lotus root
Selected indexed studies
- ChIFNα regulates adventitious root development in Lotus japonicus via an auxin-mediated pathway. (Plant Signal Behav, 2023) [PMID:37288791]
- LAZY3 plays a pivotal role in positive root gravitropism in Lotus japonicus. (J Exp Bot, 2020) [PMID:31559427]
- Cost-effective and natural-inspired lotus root/GelMA scaffolds enhanced wound healing via ROS scavenging, angiogenesis and reepithelialization. (Int J Biol Macromol, 2024) [PMID:39128742]
_Worker-drafted node — pending editorial review._
Connections
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Sources
- ChIFNα regulates adventitious root development in Lotus japonicus via an auxin-mediated pathway. (2023) pubmed
- LAZY3 plays a pivotal role in positive root gravitropism in Lotus japonicus. (2020) pubmed
- Cost-effective and natural-inspired lotus root/GelMA scaffolds enhanced wound healing via ROS scavenging, angiogenesis and reepithelialization. (2024) pubmed
- Control of root nodule formation ensures sufficient shoot water availability in Lotus japonicus. (2024) pubmed
- Structural characterization and immunoregulatory mechanism of a low-molecular-weight polysaccharide from lotus root. (2024) pubmed
- 3D printing performance of whole lotus root powder and lotus root starch. (2025) pubmed
- Lutein-loaded lotus root starch nanoparticles: Preparation, release, and in vitro anti-inflammatory activity. (2025) pubmed
- Intragenic complementation at the Lotus japonicus CELLULOSE SYNTHASE-LIKE D1 locus rescues root hair defects. (2021) pubmed
- A shared gene drives lateral root development and root nodule symbiosis pathways in Lotus. (2019) pubmed
- Case of anaphylaxis due to lotus root. (2020) pubmed