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Plant growth-promoting Nocardia JTT02 enhances Biomass, glucosinolate metabolism, and bioactive potential of three Lepidium sativum cultivars

by Khalaf, Maha H. , Mahmoud, Ahmed M. , Alfaifi, Yousef Salem , Sheteiwy, Mohamed S. , Ulhassan, Zaid , Aldailami, Danyah A. , Alsherif, Emad A. , Mohamed, Marwa Yousry A. , Sonbol, Hana , Korany, Shereen Magdy , El-Keblawy, Ali , Hassan, Abdelrahim H. A.

in Accumulation / Agriculture / Amino acids / Antibacterial activity / antibacterial properties / antioxidant activity / Antioxidants / auxins / Benzaldehyde / Bioactive compounds / Biofertilizers / biofortification / Biological activity / Biomass / Biomedical and Life Sciences / Botanical research / Cultivars / cyanides / Dietary fiber / Disease resistance / Diuretics / Endophytes / Endophytes - physiology / Ethylenediaminetetraacetic acid / Fatty acids / Flavonoids / Flowers & plants / Gibberellins / Glucose / Glucosinolates / Glucosinolates - metabolism / Growth / Growth (Plants) / Hydrolysis / Isoflavones / Kinases / Lepidium sativum / Lepidium sativum - growth & development / Lepidium sativum - metabolism / Lepidium sativum - microbiology / Life Sciences / Metabolism / Metabolites / Nocardia / Nocardia - physiology / Nutritive value / Omega-3 fatty acids / Organic acids / pathogens / Phenolic acids / phenolic compounds / Phenols / Phenylacetonitrile / Photosynthesis / Physiological aspects / Plant growth / Plant Growth Regulators - metabolism / Plant hormones / Plant metabolites / Plant Sciences / Precursors / Proteins / Ribulose-bisphosphate carboxylase / Seeds / Sustainable agriculture / Thiocyanates / thioglucosidase / traditional medicine / Tree Biology / Tribulus terrestris / Vitamins

2025

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Plant growth-promoting Nocardia JTT02 enhances Biomass, glucosinolate metabolism, and bioactive potential of three Lepidium sativum cultivars

2025

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Plant growth-promoting Nocardia JTT02 enhances Biomass, glucosinolate metabolism, and bioactive potential of three Lepidium sativum cultivars

2025

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Journal Article

Plant growth-promoting Nocardia JTT02 enhances Biomass, glucosinolate metabolism, and bioactive potential of three Lepidium sativum cultivars

Khalaf, Maha H.,

Mahmoud, Ahmed M.,

Alfaifi, Yousef Salem,

Sheteiwy, Mohamed S.,

Ulhassan, Zaid,

Aldailami, Danyah A.,

Alsherif, Emad A.,

Mohamed, Marwa Yousry A.,

Sonbol, Hana,

Korany, Shereen Magdy,

El-Keblawy, Ali,

Hassan, Abdelrahim H. A.

2025

Overview

Lepidium sativum (garden cress) is a nutritionally valuable plant rich in proteins, dietary fiber, omega-3 fatty acids, vitamins, and essential phytochemicals, and has a history of use in traditional medicine. This study investigated the potential of a novel endophytic actinobacterium, Nocardia JTT02, isolated from Tribulus terrestris (Jazan region, KSA) to enhance the biofortification of three L. sativum cultivars (Haraz, Rajab, and Khider). Nocardia JTT02, a potent plant growth-promoting (PGP) endophyte, significantly improved the biomass and photosynthetic activity (including Rubisco) in all cultivars. This enhancement is attributed to JTT02's production of phytohormones like auxin and gibberellin. Moreover, the improved photosynthesis by JTT02 treatment resulted in elevated levels of primary metabolites, including organic acids, fatty acid and essential amino acids, which serve as precursors for glucosinolates and phenolics. Correspondingly, individuals glucosinoaltes (e.g., glucotropaeolin, benzaldehyde, benzyl cyanide, and benzyl thiocyanate) and total glucosinolate content were elevated. This also correlated with the bacteria's ability to produce amino acids, which are precursors for glucosinolate metabolism. Along with these increases, overall myrosinase activity and concentrations of glucosinolate hydrolysis products also significantly increased. Furthermore, the accumulation of antioxidant metabolites, including phenolic acids and flavonoids, was enhanced by JTT02, leading to increased antioxidant capacity as determined by FRAP, ABTS, and DPPH assays. The JTT02 boosted the accumulation of bioactive metabolites also increased antibacterial activity against various pathogen. These results suggest that Nocardia JTT02 is promising as a biofertilizer for improving the growth, nutritional value, and disease resistance of L. sativum .

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Publisher

BioMed Central,BioMed Central Ltd,Springer Nature B.V,BMC

Subject

Accumulation

/ Agriculture

/ Amino acids

/ Antibacterial activity

/ antibacterial properties

/ antioxidant activity

/ Antioxidants