Genome-wide transcriptome analysis of soybean primary root under varying water-deficit conditions

[1] Stacey G(2004)National science foundation-sponsored workshop report. Draft plan for soybean genomics Plant Physiol 135 59-8

[2] Vodkin L(2007)Deficit irrigations during soybean reproductive stages and CROPGRO-soybean simulations under semi-arid climatic treatments Field Crop Res 103 154-undefined

[3] Parrott WA(2010)Complexity and coordination of root growth at low water potentials: recent advances from transcriptomic and proteomic analyses Plant Cell Environ 33 590-undefined

[4] Shoemaker RC(1994)Effects of pre-flowering moisture deficits on dry matter production and ecophysiological characteristics in soybean plants under drought treatments during grain filling Jpn J Crop Sci 63 721-undefined

[5] Dogan E(1987)Shoot growth rate of soybeans as affected by drought stress Agron J 79 598-undefined

[6] Kirnak H(2012)Transcript profiling during salt stress of young cotton (Gossypium hirsutum) seedlings via Solexa sequencing Acta Physiol Plant 34 107-undefined

[7] Copur O(2012)Transcriptome profiling of dehydration stress in the Chinese cabbage (Brassica rapa L. ssp. pekinensis) by tag sequencing Plant Mol Biol Rep 30 17-undefined

[8] Yamaguchi M(2012)Transcriptional responses to drought stress in root and leaf of chickpea seedling Mol Biol Rep 39 8147-undefined

[9] Sharp RE(2013)Genome expression profile analysis reveals important transcripts in maize roots responding to the stress of heavy metal Pb Physiol Plant 147 270-undefined

[10] Hirasawa T(2012)De novo sequencing and analysis of root transcriptome using 454 pyrosequencing to discover putative genes associated with drought tolerance in Ammopiptanthus mongolicus BMC Genomics 13 266-undefined

[1] Stacey G(2004)National science foundation-sponsored workshop report. Draft plan for soybean genomics Plant Physiol 135 59-8

[2] Vodkin L(2007)Deficit irrigations during soybean reproductive stages and CROPGRO-soybean simulations under semi-arid climatic treatments Field Crop Res 103 154-undefined

[3] Parrott WA(2010)Complexity and coordination of root growth at low water potentials: recent advances from transcriptomic and proteomic analyses Plant Cell Environ 33 590-undefined

[4] Shoemaker RC(1994)Effects of pre-flowering moisture deficits on dry matter production and ecophysiological characteristics in soybean plants under drought treatments during grain filling Jpn J Crop Sci 63 721-undefined

[5] Dogan E(1987)Shoot growth rate of soybeans as affected by drought stress Agron J 79 598-undefined

[6] Kirnak H(2012)Transcript profiling during salt stress of young cotton (Gossypium hirsutum) seedlings via Solexa sequencing Acta Physiol Plant 34 107-undefined

[7] Copur O(2012)Transcriptome profiling of dehydration stress in the Chinese cabbage (Brassica rapa L. ssp. pekinensis) by tag sequencing Plant Mol Biol Rep 30 17-undefined

[8] Yamaguchi M(2012)Transcriptional responses to drought stress in root and leaf of chickpea seedling Mol Biol Rep 39 8147-undefined

[9] Sharp RE(2013)Genome expression profile analysis reveals important transcripts in maize roots responding to the stress of heavy metal Pb Physiol Plant 147 270-undefined

[10] Hirasawa T(2012)De novo sequencing and analysis of root transcriptome using 454 pyrosequencing to discover putative genes associated with drought tolerance in Ammopiptanthus mongolicus BMC Genomics 13 266-undefined