Axonemes are highly organized microtubule-based structures conserved in many eukaryotes. In an attempt to study axonemes by a proteomics approach, we selectively cloned cDNAs of axonemal proteins by immunoscreening the testis cDNA library from the ascidian Ciona intestinalis by using an antiserum against whole axonemes. We report here a 37-kDa protein of which cDNA occurred most frequently among total positive clones. This protein, named LRR37, belongs to the class of SDS22ϩ leucine-rich repeat (LRR) family. LRR37 is different from the LRR outer arm dynein light chain reported in Chlamydomonas and sea urchin flagella, and thus represents a novel axonemal LRR protein. Immunoelectron microscopy by using a polyclonal antibody against LRR37 showed that it is localized on the tip of the radial spoke, most likely on the spoke head. The LRR37 protein in fact seems to form a complex together with radial spoke protein 3 in a KI extract of the axonemes. These results suggest that LRR37 is a component of the radial spoke head and is involved in the interaction with other radial spoke components or proteins in the central pair projection.
Using proteomic and immunochemical techniques, we have identified the light and intermediate chains (IC) of outer arm dynein from sperm axonemes of the ascidian Ciona intestinalis. Ciona outer arm dynein contains six light chains (LC) including a leucine-rich repeat protein, Tctex1- and Tctex2-related proteins, a protein similar to Drosophila roadblock and two components related to Chlamydomonas LC8. No LC with thioredoxin domains is included in Ciona outer arm dynein. Among the five ICs in Ciona, three are orthologs of those in sea urchin dynein: two are WD-repeat proteins and the third one, unique to metazoan sperm flagella, contains both thioredoxin and nucleoside diphosphate kinase modules. The remaining two Ciona ICs have extensive coiled coil structure and show sequence similarity to outer arm dynein docking complex protein 2 (DC2) that was first identified in Chlamydomonas flagella. We recently identified a third DC2-like protein with coiled coil structure, Ci-Axp66.0 that is also associated in substoichiometric amounts with Ciona outer arm dynein. In addition, Oda5p, a component of an additional complex required for assembly of outer arm dynein in Chlamydomonas flagella, also groups with this family of DC2-like proteins. Thus, the assembly of outer arm dynein onto doublet microtubules involves multiple coiled-coil proteins related to DC2.
Spermatozoa undergo dramatic physiological changes at fertilization. In the ascidian Ciona intestinalis, an egg-derived substance named SAAF induces both sperm activation and chemotaxis to the egg. To elucidate the molecular mechanism underlying these phenomena, whole sperm proteins before and after SAAF-treatment were analyzed by two-dimensional gel electrophoresis. By comparison of spot patterns before and after activation, we found twelve proteins that changed the isoelectric points. Seven proteins were shown to be axonemal proteins and others were suggested to be non-axonemal components. Analysis of these proteins by MS-based proteomic system revealed that components of several substructures of the axonemes underwent the changes in isoelectric point at sperm activation, including WD-repeat intermediate chains of outer and inner arm dyneins and a radial spoke protein LRR37, as well as novel axonemal proteins with armadillo repeats or SMC domain. Molecules for cell signaling such as 14-3-3 proteins, Skp1 and VCP/p97 also showed isoelectric changes at sperm activation. These results show a comprehensive feature for signaling mechanism of the activation of spermatozoa at fertilization and also shed new lights on the regulation of ciliary and flagellar movements.
Knockout of genes with CRISPR/Cas9 is a newly emerged approach to investigate functions of genes in various organisms. We demonstrate that CRISPR/Cas9 can mutate endogenous genes of the ascidian Ciona intestinalis, a splendid model for elucidating molecular mechanisms for constructing the chordate body plan. Short guide RNA (sgRNA) and Cas9 mRNA, when they are expressed in Ciona embryos by means of microinjection or electroporation of their expression vectors, introduced mutations in the target genes. The specificity of target choice by sgRNA is relatively high compared to the reports from some other organisms, and a single nucleotide mutation at the sgRNA dramatically reduced mutation efficiency at the on-target site. CRISPR/Cas9-mediated mutagenesis will be a powerful method to study gene functions in Ciona along with another genome editing approach using TALE nucleases.
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