Casparian Strips in Needles are More Solute Permeable than Endodermal Transport Barriers in Roots of Pinus bungeana
スポンサーリンク
概要
著者
-
Schreiber Lukas
Department Of Ecophysiology Institute Of Cellular And Molecular Botany University Of Bonn
-
Schreiber Lukas
Department Of Ecophysiology Izmb University Of Bonn
-
Wu Xiaoqin
Key Laboratory Of Photosynthesis And Environmental Molecular Physiology Institute Of Botany Chinese
-
Wu Xiaoqin
Key Laboratory Of Photosynthesis And Molecular Environmental Physiology Institute Of Botany Chinese
-
Lin Jinxing
Key Laboratory Of Photosynthesis And Environmental Molecular Physiology Institute Of Botany Chinese
-
Lin Jinxing
Key Laboratory Of Photosynthesis And Molecular Environmental Physiology Institute Of Botany Chinese
-
LIN Qingqing
Key Laboratory of Photosynthesis and Molecular Environmental Physiology, Institute of Botany, Chines
-
WANG Jian
Key Laboratory of Photosynthesis and Molecular Environmental Physiology, Institute of Botany, Chines
-
Lin Qingqing
Key Laboratory Of Photosynthesis And Molecular Environmental Physiology Institute Of Botany Chinese
-
Wang Jian
Key Laboratory Of Photosynthesis And Molecular Environmental Physiology Institute Of Botany Chinese
関連論文
- Effects of Altered Gravity Conditions on Lignin and Secondary Wall Formation in Herbaceous Dicots and Woody Plants
- Effects of hypergravity conditions on elongation growth and lignin formation in the inflorescence stem of Arabidopsis thaliana
- Effects of hypergravity environment on lignin formation in Arabidopsis
- Disruption of Actin Filaments by Latrunculin B Affects Cell Wall Construction in Picea meyeri Pollen Tube by Disturbing Vesicle Trafficking
- Casparian Strips in Needles are More Solute Permeable than Endodermal Transport Barriers in Roots of Pinus bungeana