Charith Raj Adkar-Purushothama

Small RNA Derived from the Virulence Modulating Region of the Potato spindle tuber viroid Silences callose synthase Genes of Tomato Plants

Small RNA derived from the virulence modulating region of the Potato spindle tuber viroid downregulates callose synthase by RNA silencing in tomato. The tomato (Solanum lycopersicum) callose synthase genes CalS11-like and CalS12-like encode proteins that are essential for the formation of callose, a major component of pollen mother cell walls; these enzymes also function in callose formation during pathogen infection. This article describes the targeting of these callose synthase mRNAs by a small RNA derived from the virulence modulating region of two Potato spindle tuber viroid variants. More specifically, viroid infection of tomato plants resulted in the suppression of the target mRNAs up to 1.5-fold, depending on the viroid variant used and the gene targeted. The targeting of these mRNAs by RNA silencing was validated by artificial microRNA experiments in a transient expression system and by RNA ligase-mediated rapid amplification of cDNA ends. Viroid mutants incapable of targeting callose synthase mRNAs failed to induce typical infection phenotypes, whereas a chimeric viroid obtained by swapping the virulence modulating regions of a mild and a severe variant of Potato spindle tuber viroid greatly affected the accumulation of viroids and the severity of disease symptoms. These data provide evidence of the silencing of multiple genes by a single small RNA derived from a viroid.

Comprehensive secondary structure elucidation of four genera of the family Pospiviroidae.

Viroids are small, circular, single stranded RNA molecules that infect plants. Since they are non-coding, their structures play a critical role in their life cycles. To date, little effort has been spend on elucidating viroid structures in solution due to both the experimental difficulties and the time-consuming nature of the methodologies implicated. Recently, the technique of high-throughput selective 2′-hydroxyl acylation analyzed by primer extension (SHAPE) was adapted for the probing of the members of family Avsunviroidae, all of whom replicate in the chloroplast and demonstrate ribozyme activity. In the present work, twelve viroid species belonging to four different genera of the family Pospiviroidae, whose members are characterized by the presence of a central conserved region (CCR) and who replicate in nucleus of the host, were probed. Given that the structures of five distinct viroid species from the family Pospiviroidae have been previously reported, an overview of the different structural characteristics for all genera and the beginning of a manual classification of the different viroids based on their structural features are presented here.

RNAi mediated inhibition of viroid infection in transgenic plants expressing viroid-specific small RNAs derived from various functional domains.

Previous attempts to develop RNAi-mediated viroid-resistant transgenic plants using nearly full-length Potato spindle tuber viroid (PSTVd) hairpin RNA (hpRNA) were successful; however unusual phenotypes resembling viroid infection occurred. Therefore, in the present work, transgenic Nicotiana benthamiana lines expressing both partial and truncated versions of PSTVd hpRNA were developed. Specifically, seven partial or truncated versions of PSTVd sequences were selected according to the hotspots of both PSTVd-sRNAs and functional domains of the PSTVd. A total of 21 transgenic lines Nicotiana benthamiana were developed under the control of either the CaMV-35S or the CoYMV promoters. All of the transgenic lines established here were monitored for the induction of phenotypic changes, for PSTVd-sRNA expression and for the resistance against PSTVd infection. Additionally, this study demonstrates the use of inverted repeat construct sequences as short as 26- to -49 nucleotides for both the efficient expression of the PSTVd-sRNA and the inhibition of PSTVd infection.

Potato spindle tuber viroid infection triggers degradation of chloride channel protein CLC-b-like and Ribosomal protein S3a-like mRNAs in tomato plants

It is well established that viroid derived small RNA (vd-sRNA) induces RNA silencing of endogenous mRNA. However, it remains not clear how exactly viroid infections can lead to severe symptom induction given the fact that fewer vd-sRNAs binding the specific target mRNAs were recovered from the infected plants. To answer this question, the two least expressed (+) and (−) strand vd-sRNAs of potato spindle tuber viroid (PSTVd) binding to both the 3′ UTR and the coding region of tomato mRNAs were analyzed by infecting tomato plants with two variants of PSTVd. As products of these putative target mRNAs are involved in plant phenotype, the effect of this viroid on these genes were analyzed by infecting tomato plants with two variants of PSTVd. The direct interaction between the vd-sRNAs and putative mRNAs was validated by artificial microRNA experiments in a transient expression system and by RNA ligase-mediated rapid amplification of cDNA ends. Parallel analysis of RNA ends of viroid infected plants revealed the widespread cleavage of the target mRNAs in locations other than the vd-sRNA binding site during the viroid infection implying the viroid-infection induced vd-sRNA independent degradation of endogenous mRNAs during viroid infection.

Analysis of small RNA production patterns among the two potato spindle tuber viroid variants in tomato plants.

In order to analyze the production of small RNA (sRNA) by viroids upon infecting the plants, the tomato plants (Solanum lycopersicum cultivar Rutgers) were inoculated with the variants of Potato spindle tuber viroid (PSTVd). After 21-days of postinoculation, total RNA was extracted and subjected for deep-sequencing using Illumina HiSeq platform. The primers were trimmed and only 21- to 24-nt long sRNAs were filtered after quality check of the raw data. The filtered sRNA population was then mapped against both the genomic (+) and antigenomic (−) strands of the respective PSTVd variants using standard pattern-matching algorithm. The profiling of viroid derived sRNA (vd-sRNA) revealed that the viroids are susceptible to host RNA silencing mechanism. High-throughput sequence data linked to this project have been deposited in the Gene Expression Omnibus (GEO) database under accession number GSE69225.

Molecular Identification of Chrysanthemum chlorotic mottle viroid Infecting Chrysanthemum in Karnataka, India

Chrysanthemum chlorotic mottle viroid (CChMVd, genus Pelamoviroid, family Avsunviroidae) has been reported to infect chrysanthemum (Dendranthema x grandiflorum). CChMVd was first reported in 1967 in the cultivar Yellow Delaware in New York State, USA (Dimock et al. 1971). Presence of CChMVd has previously been recorded, based on the symptoms and bioassay, in India (Singh et al. 1978). Karnataka State of India is the prominent chrysanthemum-growing region, with 19,161 ha cultivated under this crop and accounting for more than 40% of country’s flower production. During late summer 2010 (May and June), chrysanthemum leaves with yellow-green mottling and chlorotic spots were noted, indicating the possible association with CChMVd in Karnataka. Total RNA was extracted using a 2% CTAB buffer from leaf samples of symptomatic plants (Adkar-Purushothama et al. 2013). For the detection of CChMVd, reverse transcription PCR (RT-PCR) was performed using PIII/PIV as described previously (De la Pena et al. 1999). PCR products of the expected sizes (∼398 to 401 bp) were cloned and sequenced. BLAST analysis of the obtained sequences confirmed the presence of CChMVd in Karnataka. In order to estimate the incidence of CChMVd, the same RT-PCR assay was performed on 80 randomly selected chrysanthemum leaf samples of four different cultivars (Redgold, Bangalore, Sarval, and CO-1) collected from four chrysanthemum-growing districts of Karnataka. A PCR product of the size expected for CChMVd was detected in 8 of 80 samples analyzed, accounting for the infection incidence of 10%. To identify the prominent CChMVd variants, 10 clones obtained from the four representative samples were sequenced. To confirm the sequence of the primer regions, an additional set of primers CCh1/CCh2 were used for RT-PCR (Hosokawa et al. 2005) with high-fidelity LA-Taq polymerase (Takara-Bio, Japan). Alignment of all 40 sequences revealed the presence of at least two major sequence variants of CChMVd: CChMVd-Ind-1 (GenBank Accession No. KP262531) and CChMVd-Ind-3 (KP262533). Both the sequence variants had UUUC sequences (nucleotide position 82 to 85) in the tetraloop of the CChMVd, which is often associated with induction of symptoms in susceptible chrysanthemum cultivars (De la Pena et al. 1999). CChMVd-Ind-1was found to differ from CChMVd-Ind-3 by 17 nucleotide substitutions. BLAST analysis of CChMVd-Ind-1 showed 98% sequence identity with the CChMVd strain reported from Spain (GenBank Accession No. FJ647515) and from Himachal Pradesh state of India (FN646404), whereas CChMVd-Ind-3 showed 96% sequence identity with CChMVd strain W2-4, isolated from China (HQ891014). To our knowledge, this is the first molecular evidence for the presence of CChMVd infecting chrysanthemum in Karnataka State, India. The high degree of sequence diversity reported in the Karnataka isolates of CChMVd will help to clarify the evolution of this viroid and its possible threat to important crops.

Viroid-derived small RNA induces early flowering in tomato plants by RNA silencing: Aphid Odorant binding and chemosensory proteins

Summary Viroid infection often leads to early flowering in the host plant. This report describes the targeting of the FRIGIDA‐like protein 3 (FRL3) mRNA in tomato plants by a small RNA derived from the conserved left terminal region of the potato spindle tuber viroid (PSTVd). This targeting leads to the silencing of the FRL3 mRNA. Viroid infection assays using a severe variant of PSTVd induced early flowering in tomato plants by the down‐regulation of greater amounts of the target than did a mild PSTVd variant. The targeting of the FRL3 mRNA by RNA silencing was validated by both an artificial microRNA experiment transiently expressing viroid‐derived small RNAs in tomato plants, and by 5′ RNA ligase‐mediated rapid amplification of cDNA ends (RACE). These data unambiguously demonstrated the role of small RNAs in the early flowering seen in viroid‐infected plants.

Nested PCR Method for Early Detection of Fumonisin Producing Fusarium verticillioides in Pure Cultures, Cereal Samples and Plant Parts

ABSTRACT Fumonisin-producing Fusarium verticillioides was detected in cereal samples by semi-nested PCR using one forward, VERTF-1, and two reverse primers, VERTR and VERTF-2. A total of 326 Fusarium species isolated from maize, paddy, sorghum, wheat and pearl-millet samples were subjected to a first round of n-PCR with the species specific VERTF-1 and VERTR set of primers which recorded 59.50% of F. verticillioides. Further, second round of n-PCR scored 53.98% of fumonisin-producing F. verticillioides with fumonisin specific VERTF-1 and VERTF-2 set of primers. Maize samples recorded the highest frequency of fumonisin-producing F. verticillioides 40.98%, followed by paddy 33.33%, and sorghum 12.50%. Sensitivity of nested PCR was conducted by whole grain experiment of the cereals, roots and leaves of the cereals by diluting the DNA 10-100 times, in which 1:50, 1:75, and 1:100 diluted samples recorded positive. This method can be used for the early detection of fumonisin producing F. verticillioides occurring on cereals.

Alterations of the viroid regions that interact with the host defense genes attenuate viroid infection in host plant

ABSTRACT Understanding in intimate details how the viroid interaction with hosts defense genes is a cornerstone for developing viroid resistant plants. In this present study, small RNAs (sRNA) derived from Potato spindle tuber viroid (PSTVd) were studied in silico in order to detect any interactions with the serine threonine kinase receptor, a transmembrane protein that plays a role in disease resistance in plants. Using molecular biology techniques, it was determined that PSTVd infection negatively affects at least three serine threonine kinase receptors as well as with three other genes that are known to be involved in the overall development of the tomato plants. The transient expression of these putative PSTVd-sRNAs, using the microRNA sequence as a backbone, in tomato plants induced phenotypes similar to viroid infection. Mutants created by altering the sequence of PSTVd in these regions failed to infect the tomato plant. The data presented here illustrates the importance of these regions in viroid survival, and suggests a possible avenue of exploration for the development of viroid resistant plants.

Molecular diversity among viroids infecting chrysanthemum in India

Association of Chrysanthemum stunt viroid (CSVd) and Chrysanthemum chlorotic mottle viroid (CChMVd) with the Chrysanthemum plants exhibiting severe stunting, distinct yellow leaf mottling, and chlorosis was detected in the main chrysanthemum-growing regions of India. Sequence analysis of 90 cDNA clones obtained for CSVd and CChMVd, representing the chrysanthemum-growing regions of India, revealed the high degree of sequence variation throughout the genome under natural conditions. Additionally, all the analyzed CChMVd clones revealed the presence of UUUC in the tetraloop, a signature of symptomatic variants in susceptible cultivars. Phylogenetic analysis revealed that Indian CSVd is closely related to European isolates from ornamentals, whereas CChMVd clustered along with the isolates reported from the East Asian countries.