He–Ne laser accelerates seed germination by modulating growth hormones and reprogramming metabolism in brinjal

Swathy, Puthanvila Surendrababu; Kiran, Kodsara Ramachandra; Joshi, Manjunath B.; Mahato, Krishna Kishore; Muthusamy, Annamalai

doi:10.1038/s41598-021-86984-8

Cited by 14 publications

(4 citation statements)

References 69 publications

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“…wheat treated to UV-B light showed improved electron transport chain e ciency of the ability to biosynthesis photosynthetic pigments (Qiu et al, 2017 and Chen et al, 2014). Similar ndings suggested that laser exposure could affect the chlorophyll biosynthetic gene, which is primarily responsible for protochlorophyllide synthesis (Swathy et al, 2021;Shehata et al, 2023). Their investigation supported the ndings that laser activation of photosystems I and II in brinjal plants might enhance pigment production and improve photosynthetic rate.…”

Section: Discussionmentioning

confidence: 87%

Laser-Induced Changes in the gene expression, Growth and Development of Gladiolus grandiflorus cv. "White Prosperity"

Hassan,

Shaaban,

ziat

et al. 2023

Preprint

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Corms of Gladiolus grandiﬂorus cv. "White Prosperity" was irradiated via red laser at wavelength 635 nm. Various morphological, flowering, elemental and chemical characterizations were studied. Irradiation with different power (5, 20, and 50 mW) and various irradiation time (0.0, 0.5, 1, 3, 5 and 10 min.) was studied. Several characters), totaletermined include vegetative growth parameter (spouting days, plant height (cm), leaves number, leaves fresh and dry weights (g/plant), diameter of plant middle part (mm) and leaf area (cm2), ﬂoral parameters (ﬂowering days, vase life (day), fresh and dry weights of inflorescence (g/plant), number of flowers per inflorescence, inflorescence length(cm), flowers diameter(cm), number of corms per plant, corms fresh weight(g/plant), circumference/ corms), pigments [ total chlorophylls in leaves (SPAD), anthocyanin content (mg/100 g F.W.) in petals], NPK (%) in new corms and chemical composition in corms; total carbohydrates (%),total phenol (μg CE/g (%),total ﬂavonoid (μg CE/g) (%), antioxidant (DPPH IC50 (μg /ml (%), and proline content (μ moles /g). The results showed that the medium level (20 mW) of He-Ne laser at 5 min caused favorable changes in the leaf anatomical structures and other studied characters followed by the low level (5 mW) of He-Ne laser at 5min. 112 bands emerged from 22 SSR primers, ranging between 130–540 bp, with 32 bands having polymorphism ranging from 17-100 %. Out of the 22 SSR primers, 3 primers exhibited a high polymorphism percentage, i.e., SSR6, SSR16 and SSR22 which exhibited 7 positive markers. These ﬁndings revealed the eﬃciency of SSR primers for diﬀerentiating gladiolus plants and revealed that some alleles were aﬀected by laser in their corms and the expression resulted in color or abnormalities in leaves and /or ﬂowers. Mutation in some alleles could result in abnormalities like mutation in the allele with 410 bp revealed by SSR16.

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Section: Discussionmentioning

confidence: 87%

Laser-Induced Changes in the gene expression, Growth and Development of Gladiolus grandiflorus cv. "White Prosperity"

Hassan,

Shaaban,

ziat

et al. 2023

Preprint

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“…The metabolites separation was performed using a 250 mm × 4.6 mm C18 column (Phenomenex-Luna) with mobile phases consisting of solvent A (0.1% FA in Milli-Q water) and solvent B (0.1% FA in acetonitrile). The injection volume of 8 μl was used with a 0.5-ml min –1 flow rate and 70 min run time through positive ESI mode in triplicates through gradient method and with maintained ion range ( Kiran et al, 2021 ; Swathy et al, 2021 ). Metabolites were identified using the Plantcyc online database based on their m/z values, and each compound was represented by its molecular formula, retention time, and mass error (≤ ± 30 ppm).…”

Section: Methodsmentioning

confidence: 99%

Differential Gene Expression and Withanolides Biosynthesis During in vitro and ex vitro Growth of Withania somnifera (L.) Dunal

et al. 2022

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Ashwagandha (Withania somnifera L. Dunal) is a medicinally important plant with withanolides as its major bioactive compounds, abundant in the roots and leaves. We examined the influence of plant growth regulators (PGRs) on direct organogenesis, adventitious root development, withanolide biosynthetic pathway gene expression, withanolide contents, and metabolites during vegetative and reproductive growth phases under in vitro and ex vitro conditions. The highest shooting responses were observed with 6-benzylaminopurine (BAP) (2.0 mg L–1) + Kinetin (KIN) (1.5 mg L–1) supplementation. Furthermore, BAP (2.0 mg L–1) + KIN (1.5 mg L–1) + gibberellic acid (GA3) (0.5 mg L–1) exhibited better elongation responses with in vitro flowering. Half-strength MS medium with indole-3-butyric acid (IBA) (1.5 mg L–1) exhibited the highest rooting responses and IBA (1.0 mg L–1) with highest fruits, and overall biomass. Higher contents of withaferin A (WFA) [∼8.2 mg g–1 dry weight (DW)] were detected in the reproductive phase, whereas substantially lower WFA contents (∼1.10 mg g–1 DW) were detected in the vegetative phase. Cycloartenol synthase (CAS) (P = 0.0025), sterol methyltransferase (SMT) (P = 0.0059), and 1-deoxy-D-xylulose-5-phosphate reductase (DXR) (P = 0.0375) genes resulted in a significant fold change in expression during the reproductive phase. The liquid chromatography-mass spectrometry (LC-MS) analysis revealed metabolites that were common (177) and distinct in reproductive (218) and vegetative (167) phases. Adventitious roots cultured using varying concentrations of indole-3-acetic acid (IAA) (0.5 mg L–1) + IBA (1.0 mg L–1) + GA3 (0.2 mg L–1) exhibited the highest biomass, and IAA (0.5 mg L–1) + IBA (1.0 mg L–1) exhibited the highest withanolides content. Overall, our findings demonstrate the peculiarity of withanolide biosynthesis during distinct growth phases, which is relevant for the large-scale production of withanolides.

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“…The interaction mechanism between light and seed continues to be the subject of research (Zhao et al, 2022). Some authors attribute the effect of laser treatments on seeds to the fact that low-intensity red laser irradiation can signal phytochrome (Swathy et al, 2021). Phytochrome can regulate morphogenesis, comprising all light-dependent processes involved in plant growth and development (Balcerowicz et al, 2021;Hughes, 2013;Jiao et al, 2007;Quail, 2002;Van Buskirk et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

Impact of pre-sowing red laser irradiation of corn seeds on quality and quantity of harvest yield

2023

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As the population increases, more people need to be fed. In order to find a physical method that influence the corn production, this work is dedicated to evaluating the impact of pre-sowing red laser irradiation of corn (Zea mays L.) seeds on harvest yield. The aim was to analyze the influence of red laser radiation on corn seeds, on the quantity and quality of yield, on large-scale and open field production. It is hypothesized that at least one red laser irradiation treatment could improve corn crop yield. In radiation, a red laser diode at 660 nm with a power of 100 mW was used, two radiation densities were used (D1: 2 mW cm-2 and D2: 4 mW cm-2), applied during 4 exposure times (T1: 15, T2: 30, T3: 60 and T4: 120 s) and a control group without treatment (C). A random arrangement was used, in a 2 x 4 factorial scheme, totaling 8 treatments and control, with four replications. The data were subjected to an ANOVA and the means were compared with the Tukey test (HSD; p ≤ 0.05). The D2-T4 treatment produced the most significant impact concerning the control, improving yield by 19±1% (3 t ha-1), cob length 18±1%, cob diameter 22±3%, weight (16±2%) and corn kernels size (14±2%). We also find negative effects on yield, D2-T1 decreased crop yield around 16±1% (2.24 t ha-1). The results show a way to include this technique as a technique that can to increase or decrease corn yield. Keywords: Cob length; Maize; open field; Thousand kernel weight.

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He–Ne laser accelerates seed germination by modulating growth hormones and reprogramming metabolism in brinjal

Cited by 14 publications

References 69 publications

Laser-Induced Changes in the gene expression, Growth and Development of Gladiolus grandiflorus cv. "White Prosperity"

Laser-Induced Changes in the gene expression, Growth and Development of Gladiolus grandiflorus cv. "White Prosperity"

Differential Gene Expression and Withanolides Biosynthesis During in vitro and ex vitro Growth of Withania somnifera (L.) Dunal

Impact of pre-sowing red laser irradiation of corn seeds on quality and quantity of harvest yield

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