Pearl millet [Pennisetum glaucum (L.) R. Br. Syn. Pennisetum americanum (L.) Leeke] is the oldest and widely cultivated millet in Asian and African countries, mostly grown over low fertile soils in more than 40 countries covering an area of 312.00 lakh hectares (FAOSTAT 2017). In Haryana, crop was grown over an area of 4.30 lakh hectares during Kharif 2019. Pearl millet is prone to many fungal and bacterial diseases. During 2018 to 2020, a new devastating diseas exhibiting stem rot like symptoms was observed in pearl millet growing regions in Indian state of Haryana. The isolated disease causing agent was a bacterium, where 16S rDNA-based nucleotide sequence deposited in NCBI GenBank (Accession nos. MZ433194.1) conferred its nearness to Klebsiella aerogenes (Hormaeche and Edwards 1960) Tindall et al. 2017. Further, DNA gyrase genomic sequence (NCBI Accession nos. MZ707528.1) also stayed its high homology to K. aerogenes. Klebsiella usually known to cause diseases in humans and animals, and also has been found inciting different kind of rots in different plantations viz. top rot in maize (Huang Min et al. 2016). Pearl millet is susceptible to minor bacterial diseases viz. bacterial leaf streak (Xanthomonas campestris), bacterial leaf spot (Pseudomonas syringae) and leaf stripe (P. avenae). Earlier, among the plant pathogenic bacterial entirety, only Erwinia chrysanthemi is known to cause stem rot diseases in sorghum (Saxena et al. 1991) amongst different types of millet. Extensive disease survey of pearl millet growing regions (Hisar, Bhiwani, Rewari, Mohindergarh and Bawal districts of Haryana having an altitude of 215, 225, 245, 262 and 266 m, respectively) in rainy seasons of 2019 and 2020 revealed the prevalence of typical stem rot disease, representing up to 70% disease incidence in the infected fields. The pieces of symptomatic stem of different plants were collected from two locations (Hisar and Bhiwani) and associated organism was isolated following the techniques of Janse (2005). The resulting growth of bacterial cultures were further purified on nutrient agar (NA) media using streak plate technique where colony growth of both the isolates were observed as morphotypes. The resulting bacteria were gram-negative and rod-shaped. Colonies were round and creamish white on NA. Isolated morphotypes were positive for indole production, methyl red, Voges Proskauer's test, citrate utilization, arabinose, mannitol, rhamnose and sucrose, whereas negative for glucose, adonitol, lactose and sorbitol tests. Biochemical tests were performed following standard methods (Holt et al. 1994). Molecular analysis of both isolates was performed using two sets of primers (universal 16S rRNA gene and genus-specific gyrA gene). The gyrA fragment (F: 5'-CGCGTACTATACGCCATGAACGTA-3'; R: 5'-ACCGTTGATCACTTCGGTCAGG-3') has been adopted as Klebsiella genus-specific gene (Brisse and Verhoef 2001). The quality and quantity of the isolated genomic DNA were analyzed using NanoDrop-2000 (Thermo Fisher Scientific, USA) and resolved in 1% (w/v) agarose gel. Thereafter, visualized in gel documentation to confirm a single band of high-molecular-weight DNA. The fragment 16S rDNA was amplified using 27F and 1492R primers, where a single discrete PCR amplicon of 1500 bp was observed in 1% (w/v) agarose gel. Similarly, the gyrA gene was amplified using 09510F and 09510R primers that conferred a single discrete band of 400 bp. The forward and reverse DNA sequencing reaction of purified PCR amplicons (16S rDNA and gyrA) was carried out using BDT v3.1 Cycle sequencing kit on a genetic analyzer to generate gene sequences. The consensus sequences of both gene were generated from forward and reverse sequences data using aligner software. The obtained sequences of both genes were compared with the available nucleotide sequences in the NCBI using the blast 2.2.9 system (https://blast.ncbi.nlm.nih.gov/Blast.cgi?PAGE_TYPE=BlastSearch). The sequenced PCR amplicons showed up to 100% similarity with Klebsiella aerogenes 16s RNA nucleotide sequences (Accession nos. NR102493.2, MT373521.1; MF682950.1; MF462979.1 etc.). The bacterium also showed high nucleotide homology to K. aerogenes gyrA gene sequences (Accession nos. LR607333.1; CP035466.1; CP049600.1 etc.). The molecular phylogenetic analysis was done by the maximum likelihood method based on the Tamura-Nei model, and 1000 replicates for bootstrap testing in MEGA 7.0 software. The analysis involved 16 nucleotide sequences and evolutionary distances were computed. The 16s RNA based phylogenetic tree raised using MEGA7 (Kumar et al. 2016) elucidates that Klebsiella aerogenes Hisar formed a cluster with three K. aerogenes strains (Accession nos. MZ577128.1, MT373521.1 and MT 373520.1), whereas K. aerogenes Bhiwani displayed higher homology to NCBI sequences viz. MF682950.1, MT355368.1, MW331687.1and LC515412.1. Bacterial suspension was prepared by suspending bacterial cells into sterile water and cell density was adjusted to 1×107 colony forming unit/ml. For pathogenicity, leaf whorl inoculation (10 ml suspension/ whorl) was done on 15 days old seedlings of pearl millet genotype 7042S raised under controlled conditions (Temperature 35±2°C and more than 80% Relative Humidity). The pathogenicity was proved under field conditions as well. Initial symptoms were observed 4-5 days after inoculation as long streaks on leaves. Soon a spike in number of these leaf streaks was observed. Thereafter, water-soaked lesions appeared on the stem at 20-25 days after inoculation which later on turned brown to black. Severely diseased plants were dead, exhibiting hollowing of the stem and drying of leaves. The infected stem pith disintegrated and showed slimy rot symptoms and the pearl millet clumps toppled down. The rotten stems of both inoculations were again cut in to small pieces and the reisolated bacterium showed exactly the same morphological, biochemical and molecular characteristics. To our knowledge, this is the first report of stem rot of pearl millet incited by K. aerogenes in south-western regions of Haryana, India. Because the stem rot caused by K. aerogenes poses a significant threat to pearl millet cultivation, further research on biology, epidemiology and management choices is needed.
Keywords: Klebsiella; Pearl millet; genotypes; leaf streaks; stem rot.