2.1 Plant materials and growth conditions
In this study, wild type Arabidopsis thaliana ecotype Columbia-0 (Col-0) was used to overexpress the citrus UDP-GLUCOSYL TRANSFERASE (Cs5g24820) gene. The wild type (WT) Arabidopsis seeds were sterilized with 70% (v/v) ethanol for 10 min followed by ethanol 100% (v) for 8 min, and then the seed were washed 4 times with double deionized water. Then the seeds were pour out on the Murashige and Skoog (MS) medium petri dishes plate containing 4.43g MS (dried basal medium with vitamins supplement phyto-technology laboratories); 25g sucrose; 10g agar for one liter 1% (w/v) and petri plates were left in the growth chamber having 20-22 °C and then after ten days the plants were transferred into the small pots (soil). Then the plants were grown in growth chamber for 3 weeks having an irradiance of 120 micromoles quanta m-2 per sec, with 70% relative humidity and temperature about 22 ± 3 °C, under 16/8 hours light and dark period.
2.2 Vector construction and Agrobacterium transformation
The T-DNA Gateway technology (Invitrogen) pK7WG2D vector, was constructed (to overexpress the flavonol transferase gene of Citrus in Arabidopsis), which contains green fluorescent protein (GFP) and also confers kanamycin resistance (that helps for plant visual or manual selection) due to neomycin phosphotransferase II (nptII) gene [56]. By using cDNA, coding region of Cs-UGT78D3 was amplified by means of PCR using gene specific primers, then the plasmid was extracted and first cloned into pDONR221 and then intervened by L.R clonase enzymatic reactions (invitrogen) (as prescribed by manufactures instructions) and cloned into binary Gateway Vector pK7WG2D. After that the pK7WG2D was transferred into GV3101 (Agrobacterium strain) and then transformed into the Arabidopsis, by dipping the wild type Arabidopsis flowers in Agrobacterium solution via floral dip method [57].
2.3 Transgenic lines and light stress conditions
The transgenic Arabidopsis lines were developed via Agrobacterium-mediated transformation. The wild type (WT), transgenic Arabidopsis line 35S:PK7WG2D (empty vector), and three independent overexpressed 35S:PK7WG2D-UGT78D3 lines (OX-1, OX-5, OX-7) have been prepared by cross checking and selfing to get T4 stage transgenic plants for 14 days of light stress experiment. In each stage, the Arabidopsis seeds were first sown on MS medium having Kanamycin (50 mg/L) to get positive plants and later it was confirmed by qRT-PCR expression analysis. So, for light stress experiment, the 25 days old wild type, empty vector and transgenic plants were used and subjected to high light stress for 14 days in a growth camber with following conditions (Figure 6A, C); 50,000 Lux light stress having 16 hours light and 8 hours dark, with 70% relative humidity and temperature about 24 ± 2 °C. On day 1 and after 14 days of HLS, the leaves samples were collected and immediately frozen by means of liquid nitrogen and preserved at -80°C for biochemical, metabolic and gene expression analysis.
2.4 DNA extraction and PCR analysis
DNA was extracted by 2% CTAB method [58, 59]. 50-100 milligram (mg) fresh Arabidopsis leaves were crushed into fine powder and followed by addition of 700 microliter of DNA buffer than 90 min incubation at 65 °C. After that 800 microliter of chloroform-isoamyl alcohol (24:1) was added and then after 10 min of gentle inversions, centrifuged at 10,000 rpm for 10 min and DNA pellet was taken [59]. PCR was performed by using PCR-Master mix (dream tag green-Thermo Scientific) according to manufactures instructions.
2.5 RNA extraction and quantitative real time PCR analysis
Fresh leaves were immediately frozen into liquid nitrogen after harvesting and then used for RNA extraction by using TRIzol RNA (extraction kit) reagent (Takara). RNA was extracted as described by manufacture’s instruction on TRIzol kit. After total RNA extraction, the complementary DNA (cDNA) was synthesized by using 1 μg of total RNA by means of (Vazyme, R223-01) HiScript II QRT (reverse transcriptase) SuperMix for qPCR (+gDNA wiper) methodology. After cDNA synthesis all the cDNA samples were stored at -80 °C for further expression analysis (qPCR). For qRT-PCR was conducted by using SYBR Green (YEASEN Biotec. Co.Ltd.) PCR Master mix and all standard procedure were adopted as described by producer's instructions. The qRT-PCR was done with three technical replicates (light cycler 480 multi-well plate 384-white) and performed by means of light cycler 480 II instrument (Roche). Relative expressions of pathway genes were calculated by means of 2−ΔΔCt methodology [60]. Arabidopsis β-actin gene was used as an internal reference gene. The qRT-PCR primers details are documented in additional file 3.
2.6 Vanillin Assay for proanthocyanidins determination
For vanillin assay, wild type and over-expressed seeds were taken in 1.5 milliliter of centrifuge tube followed by addition of I milliliter dye solution 1% vanillin (w/v) in 6 M of hydrochloric acid (HCl) [39]. About one layer of seeds has been taken to cover the bottom of 1.5 milliliter tube. Incubate the mature seeds for one hour at room temperature. After incubation, the seeds coats were gently separated with dissecting needle and tweezers on glass-slide by using stereomicroscope (OLYMPUS, SZ61 model). Then the light microscope (OLYMPUS, BX61 model) was used to photograph the stained seeds coats [61].
2.7 Determination of proanthocyanidins contents (PAC)
Proanthocyanidins concentration was estimated by grinding 20 milligram of Arabidopsis seeds with liquid nitrogen followed by adding 1 milliliter of extraction buffer (acetone 70%: water 29.5%: acetic acid 0.5%) with slightly modifications [62]. Then the samples were centrifuges at 4000 rpm and supernatant was taken for proanthocyanidins quantification. The reaction mixture contained 200 microliter of above prepared solution followed by addition of 3 milliliter of 0.5% (w/v) vanillin dissolved in methanol and 1.5 milliliter of 4% (v/v) HCl. Then after 15 min the absorbance was taken at 550 nm on spectrophotometer (model UV-1800, Shimadzu corporation, Japan) whereas pure methanol was used as blank. The standard curve was generated by using catechin and the PAC value was expressed in milligrams of catechin equivalents (mg CE/gram of sample).
2.8 Determination of chlorophyll content
For chlorophyll ‘a’ and ‘b’ estimation, the Arabidopsis leaves tissues (500mg) were grounded into fine powder by using 10 milliliter (mL) of 80% (v/v) acetone [63], followed by 4 hours of incubation at room temperature (RT) in dark. After that the sample tubes were centrifuged for 5 min at 12,000 rpm, and the supernatant was collected into a new tube then its absorbance was measured at 645 nm and 663 nm on spectrophotometer (80% (v/v) acetone was used as blank). Chlorophyll content was expressed in milligram per liter and calculated by using following formula:
Chlorophyll a = OD663 × 12.7 − OD645 × 2.69 (mg/L),
Chlorophyll b = OD645 × 22.9 − OD663 × 4.68 (mg/L).
2.9 Determination of total contents of phenolics and flavonoids
2.9.1 Extraction
100mg of leaves tissues were crushed into powdered by using pestle and mortar followed by addition of 5 mL of 80% methanol and samples were left for 2 hours at RT on an orbital shaker at 200 rpm followed by centrifugation [64]. The supernatant mixture was collected into a new tube while the remaining pellet was again extracted with the same procedure (with similar conditions) as described earlier and both supernatants were combined in 15mL tube, and then used for estimation of total phenolics and total flavonoid contents.
2.9.2 Total phenolics contents (TPC)
Folin–Ciocalteu reagent (FCR) based methodology was used for determination of total phenolics content [64]. 300 microliters of above prepared extract was taken in a fresh 10 mL tube and mixed with (10-fold diluted FCR with distilled water) 2.25 mL of FCR followed by 5-10 gentle inversions and 5 min incubation at RT. Then I added 2.25 mL of sodium carbonate (Na₂CO₃) (60 g/L) solution into the reaction mixture. Then after 2 hours of incubation at RT the absorbance was taken at 725 nm by means of spectrophotometer (model UV-1800, Shimadzu corporation, Japan). Standard curve was generated by using gallic acid (GA) and results were defined as milligram of GA-equivalents (GAE) per one gram of dried weight of plant leaves (mg GAE/g).
2.9.3 Determination of total flavonoid content (TFC)
Total flavonoid content was measured by means of colorimetric method with minor modification [65]. About 500 microliter of the prepared methanolic extract was taken into 10 mL new tube followed by addition of 2.25 mL of distilled water and mix well then added 150 microliter of 5% sodium nitrite (NaNO2) solution followed by 6 min incubation at RT. After that 300 microliter solution of 10% aluminum chloride hexahydrate (AlCl3·6H20) was added into the reaction mixture with 5 min of incubation at RT and then 1000 microliter of one Molar (M) sodium hydroxide (NaOH) was added followed by vertex for 30 seconds. The reaction mixture absorbance was taken instantly at 510 nm by means of spectrophotometer (model UV-1800, Shimadzu corporation, Japan). Standard curve was generated by using rutin compound and results were defined as milligram rutin equivalents (RE) per one gram of dried plant leaves sample (mg RE/g).
2.10. Total Anthocyanin contents (TAC)
For determination of total anthocyanin content 100 mg of leaves tissues were grounded (using liquid nitrogen) by means of mortar and pestle [66, 67]. After that the samples were re-suspended in five volumes (based on fresh weight) of extraction solution (having 45% methanol (v/v) and 5% acetic acid v/v) followed by gentle inversion and then centrifuged at (10,000 rpm) for 10 min at RT. The supernatant solution was collected into a new tube to check the absorbance at 530 nm and 657 nm by anthocyanin measurement and chlorophylls respectively thru spectrophotometer (model UV-1800, Shimadzu corporation, Japan). Then by using the following formula the anthocyanin contents were measured by correction in the 530 nm absorbance by chlorophylls:
TAC (mg/ 100g of dried weight)= (absorbance at 530 nm - (0.25 × absorbance at 657 nm) × extraction volume (mL) × 1 /weight of leave tissue sample (g).
*For anthocyanin we used 5 times extraction volume and 0.1 gram leave tissue sample.
2.11. Antioxidant capacity and activity (DPPH free radical scavenging assay)
For antioxidant capacity and activity fresh Arabidopsis leaves were ground (100 mg) and homogenized in 1 mL of extraction solution (ethanol, water, and acetic acid, 70%, 29%, and 1% respectively) and then centrifuged [68] with slight modifications. The supernatant was used to calculate antioxidant capacity by using the 30 microliter of above prepared solution followed by addition of 2.97 mL of 0.1-mM 2,2-diphenyl-1-picrylhydrazyl (DPPH) followed by 30 min incubation in dark (in RT). Then the sample absorbance was taken at 517 nm by means of spectrophotometer (model UV-1800, Shimadzu corporation, Japan). 30 microliter of extraction solution (without plant sample) in 2.97 mL of DPPH is used as control. The antioxidant capacity was calculated by generating standard curve of trolox and samples were expressed in (mM Trolox/ 100 mg). While the antioxidant (free radical scavenging) activity is described by using the following formula:
Antioxidant activity (%) = [1−{ sample OD/control OD}] × 100.
2.12 Hydrogen peroxide (H2O2)
Hydrogen peroxide was measured by using trichloro-acetic acid (TCA) method [69]. Ground leaves samples (0.1 g) were re-suspended in 1000 microliter of TCA (0.1%) solution in an ice bath and then centrifuged for 10 min at 10,000 rpm. the 500 microliter of supernatant was taken into a new tube and added 500 microliter of 10-mM potassium phosphate buffer followed by addition of 1000 microliter of 1 M potassium iodide (KI) then mix well and checked the absorbance reading at 390 nm by means of spectrophotometer (model UV-1800, Shimadzu corporation, Japan). The sample absorbance was calculated by comparing the standard curve absorbance of commercial H2O2. The H2O2 contents were expressed in micromoles/g of dried samples.
2.13 Superoxide radical’s determination:
The superoxide radicals (O2-) were measured in 0.1 g of fresh leaves tissues [70]. The one unit of superoxide radical was defined as 0.1 units change in absorbance, per min at the corresponding wavelength values. The standard curve was generated by using nitrite ion (NO2-). The absorbance was measured at 530 nm on spectrophotometer (model UV-1800, Shimadzu corporation, Japan).
2.14 Statistical analysis
The Statistix 8.1 (Tallahassee Florida, USA) statistical package was used to analyze the data. The standard error and graphs were made by using Microsoft Excel 2010 program (Microsoft Corp., Redmond, WA, USA). Differences were considered significant at p < 0.05 and highly significant at p < 0.01.