Synergy neo hts multimode

Manufactured by Agilent Technologies

The Synergy NEO HTS MultiMode is a multi-mode microplate reader designed for high-throughput screening (HTS) applications. It is capable of various detection modes, including absorbance, fluorescence, and luminescence. The device is intended to provide researchers with a versatile instrument for a wide range of assay types and sample types.

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Synergy neo HTS multimode microplate reader Synergy NEO HTS Synergy Neo multimode NEO HTS Synergy HT Synergy Neo

3 protocols using synergy neo hts multimode

Cytotoxicity Evaluation of STM in Lung Cells

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Human lung cancer cells (A549 and NCI-H1650) and normal lung cells (NL-20) were incubated with the indicated concentrations of STM for 24 h in 96-well plates and cell viability was determined by MTT assay as described by us previously [16 (link)]. Drug treated cells were then incubated with 10 μL MTT reagent (5 mg/mL) at 37°C for 4 h. Subsequently, the medium was removed and 150 μL DMSO was added to dissolve farmazan crystals. The absorbance was measured at 570 nm (A₅₇₀) by a microplate reader (Synergy Neo HTS multimode microplate reader, BioTek) and the percentage of cell viability was calculated as follows:

\begin{matrix} C e l l v i a b i l i t y (%) = \frac{(A_{570} s a m p l e - A_{570} b l a n k)}{(A_{570} c o n t r o l - A_{570} b l a n k)} \\ \times 100 . \end{matrix}

Wu X., Zhu H., Yan J., Khan M, & Yu X. (2017). Santamarine Inhibits NF-κB Activation and Induces Mitochondrial Apoptosis in A549 Lung Adenocarcinoma Cells via Oxidative Stress. BioMed Research International, 2017, 4734127.

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Synchronizing Cyanobacterial Circadian Rhythms

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Cells grown as described above were transferred to M9 minimal medium with no carbon source for 1 hour to synchronize the population (29 (link)). Cells were back diluted to an OD₆₀₀ (optical density at 600 nm) of ~0.1 in either 500 ml (for KaiC phosphorylation analysis) or 200 μl of M9 minimal medium (for plate reader analysis) with 0.5% succinate and 1 mM leucine to promote slower growth and without induction to reduce population desynchronization. For analysis of KaiC phosphorylation, aliquots were taken at 4-hour intervals and lysed by incubation in 3% SDS for 10 min at 100°C and visualized on a Western blot as described above. Mean normalization was performed on each time course trace from the three biological replicates. The mean-normalized, average proportion of KaiC phosphorylation was plotted. For fluorescence time courses of the synthetic reporter, mineral oil was added to prevent evaporation. Readings were taken using a Synergy NEO HTS MultiMode microplate reader (BioTek) using appropriate filters. Fluorescence readings were normalized to OD₆₀₀, and background (OD₆₀₀ normalized fluorescence readings from a reporter-only strain AHC157) was subtracted. For both KaiC phosphorylation and synthetic reporter time courses, statistical analyses were performed with RAIN (7 (link)) using a periodicity of 24.8 hours over a 3-day time course.

Chen A.H., Lubkowicz D., Yeong V., Chang R.L, & Silver P.A. (2015). Transplantability of a circadian clock to a noncircadian organism. Science Advances, 1(5), e1500358.

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Synchronization and Analysis of Circadian Rhythms

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Cells grown as described above were transferred to M9 minimal medium with no carbon source for 1 hour to synchronize the population (29 (link)). Cells were back diluted to an OD₆₀₀(optical density at 600 nm) of ~0.1 in either 500 ml (for KaiC phosphorylation analysis) or 200 µl of M9 minimal medium (for plate reader analysis) with 0.5% succinate and 1 mM leucine to promote slower growth and without induction to reduce population desynchronization. For analysis of KaiC phosphorylation, aliquots were taken at 4-hour intervals and lysed by incubation in 3% SDS for 10 min at 100°C and visualized on a Western blot as described above. Mean normalization was performed on each time course trace from the three biological replicates. The mean-normalized, average proportion of KaiC phosphorylation was plotted. For fluorescence time courses of the synthetic reporter, mineral oil was added to prevent evaporation. Readings were taken using a Synergy NEO HTS MultiMode microplate reader (BioTek) using appropriate filters. Fluorescence readings were normalized to OD₆₀₀, and background (OD₆₀₀ normalized fluorescence readings from a reporter only strain AHC157) was subtracted. For both KaiC phosphorylation and synthetic reporter time courses, statistical analyses were performed with RAIN (7 (link)) using a periodicity of 24.8 hours over a 3-day time course.

Chen A.H., Lubkowicz D., Yeong V., Chang R.L, & Silver P.A. (2015). Transplantability of a circadian clock to a noncircadian organism. Science Advances, 1(5), e1500358.

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