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Oligomers of carrageenan regulate functional activities and artemisinin production in Artemisia annua L. exposed to arsenic stress
Recently, a promising technique has come forward in field of radiation-agriculture in which the natural polysaccharides are modified into useful oligomers after depolymerization. Ionizing radiation technology is a simple, pioneering, eco-friendly, and single step degradation process which is used in...
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Published in: | Protoplasma 2020-05, Vol.257 (3), p.871-887 |
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Main Authors: | , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | Recently, a promising technique has come forward in field of radiation-agriculture in which the natural polysaccharides are modified into useful oligomers after depolymerization. Ionizing radiation technology is a simple, pioneering, eco-friendly, and single step degradation process which is used in exploiting the efficiency of the natural polysaccharides as plant growth promoters. Arsenic (As) is a noxious and toxic to growth and development of medicinal plants. Artemisinin is obtained from the leaves of
Artemisia annua
L., which is effective in the treatment of malaria. The present study was undertaken to find out possible role of oligomers of irradiated carrageenan (IC) on two varieties viz. ‘CIM-Arogya’ (As-tolerant) and ‘Jeevan Raksha’ (As-sensitive) of
A. annua
exposed to As. The treatments applied were 0 (control), 40 IC (40 mg L
−1
IC), 80 IC (80 mg L
−1
IC), 45 As (45 mg kg
−1
soil As), 40 IC + 45 As (40 mg L
−1
IC + 45 mg kg
−1
soil As), and 80 IC + 45 As (80 mg L
−1
IC + 45 mg kg
−1
soil As). The present study was based on various parameters namely plant fresh weight (FW), dry weight (DW), leaf area index (LAI), leaf yield (LY), chlorophyll and carotenoid content, net photosynthetic rate (
P
N
), stomatal conductance (
G
s
), carbonic anhydrase activity (CA), proline content (PRO), lipid peroxidation (TBARS), endogenous ROS production (H
2
O
2
content), catalase activity (CAT), peroxidase activity (POX), superoxide dismutase activity (SOD), ascorbate peroxidase activity (APX), As content, and artemisinin content in leaves. Plant growth and other physiological and biochemical parameters including enzymatic activities, photosynthetic activity, and its related pigments were negatively affected under As stress. Leaf-applied IC overcame oxidative stress generated due to As in plants by activating antioxidant machinery. Interestingly, leaf-applied IC enhanced the production (content and yield) of artemisinin under high As stress regardless of varieties. The oligomers of IC and As were found to be responsible for the production of endogenous H
2
O
2
which has a pivotal role in the biosynthesis of artemisinin in
A. annua
. |
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ISSN: | 0033-183X 1615-6102 |
DOI: | 10.1007/s00709-019-01475-y |