[Evaluation of reference genes for quantitative real-time PCR normalization in cotton bollworm, Helicoverna armigera].

Reverse-transcription quantitative real-time PCR (RT-qPCR), a sensitive technique is being extensively employed in quantification of gene expression. However this requires normalization with suitable reference gene (RG) which is crucial in minimizing inter sample variations. Information regarding suitable RG is scarce in general and more so in insects, including the cotton bollworm, Helicoverpa armigera, an economically important pest. In management of this pest RNA interference (RNAi), is perceived as a potential tool, which is achieved by double-stranded RNA (dsRNA) delivery. These studies demand accurate quantification of gene silencing. In this study we assessed the suitability of five RGs viz. ß-actin (ACTB), 18S rRNA (18S), glyceraldehyde-3-phosphate dehydrogenase (GAPDH), ß-tubulin (TUB) and elongation fator-1-alfa (EF1-α) for gene expression studies in dsRNA treatment and across different developmental stages of H. armigera and ranked using geNorm, NormFinder and BestKeeper software programs. Data analysis revealed that best ranked RGs were varied in dsRNA treatment and in developmental stages. Under dsRNA treatment, 18S and GAPDH were more stable whereas, TUB and GAPDH were more stable across developmental stages. We also demonstrate that inappropriate selection of RG led to erroneous estimation of the target gene, chymotrypsin, expression. These results facilitate accurate quantification of gene expression in H. armigera.

One-step DNA fragment assembly for expressing intron-containing hairpin RNA in plants for gene silencing.

Double-stranded RNA-mediated RNA interference in plants involves generating a construct expressing intron-containing hairpin RNA (ihpRNA), which usually is a cumbersome, multistep process. Here, we describe a simplified method involving single steps of PCR, restriction, ligation, and transformation for assembling an ihpRNA construct for plant transformation. Our method has several advantages over the currently available ones, viz., wider choice of restriction sites and facility for rapid screening of positive clones, among others. We demonstrate the utility of this approach in assembling the tomato phytoene desaturase gene. This simplified DNA fragment assembly strategy for ihpRNA construction facilitates high-throughput gene silencing in plants.

Effect of diet delivered various concentrations of double-stranded RNA in silencing a midgut and a non-midgut gene of Helicoverpa armigera.

Ribonucleic acid interference (RNAi) is a sequence-specific gene silencing mechanism induced by double-stranded RNA (dsRNA). Recently, RNAi has gained popularity as a reverse genetics tool owing to its tremendous potential in insect pest management, which includes Helicoverpa armigera. However, its efficiency is mainly governed by dsRNA concentration, frequency of application, target gene, etc. Therefore, to obtain a robust RNAi response in H. armigera, we evaluated various concentrations of dsRNA and its frequency of applications delivered through diet in silencing a midgut gene, chymotrypsin and a non-midgut gene, juvenile hormone acid methyl transferase (jhamt) of H. armigera. The extent of target gene silencing was determined by employing reverse transcription quantitative real-time polymerase chain reaction (RT-qPCR). Our study revealed four significant findings: (i) single application of dsRNA elicited a delayed and transient silencing, while multiple applications resulted in early and persistent silencing of the above genes; (ii) silencing of the non-midgut gene (jhamt) through diet delivered dsRNA revealed prevalence of systemic silencing probably due to communication of silencing signals in this pest; (iii) the extent of silencing of chymotrypsin was positively correlated with dsRNA concentration and was negatively correlated with jhamt; (iv) interestingly, over-expression (15­18 folds) of an upstream gene, farnesyl diphosphate synthase (fpps), in juvenile hormone (JH) biosynthetic pathway at higher concentrations of jhamt dsRNA was the plausible reason for lesser silencing of jhamt. This study provides an insight into RNAi response of target genes, which is essential for RNAi design and implementation as a pest management strategy.

Molecular characterization of the Indian isolate (Ka-To) of tomato spotted wilt virus (TSWV) infecting tomato (Solanum lycopersicum L.).

Tomato spotted wilt virus (TSWV) infecting tomato has been identified as an emerging constraint for tomato cultivation in the southern Indian states of Karnataka and Tamil Nadu. Infection of TSWV produces circular necrotic ring spots on leaves, stem and floral necrosis and necrotic ringspots on fruits of tomato. In this study, we describe the characterization of TSWV isolate (Ka-To) infecting tomato from India based on biological, serological and molecular assay. Pathogenicity of TSWV (Ka-To) isolate was established by mechanical inoculation of sap from infected leaves on tomato, cowpea and datura which expressed necrotic or chlorotic local lesions. Samples were tested positive in the serological assay performed with TSWV-specific immunostrips. Further, reverse transcription polymerase chain reaction (RT-PCR) amplification of coat protein gene followed by sequencing, unequivocally confirmed the identity of TSWV. The obtained full-length nucleotide sequences of Ka-To isolate [L RNA-MK977648; M RNA-MK977649; and S RNA-MK977650] had greater similarity to the TSWV isolates of Spain and Hungary infecting tomato and pepper. The phylogenetic and recombination analysis showed the evidence for reassortment and recombination in the genome of Ka-To isolate. To the best of our knowledge, this is the first confirmed evidence for the occurrence of TSWV on tomato in India. Information obtained in this study issues a forewarning on the emergence of TSWV on vegetable ecosystem in the Indian subcontinent, requiring urgent management strategies to curtail its pestilence. Supplementary Information: The online version contains supplementary material available at 10.1007/s13205-023-03579-y.

Modified competing polymerase chain reaction primer for single tube quantitative PCR.

We developed a modified polymerase chain reaction (PCR) primer with 3' phosphate instead of hydroxyl group for single-tube accurate transcript quantification. 18S ribosomal RNA (rRNA) reference gene-specific modified primer was used for precise single-tube quantification of two target transcripts, namely chymotrypsin and jhamt (juvenile hormone acid methyl transferase) of Helicoverpa armigera. A comparative study of 3' phosphorylated primers, 3' mismatched primers, and commercial Competimers revealed that 3' phosphorylation was more efficient than the 3' mismatch and was on par with Competimers in blocking the primer extension. Thus, the modified primers can be used in single-tube, economical, and accurate PCR quantification of the target gene using any assay-specific reference gene.

Double-Stranded RNA-Mediated Suppression of Trypsin-Like Serine Protease (t-SP) Triggers Over-Expression of Another t-SP Isoform in Helicoverpa armigera.

High diversity of digestive proteases is considered to be the key factor in the evolution of polyphagy in Helicoverpa armigera. Serine proteases (SPs) contribute ~85% of the dietary protein digestion in H. armigera. We investigated the dynamics of SP regulation in the polyphagous pest, H. armigera using RNA interference (RNAi). HaTry1, an isoform of SP, expressed irrespective of the composition of the diet, and its expression levels were directly proportional to the larval growth rate. Therefore, HaTry1 was silenced by delivering 10 and 20 µg concentrations of double-stranded RNA through semi-synthetic diet. This led to a drastic reduction in the target gene transcript levels that manifested in a significant reduction in the larval weight initially, but the larvae recovered in later stages despite continuous dsRNA treatment. This was probably due to the compensatory effect by over-expression of HaTry13 (31-folds), another isoform of SP. Phylogenetic analysis of H. armigera SPs revealed that the over-expressed isoform was closely related to the target gene as compared to the other tested isoforms. Further, silencing of both the isoforms (HaTry1 and HaTry13) caused the highest reduction in the larval weight and there was no larval growth recovery. These findings provide a new evidence of the existence of compensatory effect to overcome the effect of silencing individual gene with RNAi. Hence, the study emphasizes the need for simultaneous silencing of multiple isoforms.