Biogenic carbon quantum dots from marine endophytic fungi (Aspergillus flavus) to enhance the curcumin production and growth in Curcuma longa L.

In this study, we have investigated the effect of carbon quantum dots (FM-CQDs) synthesized from marine fungal extract on Curcuma longa to improve the plant growth and curcumin production. The isolated fungus, Aspergillus flavus has produced a high amount of indole-3-acetic acid (IAA) (0.025 mg g-1), when treated with tryptophan. CQDs were synthesized from the A. flavus extract and it was characterized using ultraviolet visible spectrophotometer (UV-Vis) and high-resolution transmission electron microscopy (HR-TEM). The synthesized CQDs were excited at 365 nm in an UV-Vis and the HR-TEM analysis showed approximately 7.4 nm in size with a spherical shape. Both fungal crude extract (FCE) at 0-100 mg L-1 and FM-CQDs 0-5 mg L-1 concentrations were tested on C. longa. About 80 mg L-1 concentration FCE treated plants has shown a maximum height of 21 cm and FM-CQDs at 4 mg L-1 exhibited a maximum height of 25 cm compared to control. The FM-CQDs significantly increased the photosynthetic pigments such as total chlorophyll (1.08 mg g-1 FW) and carotenoids (17.32 mg g-1 FW) in C. longa. Further, antioxidant enzyme analysis confirmed that the optimum concentrations of both extracts did not have any toxic effects on the plants. FM-CQDs treated plants increased the curcumin content up to 0.060 mg g-1 by HPLC analysis. Semi quantitative analysis revealed that FCE and FM-CQDs significantly upregulated ClCURS1 gene expression in curcumin production.

Incidence of microplastics in Indian anchovy Stolephorus indicus from Tuticorin, Southeast coast of India.

In the present study, the occurrence of microplastics (MPs) in the gut, gill, and muscle of edible fish Stolephorus indicus sampled from Tuticorin coastal regions of Tamilnadu, India was investigated. We recorded a total of 689 MPs which includes 510 and 179 MPs from males and females respectively. The total abundance of MPs was significantly (P < 0.05) higher in the gut followed by gills and muscle. The sex-wise distribution of average MPs showed high in the females' gut and compared to that in males. Further, the length wise distribution of MPs was higher in the muscle in both male and female fish, followed by other organs. The predominance of MPs in tissues were transparent and blue colour with fibers and fragments in both males and females. Besides, polyethylene terephthalate and nylon were evidenced by the Fourier-transform infrared spectroscopy spectrum in all organs of fishes.

A simple and efficient genetic transformation system for soybean (Glycine max (L.) Merrill) targeting apical meristem of modified half-seed explant.

The present study is an attempt to establish a fast, highly reproducible transformation with a simplified regeneration system in soybean targeting the apical meristem. The modified half-seed explants from soybean cultivar (cv.) JS335 were subjected to different time intervals of sonication (0, 1, 10, 20, and 30 min) and vacuum infiltration (0, 1, 10, 20, and 30 min) in the presence of Agrobacterium tumefaciens strain EHA105 harbouring pCAMBIA1301. The explants were then co-cultivated and subjected to a modified plant regeneration process that involves only two steps (1) primary shoot regeneration, and (2) in vitro rooting of primary shoot. The rooted plantlets were hardened and maintained in the greenhouse until maturity. Sonication treatment of 10 min, followed by plant regeneration using a modified method, recorded the highest transformation efficiency of 26.3% compared to other time duration tested. Furthermore, 10 min of vacuum infiltration alone resulted in even higher transformation efficiency after regeneration, reaching 28.0%. Interestingly, coupling sonication and vacuum infiltration for 10 min respectively produced the highest transformation efficiency after regeneration of 38.0%. The putative transformants showed gus expression in mature leaves, trifoliate leaves, flowers, and pods. The presence of hpt II was also confirmed in putative transformants, with an amplicon size of 500 bp. Quantitative real-time PCR confirmed the existence of hpt II as one to two copies in the soybean genome of T0 plants. Furthermore, the segregation pattern was observed in the T1 generation soybean plants which were confirmed using PCR for hpt II. The optimized protocol when tested with other Indian soybean cultivars showed an enhanced transformation efficiency ranging from 19.3% (cv. MAUS47) to 36.5% (cv. CO1). This optimized protocol could provide a reliable platform to overcome the challenges that are associated with the genetic engineering of soybean. Supplementary Information: The online version contains supplementary material available at 10.1007/s13205-023-03715-8.