Chiba Yuta, Takenaka Yasuhiro, Haga Nobuyuki
Department of Biological Sciences, Faculty of Science and Technology, Senshu University of Ishinomaki, Miyagi 986-8580, Japan.
Department of Bioregulatory Science, Graduate School of Medicine, Nippon Medical School, Tokyo 113-8602, Japan.
Microorganisms. 2024 Mar 15;12(3):588. doi: 10.3390/microorganisms12030588.
The process of sexual reproduction in eukaryotes starts when gametes from two different sexes encounter each other. , 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 O-type mating substance polypeptide and its gene sequence using protein chemistry, molecular genetics, immunofluorescence, RNA interference, and microinjection. The O-type substance is a polypeptide found in the ciliary membranes, located from the head to the ventral side of cells. The O-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 OPc-MSP gene () induced additional O mating type in the recipient clones of different mating types or syngen. Phylogenetic analysis indicates that this gene is widely present in eukaryotes and exhibits high homology among closely related species. The OPc-MSP () gene had nine silent mutations compared to the complementary mating type of the E homologue gene.
真核生物的有性生殖过程始于来自两种不同性别的配子相互接触。单细胞真核生物进行接合,并利用配子核进入有性生殖过程。负责识别交配伙伴的分子,假设称为交配型物质,目前仍不清楚。我们使用蛋白质化学、分子遗传学、免疫荧光、RNA干扰和显微注射技术鉴定了一种O型交配物质多肽及其基因序列。O型物质是一种存在于纤毛膜中的多肽,从细胞头部延伸至腹侧。O型物质在其位于细胞外的N端部分具有一个激酶样结构域,在其位于细胞内的C端部分具有四个结合钙离子的EF手基序。RNA干扰和免疫荧光显示,这种多肽与交配反应性的表达呈正相关。显微注射包含OPc-MSP基因()的表达载体在不同交配型或同宗配合的受体克隆中诱导出额外的O交配型。系统发育分析表明,该基因广泛存在于真核生物中,并且在亲缘关系较近的物种之间表现出高度同源性。与E同源基因的互补交配型相比,OPc-MSP()基因有九个沉默突变。