Vicia faba L. commonly known as broad bean or faba bean is one of the most widely grown protein rich legume crops. Out of more than 50 faba bean-producing countries,… Click to show full abstract
Vicia faba L. commonly known as broad bean or faba bean is one of the most widely grown protein rich legume crops. Out of more than 50 faba bean-producing countries, about 90% production is concentrated in the Asian, European Union (EU), and African region (FAO, 2020). Owing to its high nutritional value, both the fresh pods and dry seeds are consumed. During March 2022, some plants with little leaf and phyllody symptoms such as leaf-like floral structures were observed in the experimental fields of Indian Agricultural Research Institute (IARI), New Delhi (Fig. 1 a, b, c). The twig samples were collected from two individual symptomatic and one from asymptomatic plant. DNA was extracted using CTAB (cetyl trimethyl ammonium bromide) method (Ahrens and Seemüller, 1992; Marzachi et al. 1998) and examined for the association of phytoplasma through nested PCR using the universal primers P1/P7 and R16F2n/R16R2 targeting the 16SrRNA gene (Deng and Hiruki 1991; Gundersen and Lee 1996) and the other set of primers secAfor1/secArev3 and secAfor2/secArev3 targeting secA gene (Hodgetts et al. 2008). The DNA from symptomatic plants resulted the amplicons of 1200bp and 840bp specific to 16S rRNA and secA gene respectively. The gel purified PCR products were cloned into pGEM®-T Easy Vector system (Promega) and outsourced for Sanger sequencing at Agri Genome Labs, Kerala, India. The resultant 16S rRNA sequences (GenBank Acc. No. OP978231, OP978232) and secA sequences (ON715392 and ON715393) were examined through NCBI BLASTn analysis. The 16S rRNA sequences of the V. faba strains shared a minimum of 99.85% similarity with the phytoplasma strain causing little leaf and phyllody disease of sesame in India (MW622017) and a maximum of 100% sequence identity with the Vigna radiata phyllody and necrosis phytoplasma strain of Jodhpur (OP935760) India, whereas the secA gene sequences showed 100% identity with Tephrosia purpurea witches'-broom phytoplasma (MW603929) from China and a minimum of 91.14% similarity with 'Candidatus Phytoplasma aurantifolia' (MW020541) from India. The pairwise comparison results were completely in support of the corresponding phylogenetic sequence analysis results of 16SrRNA and secA gene sequences of faba bean strains in comparison with other strains retrieved from GenBank database, wherein the faba bean strains got clustered with 16SrII-D subgroup related strains (Fig. 2 a and b). Virtual RFLP analysis through iPhyClassifer tool through in silico digestion of R16F2n/R2 region of 16S rRNA gene of the faba bean strain using 17 restriction endonuclease enzymes resulted in the RFLP profiles similar to that of the profile of phytoplasma subgroup 16SrII-D (Y10097: papaya yellow crinkle) used as reference strain with a similarity coefficient value of 1.0. All the results of this investigation confirmed the association of 'Candidatus phytoplasma aurantifolia' (16SrII-D) with the diseased faba bean plants in this study. Previous reports of phytoplasma infecting faba bean include a group 16SrIII strain detected in Spain in 2004 (Castro and Romero), a subgroup 16SrII-D strain detected in Sudan in 2012 (Alfaro-Fernandez et al.), a group 16SrII strain detected in Saudi Arabia in 2014 (Al-Saleh and Amer), and subgroup 16SrIII-J strains detected in Egypt in 2014 (Hamed et al.) and in Peru in 2021 (Torres-Suarez et al.). To the best of our knowledge, these findings, document the first report of the association of 'Candidatus Phytoplasma aurantifolia' (subgroup 16SrII-D) with faba bean plants in India. This report necessitates further research on the status of distribution of this phytoplasma strain in other locations and hosts in the country so as to develop possible strategies to contain its further spread and management of the disease.
               
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