RESUMEN
Apple geminivirus 1 (AGV) in the genus Maldovirus of the family Geminiviridae was first identified infecting apple trees in the year 2015 in China. In this work, we characterized three isolates of the AGV in the Chinese pearleaf crabapple (Malus asiatica) in Inner Mongolia Autonomous Region. The viruses were detected by Illumina sequencing and its existence was confirmed by reverse transcription-polymerase chain reaction (RT-PCR) amplification of an AGV fragment. Between the three AGV isolates and the initially characterized AGV isolate PL2015, the nucleotide sequence identities of the complete genome ranged from 91.2 to 91.7%, of the coat protein gene (V1) ranged from 95.4% to 97.3%, and of the replicase gene (C1) ranged from 87.3% to 88.0%. Phylogenetic analysis indicated that the three isolates formed a monophyletic group together with the AGV, separated from the current genera in the family Geminiviridae. This is the first description of the AGV infecting crabapples.
RESUMEN
In higher plants, miR156 regulates the vegetative phase change via the target SBP/SPL genes. The regulation of miR156 during ontogenetic processes is not fully understood. In the apple genome, of 31 putative MdMIR156 genes that encode pre-miR156, seven were dominantly expressed. However, the transcript levels of only MdMIR156a5 and MdMIR156a12 decreased significantly during the vegetative phase change, which was consistent with the mature miR156 level, indicating that miR156 is under transcriptional regulation. Leaf H2O2 content was higher in the adult phase than in the juvenile phase because of excess H2O2 accumulation in chloroplasts. When in vitro shoots were treated with menadione, diphenyleneiodonium, L-2-oxothiazolidine-4-carboxylic acid or buthionine sulphoximine, the expressions of MdMIR156a5, MdMIR156a12, and as well miR156 were coordinated with reduced glutathione (GSH) contents and glutathione/glutathione disulfide ratio but not H2O2 contents. Alteration of miR156 expression level by MdMIR156a6-overexpressing or miR156-mimetic transgenic Nicotiana benthamiana did not cause a corresponding change in reactive oxygen species or GSH status. Collectively, the results indicate that the vegetative phase change in apple is controlled by the MdMIR156a5 and MdMIR156a12 transcriptional regulatory network in response to the plastid-nucleus redox signals, such as GSH.
