Characterization of peanut transgenic plants co-expressing <i>AtDREB2A</i>, <i>AtHB7</i> and <i>AtABF3</i> under normal growth conditions. Vittal Pruthvi Rama Narasimhan Karaba N. Nataraja 10.1371/journal.pone.0111152.g001 https://plos.figshare.com/articles/figure/_Characterization_of_peanut_transgenic_plants_co_expressing_AtDREB2A_AtHB7_and_AtABF3_under_normal_growth_conditions_/1260385 <p>Phenotype of wild-type and peanut transgenic lines (L1 & L7) co-expressing <i>AtDREB2A</i>, <i>AtHB7</i> and <i>AtABF3</i> (<b>a</b>). Net photosynthesis (A), stomatal conductance (gs) and <i>in-vivo</i> activity of PSII (Φ<sub>PSII</sub>) of wild type (WT) and transgenic lines (<b>b</b>). qRT-PCR showing the relative expression of <i>AtDREB2A</i> (2A), <i>AtHB7</i> (HB7) and <i>AtABF3</i> (ABF3) in selected transgenic (L1 & L7) lines (<b>c</b>). RT-PCR showing the expression pattern of target genes in transgenic lines, L1 and L7 (<b>d</b>).</p> 2014-12-04 03:13:37 Abiotic Stress Responsive Transcription Factors tmv AtABF 3 water use efficiency water conservation chlorophyll stability abiotic stresses AhSerine threonine kinase AhAldehyde reductase gene expression water mining oxidative stresses stress activates stress AtDREB 2A AtHB 7 stress acclimation proline synthesis Reactive oxygen species AhLea 4. plant growth drought tolerance Simultaneous Expression tf crop plants stress tolerance CT pathways Transgenic plants abiotic stress tolerance plant biomass