斑马鱼gdnfa基因表达特征及gdnfa+/-F1基因型鉴定

Characterization of gdnfa gene expression and identification of gdnfa+/-F1 genotypes in zebrafish

  • 摘要: 【目的】明确gdnfa基因在斑马鱼中的表达特征及其进化保守性,利用CRISPR/Cas9基因编辑技术建立gdnfa+/-F1代杂合突变体,为后续生成gdnfa-/-F2代纯合突变体打下基础,同时为探讨gdnfa基因在斑马鱼性腺分化和发育中的作用机制提供理论依据。【方法】通过下载不同物种的GDNF蛋白氨基酸序列,并分析其保守结构域,探究该基因在不同物种中的进化保守性。利用实时荧光定量PCR检测gdnfa基因在6月龄斑马鱼不同组织中的表达情况,并通过CRISPR/Cas9基因编辑技术获得gdnfa F0代突变个体,随后与野生型回交获取gdnfa+/-F1代突变个体,并分析其基因型及突变类型。最后,通过组织石蜡切片分析3月龄gdnfa+/-F1代个体与同期野生型性腺组织间的差异。【结果】斑马鱼GDNFA蛋白分子量为26.89 kD,由235个氨基酸残基组成,包含13个疏水氨基酸和51个酸性氨基酸,理论等电点(pI)为8.455,且该蛋白存在1个TGF-β结构域。斑马鱼GDNFA蛋白序列进化较保守,与非洲爪蟾、小鼠和人类GDNFA蛋白具有相同的TGF-β结构域,推测GDNFA蛋白序列在鱼类、人类和爬型动物类中进化保守。gdnfa基因在6月龄斑马鱼的性腺(精巢和卵巢)、肾脏、肝脏、鳃和肌肉组织中均有表达,但精巢中gdnfa基因的相对表达量显著高于其他组织(P<0.01)。繁育得到的48尾斑马鱼gdnfa+/-F1代杂合突变体中产生了3种突变类型,分别为在靶点附近插入2个碱基(△+2 bp)、缺失2个碱基(△-2 bp)和缺失12个碱基(△-12 bp)。48尾gdnfa+/-F1代个体的雄性∶雌性=14∶34,呈现出明显的雌性性别偏向。与野生型斑马鱼GDNFA蛋白相比,斑马鱼gdnfa+/-F1代个体的GDNFA蛋白三级结构发生了明显变化。性腺石蜡切片观察发现,部分gdnfa+/-F1代个体(△-2 bp)精巢中A型精原细胞团减少,B型精原细胞团排列更疏松;部分个体(△-12 bp)卵巢中更多的皮质泡卵母细胞累积。【结论】斑马鱼gdnfa基因与其他硬骨鱼类平行进化,且gdnfa基因在硬骨鱼类的进化过程中具有高度保守性;由于gdnfa基因在斑马鱼精巢发育中发挥作用,故gdnfa+/-F1代个体性别比例偏向于雌性,推测其参与斑马鱼性别分化。gdnfa+/-F1代杂合体部分功能的缺失对精原细胞的产生、皮层滤泡期卵母细胞到初级生长期卵母细胞的过渡阶段起到阻滞作用。获得的gdnfa+/-F1代个体可用于生成gdnfa-/-F2代纯合个体。

     

    Abstract: 【Objective】The purpose of the study was to clarify the expression characteristics and evolutionary conser-vation of gdnfa gene in zebrafish,to establish the heterozygous mutant of gdnfa+/-F1 generation using CRISPR/Cas9 gene editing technology,to lay a foundation for the subsequent generation of gdnfa-/-F2 homozygous mutant,and to provide a theoretical basis for exploring the role of gdnfa gene in gonad differentiation and development of zebrafish.【Method】By downloading the GDNF protein amino acid sequences of different species and analyzing the conserved structural domain,the evolutionary conservation of this gene in different species was explored.Real-time fluorescence quantitative PCR was used to detect the expression of gdnfa gene in different tissues of 6-month-old zebrafish,and gdnfa F0 generation mutant individuals were obtained by CRISPR/Cas9 gene editing technology,and then gdnfa+/-F1 generation mutant individuals were obtained by backcrossing with wild type,and their genotypes and mutation types were analyzed.Finally,paraf-fin sections of tissues were used to analyze the differences between 3-month-old gdnfa+/-F1 generation individuals and con-temporaneous wild-type gonad tissues.【Result】The molecular weight of zebrafish GDNFA protein was 26.89 kD,consisting of 235 amino acid residues,including 13 hydrophobic amino acids and 51 acidic amino acids.The theoretical isoelec-tric point (p I) was 8.455,and there was a TGF-β structural domain in the protein.The GDNF protein sequence of zebrafish was evolutionally-conserved,and had the same TGF-β structural domain as the GDNFA protein of Xenopus laevis,mouse and human,and it was hypothesized that the GDNFA protein sequence was evolutionally-conserved in fish,human and amphibian.The gdnfa gene was expressed in gonads (testis and ovary),kidney,liver,gill and muscle tissues of 6-month-old zebrafish,and the relative expression of gdnfa gene in testis was significantly higher than that in other tissues(P<0.01).The 48 zebrafish gdnfa+/-F1 generation heterozygous mutants produced three types of mutations,which were in-sertation of two bases(△+2 bp) near the target,missing two bases(△-2 bp) and missing twelve bases(△-12 bp).The sex ratio of 48 gdnfa+/-F1 generation individuals was male∶female=14∶34,showing an obvious female sex bias.Com-pared with wild-type zebrafish GDNFA protein,the tertiary structure of GDNFA protein in Zebrafish gdnfa+/-F1 generation individuals had significant changes.Paraffin section of gonad showed that the spermatogonial cell clusters of type A were reduced in some gdnfa+/-F1 generation individuals(△-2 bp),and the spermatogonial cell clusters of type B were more sparsely arranged.Some individuals(△-12 bp) accumulated more cortical follicular oocytes in their ovaries.【Conclu-sion】The gdnfa gene in zebrafish has evolved in parallel with other bony fish,and gdnfa gene is highly conserved in the evolution process of bony fish.Due to the role of gdnfa gene in the development of zebrafish testis,the sex ratio of gdnfa+/-F1 generation individuals is biased toward females,and it is hypothesized that it is involved in the male sex differentiation of zebrafish.The partial function loss of gdnfa+/-F1 generation heterozygote inhibits the production of spermatogo-nial cell and the transition phase from cortical follicular stage oocytes to primary growth stage oocytes.The gdnfa+/-F1 indi-viduals obtained are used to generate gdnfa-/-F2 homozygous individuals.

     

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