Biotechnology and Bioengineering, Vol.118, No.8, 3105-3116, 2021
One vector-based method to verify predicted plant miRNAs, target sequences, and function modes
Many microRNAs (miRNAs) have been predicted from small RNA sequencing data, but little was experimentally verified due to the lack of effective methods. Here, we developed a simple and reliable dual gene expression cassette vector-based method to verify predicted plant miRNAs. We cloned osa-miR528 as a known miRNA, hvu-miRX as a predicted miRNA and TaDREB3 open reading frame as a non-miRNA into the first gene expression cassette and fused their complementary or noncomplementary sequences as predicted target or nontarget sequences with the 3MODIFIER LETTER PRIME untranslated region of green fluorescent protein (GFP) in the second one. When these constructs were bombarded into plant cells, only the construct containing both osa-miR528 or hvu-miRX and its complementary sequence did not generate green fluorescence. Stem-loop reverse-transcription polymerase chain reaction detected mature osa-miR528 or mature hvu-miRX in the cells, while northern analysis showed that GFP messenger RNA from the construct containing both osa-miR528 or hvu-miRX and its complementary sequence was degraded. Taken together, the results indicate that hvu-miRX is an authentic miRNA like osa-miR528, miRNA's complementary sequence is its target sequence, and both osa-miR528 and hvu-miRX silenced the GFP expression via a cleavage mode. Our method thus facilitates the verification of predicted plant miRNAs, target sequences, and function modes.
Keywords:bombardment;cleavage mode;dual gene expression cassette vector;fluorescence;green fluorescent protein;miRNA;target sequence