Abstract
The rice sesquiterpene synthase II gene (OsSTPS2, LOC_Os04g27430), which is involved in the antixenosis defense mechanism of rice against brown planthopper (BPH) infestation, was identified in the BPH-resistant rice variety Rathu Heenati (RH). In contrast, the gene was not functional in the BPH-susceptible rice variety KDML105 (KD). Single-nucleotide polymorphisms (SNPs) in the promoter region and in exon 5 of the gene and a seven amino acid deletion in the deduced protein sequence are suggested as factors that negatively regulate the function of the gene. Sequence analysis of the promoter region and expression analysis of the OsSTPS2 gene in several rice genotypes revealed the correlation of SNPs of the ATHB-1, SBE1, and P-factor with the expression of the gene. Genomic and complementary DNA (cDNA) sequence analysis at exon 5 of the gene showed that the 21 bp deletion naturally occurred in several rice genotypes. The antixenosis of the BPH feeding preference (AFP) of rice varieties differed in the seven amino acid deletion lesion of the gene, suggesting that the seven amino acid deletion negatively controls the antixenosis mechanism during BPH infestation. Analysis of the plant volatile compounds released after BPH infestation suggested that E-β-farnesene (EBF) is the major product of the OsSTPS2 gene.
Highlights
Due to the long-term evolutionary interactions between plants and their insect enemies, many plants release elevated levels of volatile organic compounds upon being attacked by herbivores
We previously identified LOC_Os04g27430 as the sesquiterpene synthase II (OsSTPS2) gene induced by brown planthopper (BPH) feeding in the BPHresistant rice variety Rathu Heenati (RH) [5]
We investigated the correlation between sequence variation in the promoter region of the OsSTPS2 gene and its expression in several rice varieties/lines and showed that the gene may be controlled at the transcription level
Summary
Due to the long-term evolutionary interactions between plants and their insect enemies, many plants release elevated levels of volatile organic compounds upon being attacked by herbivores Some of these plant volatiles have functional roles in the plants’. OsSTPS2 was found to be reduced at both the genomic and protein levels in the rice variety KDML105 (KD), which is highly susceptible to BPH attack. Damage to this gene results from three single-nucleotide polymorphisms (SNPs) at transcription factor binding sites in the promoter region and a 21 bp deletion in the cDNA leading to a seven amino acid deletion in the protein chain. We identified E-β-farnesene as the candidate major sesquiterpene volatile compound product of this gene
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