昆虫学报 ›› 2023, Vol. 66 ›› Issue (2): 200-208.doi: 10.16380/j.kcxb.2023.02.009

• 研究论文 • 上一篇    下一篇

灰飞虱翅型及翅发育基因对长、短翅定向选择的响应

王汝琳, 刘向东*   

  1. (南京农业大学植物保护学院昆虫学系, 南京 210095)
  • 出版日期:2023-02-20 发布日期:2023-04-07

Responses of wing morph and wing development genes to directional selection for the long- and short-winged morphs in Laodelphax striatellus (Hemiptera: Delphacidae)

WANG Ru-Lin, LIU Xiang-Dong*   

  1. (Department of Entomology, College of Plant Protection, Nanjing Agricultural University, Nanjing 210095, China)
  • Online:2023-02-20 Published:2023-04-07

摘要:  【目的】稻飞虱翅型调控的分子机理已较为清楚,但是在长、短翅品系不断纯化过程中翅型及翅发育基因表达水平的变化规律还不明确,因此本研究旨在阐明灰飞虱Laodelphax striatellus长、短翅品系的翅长、翅重及翅发育基因对翅型定向选择的响应,以期为明确灰飞虱翅型的遗传进化规律提供参考。【方法】在恒定条件下对灰飞虱长、短翅型分别进行14和13个连续代次的定向选择,建立长翅型和短翅型品系;测定各选择代次中两品系的长翅和短翅率、翅长和翅重;并采用qPCR方法测定翅发育基因InR1, InR2和FoxO的相对表达水平;通过比较长、短翅型品系的翅型指标和基因表达水平在各选择代次间的差异来表征翅型及翅发育基因的选择响应。【结果】长翅型和短翅型分别进行连续14和13代的定向选择,灰飞虱长翅型品系的长翅率以及短翅型品系的短翅率在各选择代次间均显著上升,均已保持在95%左右。随着选择代次的增多,长翅型品系的翅长不断增长,短翅型品系的翅长不断缩短,长、短翅型品系的翅重均呈变轻趋势。长翅型品系3龄若虫的InR1和InR2相对表达水平随选择代次的增多而下降,但FoxO相对表达水平不随选择代次变化;短翅型品系InR1, InR2和FoxO在3龄若虫中的相对表达水平随选择代次增多呈现上升趋势;这3个基因在成虫中的相对表达水平对长和短翅型的选择响应不明显。【结论】灰飞虱翅型对定向选择有明显的响应,选择翅型的比率显著上升并保持在高水平;长翅型品系经定向选择后翅变长、变薄,短翅型品系的翅则变短、变轻;多世代定向选择长翅型抑制了若虫的翅发育基因InR1和InR2的表达,而短翅型的多世代定向选择则激活了其表达,从而促进翅型纯系的形成与保持。研究结果预示灰飞虱种群能向长、短翅型纯系两个方向进化。

关键词:  灰飞虱, 翅多型性, 定向选择, 翅长, 翅重, 胰岛素受体, 基因表达水平

Abstract: 【Aim】The molecular mechanism of the wing morph regulation of rice planthopper is clear, but the change rules of wing morph and expression levels of wing development genes during the continuous selection for the long- and short-winged strains remain obscure. This study aims to explore the responses of wing length, wing weight and wing development genes of the long- and short-winged strains of the small brown planthopper, Laodelphax striatellus to the directional selection, so as to clarify the genetic rule and evolution of its wing morph. 【Methods】The long- and short-winged morphs of L. striatellus were successively selected for 14 and 13 generations, respectively, under the constant conditions, and the long and short-winged strains were established. The rates of long- and short-winged individuals, wing length and wing weight of the two strains were measured in each selection generation, and the relative expression levels of the wing development genes InR1, InR2 and FoxO were examined using the qPCR method. The selection responses of the wing morph and wing development genes were characterized by comparing the differences in the wing morph indicators and gene expression levels between the long- and short-winged strains in each selection generation. 【Results】 Through the directional selection of long- and short-winged strains of L. striatellus for 14 and 13 consecutive generations, respectively, the rate of long-winged individuals in the longwinged strain and the rate of shortwinged individuals in the shortwinged strain significantly increased, and both could remain about 95%. With the increase of the selection generations, the wing length of the longwinged strain became longer whereas that of the short-winged strain became shorter, and both the wing weights of the long- and short-winged strains became lighter. The relative expression levels of InR1 and InR2 in the 3rd instar nymphs of the long-winged strain decreased with the increase of selection generations, whereas that of FoxO had no change. However, the relative expression levels of InR1, InR2 and FoxO in the 3rd instar nymphs of the short-winged strain increased with the increase of selection generations. The expression levels of these three genes in adults had no obvious responses to the selection for the long- and short-winged morphs. 【Conclusion】L. striatellus has obvious responses to the directional selection for wing morphs, and the rate of the selected wing morph increases significantly and remains a high level. The wings of the long-winged strain become longer and thinner whereas the wings of the short-winged strain become shorter and lighter after directional selection. The multi-generational directional selection inhibits the expression of two wing development genes InR1 and InR2 of the longwinged strain, while activates the expression of them of the short-winged strain, thereby promoting the formation and maintenance of the pure-bred lineages of long- and short-winged morphs. These results indicate that the L. striatellus population may evolve towards the pure-bred lineages of long-winged and short-winged morphs.

Key words:  Laodelphax striatellus, wing polymorphism, directional selection, wing length, wing weight, insulin receptor, gene expression level