Spatial distribution of transcript changes in the maize primary root elongation zone at low water potential

@article{Spollen2007SpatialDO,
  title={Spatial distribution of transcript changes in the maize primary root elongation zone at low water potential},
  author={William G. Spollen and Wenjing Tao and Babu Valliyodan and Kegui Chen and Lindsey G Hejlek and J W Kim and Mary E Lenoble and Jinming Zhu and Hans J. Bohnert and David C Henderson and Daniel P Schachtman and Georgia L. Davis and Gordon K. Springer and Robert E. Sharp and Henry T. Nguyen},
  journal={BMC Plant Biology},
  year={2007},
  volume={8},
  pages={32 - 32}
}
Previous work showed that the maize primary root adapts to low Ψw (-1.6 MPa) by maintaining longitudinal expansion in the apical 3 mm (region 1), whereas in the adjacent 4 mm (region 2) longitudinal expansion reaches a maximum in well-watered roots but is progressively inhibited at low Ψw. To identify mechanisms that determine these responses to low Ψw, transcript expression was profiled in these regions of water-stressed and well-watered roots. In addition, comparison between region 2 of water… CONTINUE READING
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