Er 4102st cavity

Manufactured by Bruker

Sourced in Italy

The ER 4102ST cavity is a key component of Bruker's electron paramagnetic resonance (EPR) spectrometer systems. It is designed to provide a controlled and stable environment for samples during EPR measurements. The ER 4102ST cavity ensures accurate and reliable data collection by maintaining the appropriate electromagnetic field within the measurement area.

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Lab products found in correlation

Cellstar tissue culture plate, by Greiner (1 mentions) Emx spectrometer, by Bruker (1 mentions) Arx 400, by Bruker (1 mentions) Emx 6 1 spectrometer, by Bruker (1 mentions) Avance 3 400, by Bruker (1 mentions)

3 protocols using er 4102st cavity

Antioxidant Evaluation in Cell Cultures

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In a 12-well plate (Cellstar^® tissue culture plate, Greiner Bio-One, Cassina de’ Pecchi, Italy), 4 × 10⁵ cells/well were seeded and left to incubate for 24 h. The medium was aspirated and the antioxidant samples were introduced, consisting of either 1 mL of α-tocopherol in a CSO sample [29 (link)] at the final α-tocopherol concentration of 10 µM or 1 mL of CS-CO 100 diluted to 1:20 (v/v) with the medium. Both the samples were left in contact with the cells for 3 h. A negative control consisting of untreated cells (100% damage) was also evaluated. The samples were removed and the damage was induced with 1 mM H₂O₂ for 1 h. Each well was washed with 1 mL of PBS and then 1 mL of an 18 mg/mL α-phenyl-N-tert-butyl-nitrone (PBN) spin trap solution was added and left for 30 min. The PBN solution was removed, a further washing of the wells was carried out, and the cells were subject to trypsinization to detach them from the bottom of the plate. After centrifugation, the supernatant was eliminated and for each analysis, the pellet obtained by joining two wells was used, taken up with 200 µL of Hank’s balanced salt solution (HBSS). The analysis was conducted with an EPR spectrometer (BRUKER EMX/12 with an ER4102ST cavity and a window for UV/Vis radiation, Bruker, Milan, Italy).

Perteghella S., Garzoni A., Invernizzi A., Sorrenti M., Boselli C., Icaro Cornaglia A., Dondi D., Lazzaroni S., Marrubini G., Caramella C., Catenacci L, & Bonferoni M.C. (2023). Nanoemulsions of Clove Oil Stabilized with Chitosan Oleate—Antioxidant and Wound-Healing Activity. Antioxidants, 12(2), 273.

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EPR Characterization of Protein Fibrils

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EPR measurements were performed at X-band frequency on a Bruker EMX spectrometer equipped with the ER 4102ST cavity. Approximately 20 μL of fibril sample was loaded into glass capillaries (VitroCom) sealed at one end. A modulation frequency of 100 kHz was used. Measurements were performed at 20 mW microwave power at room temperature. Conversion time was set at 10.24 ms and time constant was set at 81.92 ms for typical single-line EPR spectra. The sweep time for each scan was ~20 s. Modulation amplitude was optimized to individual spectrum (typically ~4 G). We varied the number of scans based on the signal to noise ratio of the EPR spectrum. Typically 10 to 30 scans were performed to obtain each EPR spectrum. EPR spectra in each figure panel were normalized to the same number of spins.

Gu L., Tran J., Jiang L, & Guo Z. (2016). A new structural model of Alzheimer's Aβ42 fibrils based on electron paramagnetic resonance data and Rosetta modeling. Journal of structural biology, 194(1), 61-67.

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Spectroscopic Characterization of Organic Compounds

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All reagents and solvents were acquired commercially and usually used without further purification. The solvents used during the reactions were dried and distilled using typical methods. Analytical TLC was performed on Merck Kieselgel GF 254, 0.2 mm plates supported on aluminium with the described eluent for each case.
NMR spectra were acquired with Bruker ARX 400 or Bruker Avance III 400 spectrometers at NOVA School of Science and Technology. ¹H NMR and ¹³C NMR spectra were measured at 400 and 101 MHz, respectively. The samples were prepared in 5 or 3 mm NMR tubes using CDCl₃ or DMSO‐d₆ and the corresponding trace as reference signals. The NMR signals are described with chemical shift (δ, in ppm), source of signal (R−H) and relative intensity of signal multiplicity (nH, with n being the number of protons) of NMR signals are described as singlet, broad singlet (br s), doublet of doublets (dd), triplet of doublets (td), doublet (d), triplet (t) and multiplet (m) with the coupling constant (J) being given in Hz. X‐band EPR spectra were acquired with a Bruker EMX 6/1 spectrometer and an ER 4102ST cavity (Bruker), at 298 K and with a modulation frequency of 100 kHz, modulation amplitude of 0.05 mT and microwave power of 635 μW.

Santos A.S., Ferro R.D., Viduedo N., Maia L.B., Silva A.M, & Marques M.M. (2023). Synthesis of Bis(3‐indolyl)methanes Mediated by Potassium tert‐Butoxide. ChemistryOpen, 12(1), e202200265.

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