Tomato and Jute Mallow are Two New Hosts of Papaya Bunchy Top Phytoplasma, a 16SrXII-O Subgroup Strain in Nigeria.

Abstract

Nigerian papaya bunchy top (NGPBT) phytoplasma was first identified in diseased papaya plants growing in Ibadan, Oyo State, Nigeria (Kazeem et al. 2021). The NGPBT phytoplasma is a 'Candidatus Phytoplasma convolvuli'-related strain and represents a subgroup lineage, 16SrXII-O (the accession number of the reference strain is MW530522, Kazeem et al. 2021). The present communication reports that NGPBT phytoplasma can also infect tomato (Solanum lycopersicum) and jute mallow (Corchorus olitorius). Since May 2020, tomato and jute mallow grwn in Ibadan have been observed to develop yellowing, little leaf, and stunting symptoms (Fig. 1). Because the symptomatic plants occurred in the region approximately 1 km adjacent to where the NGPBT disease was reported, and the symptoms of infected plants resembled those of phytoplasma infection, molecular diagnostic assays for phytoplasma detection were deployed. Total DNAs were extracted from symptomatic plants, including four tomato plants and three jute mallows, as well as from asymptomatic two tomato and two jute mallow plants. The DNA samples were subjected to semi-nested PCR using phytoplasma 16S rRNA gene-specific primers P1A and P7A, followed by P1A and 16S-SR (Lee et al. 2004). An amplicon of 1.5 kb was obtained from each of the symptomatic plants, while no amplicon resulted from DNA samples of asymptomatic plants or negative controls without DNA templates (water and PCR reagents only). PCR products were cloned into the TOPO TA cloning vector (Invitrogen, Carlsbad, CA, USA), and three clones were chosen for each sample for Sanger sequencing (Psomagen Inc., Rockville, MD, USA). The nearly full-length 16S rRNA gene sequences (1.53kb) derived from tomato (OP123558) and jute mallow (OP123559) samples were identical. Based on the iPhyClassifier phytoplasma classification web tool (Zhao et al. 2009) and the BLAST search against the NCBI nucleotide database, these phytoplasma strains showed 100% sequence identity in 16S rRNA gene with the NGPBT phytoplasma (16SrXII-O, MW530522). Moreover, two additional genetic loci including ribosomal protein genes rplV-rpsC, and rplO-secY-adk were also amplified by nested PCR or semi-nested PCR with specific primers rpStolF/rpStolR followed by rpStolF2/rpStolR (Martini et al. 2007), and SecYF1a (Xll)/MapR-703-a, followed by SecYF2a (Xll)/MapR-703-a (Lee et al. 2010). Gene fragments of rplV-rpsC (1238bp) and rplO-secY-adk (2064bp) were amplified from DNAs of diseased papaya, tomato, and jute mallow plants. The obtained sequences were deposited into GenBank, respectively: rplV-rpsC (OP123560, OP123562, and OP123563) and rplO-secY-adk (OP123565, OP123567, and OP123568). Multilocus sequence analysis (MLSA) indicated that the sequences of phytoplasmas amplified from three different plant hosts were also identical in rp, secY, and adk genes. The MLSA results demonstrate that tomato and jute mallow are two new hosts of NGPBT phytoplasmas. This also marks the first time that phytoplasma diseases are associated with tomato and jute mallow in Nigeria, as prior to this study, phytoplasma diseases were only reported in coconut palm and papaya in the country (Osagie et al. 2016; Kazeem et al. 2021). Results from the present study suggest that insect vector(s) for the transmission of the NGPBT phytoplasma are present in the region. Since both tomato and jute mallow are important vegetable crops in Nigeria, timely dissemination of emerging disease information is needed to alert growers and extension personnel in the region. In addition, ongoing incidence, and prevalence surveys of NGPBT disease indicate that more infected papaya and tomato plants have been observed in the region than in previous years. A better understanding of the NGPBT phytoplasma disease epidemiology will help devise strategies to control the diseases associated with the NGPBT phytoplasma.