Effect of silver nanoparticles on tropane alkaloid production of transgenic hairy root cultures of Hyoscyamus muticus L. and their antimicrobial activity

Abdelkawy, Aisha M; Alshammari, Shifaa O.; Hussein, Hebat-Allah A.; Abdelkhalek, Eman S.; Radwan, Asmaa; Kenawy, Sahar K. M.; Maaty, Doaa A. M.; Abed, Nermine N.; sabry, shadia; Mohsen, A.

doi:10.1038/s41598-023-36198-x

Cited by 11 publications

(1 citation statement)

References 46 publications

(49 reference statements)

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“…A serine/threonine-protein kinase CTR1-like isoform X1, as the target of stu-miR477b-5p, was demonstrated to be involved in plant root auxin homeostasis [59]. Tropinone reductase-like 3 was identified as the candidate target gene of stu-MIR5303j-p5; it was demonstrated to play a key role in the aberrant cell-file rotation of the root differentiation zone [60]. An uncharacterized protein LOC102590046 isoform X1 was identified as the candidate target gene of PC-3p-230042_5; GO function analysis showed that this protein is involved in root development and cell wall repair.…”

Section: Discussionmentioning

confidence: 99%

Comparative Study of Small-RNA and Degradome Sequencing Reveals Role of Novel stu-miR8006 in Regulating Root Development in Solanum tuberosum L.

Duan,

Yang,

Zhang

et al. 2023

Agronomy

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MicroRNAs are a class of endogenous, non-coding, small-RNA molecules with important functions in plant development and stress response processes. Root systems are important because they allow plants to absorb nutrients and water from the soil and are fundamental for anchoring the plant and responding to environmental signals. However, the roles of miRNAs underlying root development remain poorly investigated in potato. In this research, small-RNA sequencing was performed to thoroughly detect underlying miRNAs and their roles in regulating root development between the early root (ER) stage and the mature root (MR) stage of potato roots. A total of 203 known and 137 novel miRNAs were obtained, and 64 differentially expressed miRNAs (DEMs) were identified between the ER and MR stages. The expression patterns of 12 DEMs were also determined via qRT-PCR. In addition, a mixed degradome library was constructed from the ER and the MR stages to identify the targets of the identified miRNAs, and 2400 target genes were verified to be the targets of 131 miRNAs. Based on target annotation, we identified that nine target genes of six DEMs were probably involved in potato root development, and eight targets of six DEMs were validated via 5’-RLM-RACE assays. These targets may participate in root development by regulating cell proliferation, root cultures (PGSC0003DMT400013837), root meristem growth (PGSC0003DMT400079970), root morphogenesis (PGSC0003DMT400040282), post-embryonic root development (PGSC0003DMT400021612), root hair elongation (PGSC0003DMT400034518), cell wall repair (PGSC0003DMT400074930), and auxin polar transport (PGSC0003DMT400079970), and by negatively regulating cell proliferation (PGSC0003DMT400009997) and cell growth (PGSC0003DMT400003464). The qRT-PCR analysis indicated that most miRNAs have opposing expression patterns to their targets. It is widely accepted that potato root development is regulated by miRNAs, among which stu-miR8006-p5-1ss9AT is substantially down-regulated during root development. We show here that the suppression of stu-miR8006-p5-1ss9AT led to an alteration in the potato root architecture and that it targeted auxin induction in the root culture protein 12-encoding gene that is potentially involved in the regulation of root development. In addition, the suppression of stu-miR8006-p5-1ss9AT led to a significant alteration in the potato root architecture. Altogether, our results might provide some useful insights into stu-miR8006-p5-1ss9AT and the crucial role that it plays in potato root development; they could also facilitate the molecular genetic breeding of potato.

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Section: Discussionmentioning

confidence: 99%