Molecular mechanism of reproductive isolation of Bemisia tabaci species complex is for plant protection and quarantine services

Abstract

Bemisia tabaci (Gennadius) intensively inhabits tropical, subtropical and adjacent temperate regions, distributed in different countries and regions such as South America, Europe, Africa, Asia and Oceania. This species is a serious invasive pest, causing significant damage to plants, reducing crop yields during its infestations. It is an important object of research in modern agriculture. Studying the heat resistance of B. tabaci is important because air temperature has a significant impact on the morphology and stressors that affect this pest. Biologically active substances, such as heat stress proteins (HSPs), play an important function in the adaptation of organisms to changes in temperature. High temperature can cause a stress response and affect the rate of development and reproduction of B. tabaci, and therefore understanding the role of HSPs becomes critical. In this study, RACE technology and insect ecology technology were used to reveal the effects of different temperatures on the expression of heat shock protein and the growth and development characteristics of B. Tabaci. The control effects of different chemical treatments on B. tabaci were clarified. The results are as follows: 1. Through RACE technology, a part of the hsf1 gene sequence (about 900bp) of B. tabaci was amplified. The DNAMAN software analysis and verification showed that the amplified gene sequence conforms to the relevant characteristics of hsf1, and the similarity with the conserved gene sequence of hsf1 reaches 66.55%, which can be used for fluorescence quantitative verification. The Blast function was performed on the sequenced results. After the alignment, the homologous genes with high similarity were searched and downloaded, and then the full-length sequence was assembled using the Sequence Assembly function of the DNAMAN software, and the full-length hsp60 was electronically cloned to about 2349 bp. The full-length cDNA of B. tabaci hsp60 was obtained by homologous cloning and electronic splicing clone verification technology. The full-length cDNA of Hsp60 gene of B. tabaci and its predicted amino acid sequence has a 1372 bp open reading frame (ORF), which can encode 608 amino acids. The isoelectric point is predicted to be 9.28 and the protein molecular weight is about 49446 Da. The 5'UTR of the gene contains 145 bp, and the 3'UTR contains 840 bp. 2. The effects of different temperatures on the growth and development of B. tabaci. The temperature has a significant effect on the development process of each insect state of B. tabaci. The experiment shows that the treatment of B. tabaci in the range of 7-39℃ has an effect on the hatching rate of eggs and adult reproduction. There were significant differences in the mortality rate of B. tabaci in different temperature conditions. The test showed that B. tabaci had nearly zero death when the optimum temperature was 26℃. There was no significant difference between male and female adults at 37℃and 39℃. Temperature has a great influence on the reproduction of B. tabaci adults, and the sex ratio of male and female adults is different at different temperatures. The research results show that high temperature leads to a decrease in the reproductive fitness of B. tabaci (reduced egg production), which will affect the survival of the offspring of the population scale. High temperature may shorten the lifespan of B. tabaci female adults and reduce the number of matings, thereby reducing the fertilization rate of female adult eggs and increasing the proportion of male offspring. 3. The expression levels of Hsf1 regulatory factors in B. tabaci were significantly different at 9℃(P<0.05), while the expression differences at other different temperatures were not significant. Overall, different high and low temperature treatments had no significant effect on the expression of Hsf1. The highest expression temperature of Hsp60 in B. tabaci is around 25℃. There was no significant difference in the expression of Hsp60 in B. tabaci at different temperatures, and only significant difference was found in the expression at 7℃and 41℃ (P<0.05), and at 13℃compared with other temperatures (P<0.05). Overall, different high and low temperature had no obvious effect on the expression of Hsp60. 4. According to the comparison of the expression levels of Hsf1 regulator and Hsp 60 gene in B. tabaci at different temperatures, it can be seen that the two genes have obvious expression at low temperature, but there is no significant expression at high temperature. B. tabaci biotype B has a wide temperature ecological range. At the same time, it can be seen that the expression of Hsf1 is positively correlated with the expression of Hsp 60, and they are induced at low temperature at the same time, This can clearly show that Hsp 60 gene plays an induced protective role through Hsf1 regulatory factors. It provides a reference for studying the population expansion of other invasive species. 5. Generally, after the outbreak of B. tabaci, the virus transmitted by it will occur greatly. These viruses can cause severe damage by causing leaf curling, dwarfing plants and fruit abortion. In order to screen out high-efficiency pesticides for controlling B. tabaci on tomato, a single foliar spray of 10 pesticides was used to carry out control experiments at the initial stage of the occurrence of B. tabaci, and a survey of the control effect was carried out 1, 3, and 7 days after the treatment. The results showed that the best effect of treatment F on B. tabaci 1 day after treatment was 41%, which was significantly higher than that of other test reagents, and none of the treatment reagents showed good quick-acting effects. Three days after treatment, treatment C had the best control effect on B. tabaci at 72%, and treatments I and G had the worst effect at 62%. The best control effect of J treatment 7 days after the drug is 86%, which is significantly higher than other test reagents. In the three field surveys conducted on October 13 to 20, 2020, there was no phytotoxicity, which is safe for tomatoes. In the field control process, we can choose 20% Mevirpirazone suspension concentrate, which can be used in combination with 22.4% Spirotetramat suspension concentrate and 5% Diprofen dispersible concentrate to achieve better control effect. We can select to use in facility vegetables.