Chiba, Y.; Takenaka, Y.; Haga, N. Identification and Characterization of the Gene Responsible for the O3 Mating Type Substance in Paramecium caudatum. Microorganisms2024, 12, 588.
Chiba, Y.; Takenaka, Y.; Haga, N. Identification and Characterization of the Gene Responsible for the O3 Mating Type Substance in Paramecium caudatum. Microorganisms 2024, 12, 588.
Chiba, Y.; Takenaka, Y.; Haga, N. Identification and Characterization of the Gene Responsible for the O3 Mating Type Substance in Paramecium caudatum. Microorganisms2024, 12, 588.
Chiba, Y.; Takenaka, Y.; Haga, N. Identification and Characterization of the Gene Responsible for the O3 Mating Type Substance in Paramecium caudatum. Microorganisms 2024, 12, 588.
Abstract
The process of sexual reproduction in eukaryotes starts when gametes from two different sexes encounter each other. Paramecium, a unicellular eukaryote, undergoes conjugation and uses a gametic nucleus to enter the sexual reproductive process. The molecules responsible for recognizing mating partners, hypothetically called mating-type substances, are still unclear. We have identified an O3-type mating substance polypeptide and its gene sequence using protein chemistry, molecular genetics, immunofluorescence, RNA inter-ference, and microinjection. The O3-type substance is a polypeptide found in the ciliary membranes, located from the head to the ventral side of cells. The O3-type substance has a kinase-like domain in its N-terminal part located outside the cell and four EF-hand motifs that bind calcium ions in its C-terminal part located inside the cell. RNA interference and immunofluorescence revealed that this polypeptide positively correlated with the expression of mating reactivity. Microinjection of an expression vector incorporating the O3Pc-MSP gene induced additional O3 mating type in the recipient clones of different mating types or syngen. Phylogenetic analysis indicates this gene is widely present in eukaryotes and exhibits high homology among closely related species. The O3Pc-MSP gene had nine silent mutations compared to the complementary mating type of the E3 homologue gene.
Keywords
mating-type substance; kinase-C domain; EF hand motif; Phylogenic tree; RNAi; silent mutations; microinjection; Paramecium caudatum
Subject
Biology and Life Sciences, Cell and Developmental Biology
Copyright:
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