Mass spectra were obtained using an Autoflex II MALDI-TOF mass spectrometer (Bruker Daltonics, Bremen, Germany). Measures were performed in linear positive mode, using a nitrogen laser (337 μm) at 50 Hz frequency. The acceleration voltage was 19.50 kV, with delay time acquisition. The analytical samples were obtained by the dry-droplet method. Briefly, 1 μL of an analyte solution in methanol (1 mg/mL) was loaded on the MALDI plate (MTP 384 target plate polished steel BC, Bruker Daltonics, Bremen, Germany) and allowed to dry at 23 °C. Each sample was covered with 2 μL of matrix (α-cyano-4-hydroxycinnamic acid) solution (10 mg/mL, 50% acetonitrile, water 47.5% and 2.5% trifluoroacetic acid) and allowed to dry at 23 °C before the plate was inserted into the vacuum chamber of the MALDI instrument. Data analysis was carried in FlexAnalysis 3.0 software (Bruker Daltonics, Bremen, Germany).
Mtp 384 target plate polished steel bc
Manufactured by Bruker
Sourced in Germany
The MTP 384 target plate polished steel BC is a laboratory equipment product designed for use in various analytical applications. It features a 384-well format and a polished steel surface. The core function of this product is to provide a platform for sample preparation and analysis, though its specific intended uses are not detailed in this factual description.
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Lab products found in correlation
Flexanalysis 3, by Bruker (1 mentions)
Autoflex 2 maldi tof mass spectrometer, by Bruker (1 mentions)
Flexcontrol v3, by Bruker (1 mentions)
Pepmix, by Bruker (1 mentions)
Smartbeam 2, by Bruker (1 mentions)
Peptide calibration standard 2, by Bruker (1 mentions)
Flexcontrol 3, by Bruker (1 mentions)
4 protocols using mtp 384 target plate polished steel bc
1
MALDI-TOF Mass Spectrometry Protocol
2
MALDI-TOF/TOF Analysis of Organic Compounds
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Samples were prepared 1:1 (v/v) using 2,5-dihydroxybenzoic acid as a matrix (diluted to 30 mg ml-1 in 50% methanol and 0.2% TFA) and applied onto an MTP384 target plate polished steel BC (Bruker Daltonics). MS measurements were performed using an ultrafleXtreme MALDI time-of-flight (TOF)/TOF device run with the flexControl v3.4 software (Bruker Daltonics) in positive ionisation mode following Peukert et al. (2014) . Instrument calibration was performed with a polyethylene glycol (PEG) mixture (1:1 mixture of PEG200 and 600, diluted 1:300 in 30% v/v acetonitrile and 0.1% w/v TFA). The settings for fragmentation
3
MALDI-TOF Analysis of Bumble Bee Hemolymph
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Before MALDI-TOF analysis, the samples were thawed on ice and then centrifuged. A tenfold dilution was performed by adding 0.5 µL of bumble bee hemolymph to 4.5 µL of a 1% solution of TFA in a 0.5 mL LoBind Eppendorf® tube. For MALDI-MS analysis, the procedure used follows that of Houdelet et al. [36 (link)], with a minor modification. Briefly, the 10 fold diluted samples were deposited in three replicates on a MALDI plate (MTP 384 target plate polished steel BC, Bruker Daltonics) and vacuum-dried for 10 min. Once dried, the samples were covered with 1 μL of a fresh matrix solution (15 mg/mL 4-HCCA in 70% ACN, 2.5% TFA). Finally, the sample spots were lightly vacuum-dried before analysis. Calibration was carried out using 0.5 µL of APISCAL and 0.5 µL of Pepmix (Peptide Calibration Standard II, 700–3200 Da, Bruker Daltonics). APISCAL is an in-house calibration solution composed of two antimicrobial peptides from Apis mellifera, namely apidaecin (average m/z of 2109) and abaecin (average m/z of 3879); melittin (average m/z of 2847), the major venom component; and ETD151 (average m/z of 4839), a recombinant peptide. After drying under vacuum, the calibrants were covered with 1 μL of matrix. The plate was dried again before MALDI-TOF analysis.
4
MALDI-TOF-MS Analysis of Purified Glycans
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Bruker ultrafleXtreme laser equipped with Smartbeam‐II was used to detect the purified glycans in a reflected positive ion mode combined with the support of proprietary software Flexcontrol 3.4 (Bruker Daltonics). Calibration was performed using the Bruker Peptide Calibration Standard II. Each purified sample was mixed with an equal volume of the internal standard and dot 1 μL on a MTP 384 target plate polished steel BC (Bruker Daltonics), with three duplicate dots per sample. After air‐dried, 1 μL of substrate (newly prepared 5 mg/mL super‐DHB, dissolved in 1 mM NaOH in 50% ACN) was added and allowed to dry at room temperature. The range of m/z ratio was set from 700 to 3500. Laser emission was set at 10,000 laser shots and strafed samples with 100 shots per grating spot by complete random walk at a frequency of 1000 Hz; the laser voltage is set at 68 V. Glycans structures were confirmed by tandem mass spectrometry (MALDI‐TOF‐MS/MS), and GlycoWorkbench (version 2.1) (https://code.google.com/p/glycoworkbench/ ) was used for fragmentation spectra analysis.
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