Results 111 to 120 of about 7,843 (159)

Carotenoid biosynthesis drives root plasticity through aerenchyma and iron plaque formation in rice. [PDF]

Nat Plants
Shrestha JK, Lin CY, Wang JY, Tang IC, Hu CH, Tsednee M, Zhang Y, Jamil M, Berqdar L, Blilou I, Al-Babili S, Wang CS, Yeh KC.   +12 more
europepmc   +1 more source

Root morphology and anatomy respond similarly to drought and flooding in two wheat cultivars. [PDF]

Ann Bot
Guhr T, Song Z, Andersen AG, de la Cruz Jiménez J, Pedersen O.   +4 more
europepmc   +1 more source

NnDREB2 regulated by NnWOX1-1 is involved in adventitious root formation in lotus root (Nelumbo nucifera Gaertn.). [PDF]

BMC Plant Biol
Cheng L, Xu Z, Liu Q, Wang L, Liu J, Li S.   +5 more
europepmc   +1 more source

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Adventitious Roots and Lateral Roots: Similarities and Differences

Annual Review of Plant Biology, 2014
In addition to its role in water and nutrient uptake, the root system is fundamentally important because it anchors a plant to its substrate. Although a wide variety of root systems exist across different species, all plants have a primary root (derived from an embryonic radicle) and different types of lateral roots.
Bellini, Catherine, Pacurar, Daniel I., Perrone, Irene   +2 more
openaire   +5 more sources

Adventitious Roots and Secondary Metabolism

Chinese Journal of Biotechnology, 2008
Plants are a rich source of valuable secondary metabolites and in the recent years plant cell, tissue and organ cultures have been developed as an important alternative sources for the production of these compounds. Adventitious roots have been successfully induced in many plant species and cultured for the production of high value secondary ...
Hosakatte Niranjana, Murthy, Eun Joo, Hahn, Kee Yoeup, Paek   +2 more
openaire   +2 more sources

Adventitious lateral rooting: the plasticity of root system architecture

Physiologia Plantarum, 2018
Root formation under natural conditions is plastic in response to multiple signals. Recent studies suggested that theWUSCHEL‐RELATED HOMEOBOX11(WOX11)‐mediated adventitious root formation pathway can occur in the primary root (PR) inArabidopsis thaliana, resulting in the production of a specific type of lateral roots (LRs) in response to wounding or ...
Yachao Ge, Xing Fang, Wu Liu, Lihong Sheng, Lin Xu   +4 more
openaire   +2 more sources

Sugar-induced adventitious roots in Arabidopsis seedlings

Journal of Plant Research, 2003
The effects of sugars on root growth and on development of adventitious roots were analyzed in Arabidopsis thaliana. Seeds were sown on agar plates containing 0.0-5.0% sugars and placed vertically in darkness (DD) or under long day (LD, 16 h:8 h) conditions, so that the seedlings were constantly attached to the agar medium.
Fumio, Takahashi, Kumi, Sato-Nara, Kazutaka, Kobayashi, Mitsuo, Suzuki, Hitoshi, Suzuki   +4 more
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Researching the controls of adventitious rooting

Physiologia Plantarum, 1992
Cloning is crucial in horticulture and forestry for commercial production of plants and in genetic improvement programs. However, inability to induce adventitious root formation (rooting) often limits cloning of woody plants by cuttage or tissue culture.
Bruce E. Haissig, Tim D. Davis, Don E. Riemenschneider   +2 more
openaire   +1 more source

A methane–cGMP module positively influences adventitious rooting

Plant Cell Reports, 2023
Endogenous cGMP operates downstream of CH4 control of adventitious rooting, following by the regulation in the expression of cell cycle regulatory and auxin signaling-related genes. Methane (CH4) is a natural product from plants and microorganisms. Although exogenously applied CH4 and cyclic guanosine monophosphate (cGMP) are separately confirmed to be
Lingshuai Kong, Yueqiao Wang, Min Li, Chenxu Cai, Longna Li, Ren Wang, Wenbiao Shen   +6 more
openaire   +2 more sources