First report of Maize yellow mosaic virus infecting maize in Burkina Faso

Palanga, E.; Longué, R.D.S.; Koala, M.; Néya, J.B.; Traoré, O.; Martin, D.P.; Peterschmitt, M.; Filloux, D.; Roumagnac, P.

doi:10.5197/j.2044-0588.2017.035.026

New Disease Reports (2017) 35, 26. [http://dx.doi.org/10.5197/j.2044-0588.2017.035.026]

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First report of Maize yellow mosaic virus infecting maize in Burkina Faso

E. Palanga^1,2*, R.D.S. Longué¹, M. Koala¹, J.B. Néya¹, O. Traoré¹, D.P. Martin³, M. Peterschmitt², D. Filloux² and P. Roumagnac²

*patrick04pep@yahoo.fr

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Received: 19 Mar 2017; Published: 11 May 2017

Maize yellow mosaic virus (MaYMV) is a new polerovirus discovered recently in China in maize (Zea mays) displaying foliar yellowing and mosaic (Chen et al., 2016). Interestingly, a few months later, MaYMV was reported from Ecuador in maize (A. Bernreiter, pers. comm) and Nigeria in sugarcane and itch grass (Yahaya et al., 2017), suggesting that this new polerovirus is broadly distributed and is potentially emerging worldwide.

In August-September 2016, during a sampling survey carried out by the Agricultural Research Centre of Kamboinsé (ARCK, Burkina Faso), maize leaves showing yellow stripes, yellowing and yellow mosaic symptoms (Figs. 1-3) were collected from five fields surrounding ARCK, from which 15 to 20% of the plants appeared diseased. Leaves of fourteen diseased plants were tested by RT-PCR for the presence of poleroviruses using generic detection primers (PoleroNB3897F/PoleroNB4160R) as described by Palanga et al. (2016) and five MaYMV-specific detection primer pairs (vsi-F2/vsi-R2, vsi-F1/R1, MaYMV-F/MaYMV-R, F1/R1 and F1/vsi-R3) as described by Chen et al. (2016). Seven of the fourteen samples (MaYMV-BF6, MaYMV-BF7, MaYMV-BF8, MaYMV-BF9, MaYMV-BF11, MaYMV-BF14 and MaYMV-BF16) tested positive using all six primer pairs. Amplicons of 263 to 2700 bp generated using these six primer pairs were sequenced using the Sanger method (Genewiz, USA). The sequences were assembled, aligned and trimmed using DNA Baser V4 (Heracle BioSoft S.R.L., Romania) to give consensus sequences of 1763 nt. These sequences covered the open reading frames coding the coat protein (CP), the movement protein, the P3a protein and part of the RdRp. Pairwise identities between the consensus sequences obtained from the seven samples (GenBank Accession Nos. KY711382-KY711388) and polerovirus sequences from GenBank were determined using SDT v1.2 (Muhire et al., 2014). The seven consensus sequences from Burkina Faso shared 98-98.7% identity with the Chinese MaYMV isolates. Moreover, nucleotide identities between the Burkina Faso isolates were 99-100%. A neighbour-joining phylogenetic tree was inferred (MEGA6; Tamura et al., 2013) from the CP amino acid sequences of the seven Burkina Faso isolates, the MaYMV CP sequences from China and Ecuador and eight other representative polerovirus and luteovirus CP sequences (Fig. 4). Sequences from the Burkina Faso isolates clearly cluster with MaYMV CP sequences from China and Ecuador.

Altogether, these results support the conclusion that MaYMV is present in Burkina Faso, indicating a global distribution of this recently discovered virus including Africa, Asia and South America.

**Figure 1:** Yellow stripe symptoms of maize yellow mosaic disease on maize in Burkina Faso.

**Figure 2:** Yellowing symptoms of maize yellow mosaic disease on maize in Burkina Faso.

**Figure 3:** Yellow mosaic symptoms of maize yellow mosaic disease on maize in Burkina Faso.

**Figure 4:** Neighbour-joining phylogenetic tree inferred from aligned amino acid sequences of the CP regions Maize yellow mosaic virus (MaYMV) isolates from Burkina Faso (BF, indicated in red), China and Ecuador, and representative polerovirus (Barley virus G, BVG; Brassica yellows virus, BrYV; *Cereal yellow dwarf virus*, CYDV; *Cotton leafroll dwarf virus*, CLRDV; *Maize yellow dwarf virus*, MYDV; *Sugarcane yellow leaf virus*, SCYLV; Wheat yellow dwarf virus, WYDV) and luteovirus (*Barley yellow dwarf virus*, BYDV) isolates. Numbers associated with branches indicate percentage bootstrap support for these branches (determined with 1000 bootstrap replicates).

Acknowledgements

We acknowledge LMI Patho-Bios which facilitated the preliminary RT-PCR identification and CIRAD, Montpellier which supported the sequencing.

References

Chen S, Jiang G, Wu J, Liu Y, Qian Y, Zhou X, 2016. Characterization of a novel polerovirus infecting maize in China. Viruses 8, 1-17. [http://dx.doi.org/10.3390/v8050120]
Muhire BM, Varsani A, Martin DP, 2014. SDT: a virus classification tool based on pairwise sequence alignment and identity calculation. PLoS One 26, e108277. [http://dx.doi.org/10.1371/journal.pone.0108277]
Palanga E, Filloux D, Martin DP, Fernandez E, Gargani D, Ferdinand R, Zabré J, Bouda Z, Bouma Neya J, Sawadogo M, Traore O, Peterschmitt M, Roumagnac P, 2016. Metagenomic-based screening and molecular characterization of cowpea-infecting viruses in Burkina Faso. Plos One 11, e0165188. [http://dx.doi.org/10.1371/journal.pone.0165188 ]
Tamura K, Stecher G, Peterson D, Filipski A, Kumar S, 2013. MEGA6: Molecular Evolutionary Genetics Analysis version 6.0. Molecular Biology and Evolution 30, 2725-2729. [http://dx.doi.org/10.1093/molbev/mst197]
Yahaya A, Al Rwahnih M, Dangora DB, Gregg L, Alegbejo MD, Lava Kumar P, Alabi OJ, 2017. First report of Maize yellow mosaic virus infecting sugarcane (Saccharum spp.) and itch grass (Rottboellia cochinchinensis) in Nigeria. Plant Disease (in press). [http://dx.doi.org/10.1094/PDIS-03-17-0315-PDN]

To cite this report: Palanga E, Longué RDS, Koala M, Néya JB, Traoré O, Martin DP, Peterschmitt M, Filloux D, Roumagnac P, 2017. First report of Maize yellow mosaic virus infecting maize in Burkina Faso. New Disease Reports 35, 26. [http://dx.doi.org/10.5197/j.2044-0588.2017.035.026]