EVC and EVC2 emerging in multicellular animals as regulators of Hh signaling 574 All rights reserved. No reuse allowed without permission.
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