Development of marker-free transgenic lettuce resistant to Mirafiori lettuce big-vein virus

Lettuce big-vein disease caused by Mirafiori lettuce big - vein virus (MLBVV) is found in major lettuce production areas worldwide, but highly resistant cultivars have not yet been developed. To produce MLBVV-resistant marker-free transgenic lettuce that would have a transgene with a promoter and te...

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Bibliographic Details
Published in:Transgenic research 2016-10, Vol.25 (5), p.711-719
Main Authors: Kawazu, Yoichi, Fujiyama, Ryoi, Imanishi, Shunsuke, Fukuoka, Hiroyuki, Yamaguchi, Hirotaka, Matsumoto, Satoru
Format: Article
Language:English
Subjects:
Agrobacterium
Agrobacterium tumefaciens - genetics
Animal Genetics and Genomics
Biomedical and Life Sciences
Biomedical Engineering/Biotechnology
Disease Resistance - genetics
DNA, Bacterial - genetics
Genetic Engineering
Genetic Vectors
Lactuca - genetics
Lactuca - growth & development
Lactuca - virology
Life Sciences
Molecular Medicine
Original Paper
Plant Diseases - genetics
Plant Diseases - virology
Plant Genetics and Genomics
Plant Viruses - genetics
Plant Viruses - pathogenicity
Plants, Genetically Modified - genetics
Plants, Genetically Modified - growth & development
RNA Viruses - genetics
RNA Viruses - pathogenicity
Transformation, Genetic
Transgenics
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Summary:Lettuce big-vein disease caused by Mirafiori lettuce big - vein virus (MLBVV) is found in major lettuce production areas worldwide, but highly resistant cultivars have not yet been developed. To produce MLBVV-resistant marker-free transgenic lettuce that would have a transgene with a promoter and terminator of lettuce origin, we constructed a two T-DNA binary vector, in which the first T-DNA contained the selectable marker gene neomycin phosphotransferase II, and the second T-DNA contained the lettuce ubiquitin gene promoter and terminator and inverted repeats of the coat protein (CP) gene of MLBVV. This vector was introduced into lettuce cultivars ‘Watson’ and ‘Fuyuhikari’ by Agrobacterium tumefaciens -mediated transformation. Regenerated plants (T 0 generation) that were CP gene-positive by PCR analysis were self-pollinated, and 312 T 1 lines were analyzed for resistance to MLBVV. Virus-negative plants were checked for the CP gene and the marker gene, and nine lines were obtained which were marker-free and resistant to MLBVV. Southern blot analysis showed that three of the nine lines had two copies of the CP gene, whereas six lines had a single copy and were used for further analysis. Small interfering RNAs, which are indicative of RNA silencing, were detected in all six lines. MLBVV infection was inhibited in all six lines in resistance tests performed in a growth chamber and a greenhouse, resulting in a high degree of resistance to lettuce big-vein disease. Transgenic lettuce lines produced in this study could be used as resistant cultivars or parental lines for breeding.
ISSN:0962-8819
1573-9368
DOI:10.1007/s11248-016-9956-2