Tardiani, A. C, Perecin, D., Peixoto-Junior, R. R, Sanguino, A., Landell, M. M. G., Beriam, L. O., Nunes, D. S., Camargo, L. E. A., and Creste S 2014. Molecular and pathogenic diversity among Brazilian isolates oí Xanthomonas albilineans assessed with SSR marker loci. Plant Dis 98-540-546.
Drought is the most significant environmental stress for agricultural production worldwide, and tremendous efforts have been made to improve crop yield under the increasing water scarcity. Transcription factors are major players in the regulation of water stress-related genes in plants. Recently, different MYB transcription factors were characterized for their involvement in drought response. A sugarcane R2R3-MYB gene (ScMYBAS1) and its four alternative forms of transcript (ScMYAS1-2, ScMYBAS1-3, ScMYBAS1-4 and ScMYBAS1-5) were identified in this study. The subcellular localization, in Nicotiniana benthamiana, of the TFs fused in frame with GFP revealed that ScMYBAS1-2-GFP and ScMYBAS1-3-GFP were observed in the nucleus. The overexpression of ScMYBAS1-2 and ScMYBAS1-3 spliced transcripts in rice promoted change in plant growth under both well-watered and drought conditions. The ScMYBAS1-2 and ScMYBAS1-3 transgenic lines revealed a higher relative water content (RWC) compared to the wild type before maximum stress under drought conditions. The ScMYBAS1-2 transgenic lines showed a reduction in biomass (total dry weight). Conversely, ScMYBAS1-3 showed an increased biomass (total dry weight) relative to the wild-type. The overexpression of ScMYBAS1-3 in rice transgenic lines showed involvement with drought tolerance and biomass and, for this reason, was considered a good target for plant transformation, particularly for use in developing genotypes with drought tolerance and biomass accumulation.
A sugarcane gene encoding a
dirigent-jacalin
,
ShDJ
, was induced under drought stress. To elucidate its biological function, we integrated a
ShDJ
-overexpression construction into the rice Nipponbare genome via
Agrobacterium
-mediated transformation. Two transgenic lines with a single copy gene in T
0
were selected and evaluated in both the T
1
and T
4
generations. Transgenic lines had drastically improved survival rate under water deficit conditions, at rates close to 100%, while WT did not survive. Besides, transgenic lines had improved biomass production and higher tillering under water deficit conditions compared with WT plants. Reduced pectin and hemicellulose contents were observed in transgenic lines compared with wild-type plants under both well-watered and water deficit conditions, whereas cellulose content was unchanged in line #17 and reduced in line #29 under conditions of low water availability. Changes in lignin content under water deficit were only observed in line #17. However, improvements in saccharification were found in both transgenic lines along with changes in the expression of
OsNTS1/2
and
OsMYB58/63
secondary cell wall biosynthesis genes.
ShDJ
-overexpression up-regulated the expression of the
OsbZIP23
,
OsGRAS23
,
OsP5CS
, and
OsLea3
genes in rice stems under well-watered conditions. Taken together, our data suggest that
ShDJ
has the potential for improving drought tolerance, plant biomass accumulation, and saccharification efficiency.
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