The applicants' teachings relate to a composition, method, and kit for calibrating a mass spectrometer.
To achieve accuracy and reliability, mass spectrometers need to be calibrated. Although there are a variety of calibrants used to calibrate mass spectrometers, many of them do not span a large mass range, do not work in both positive and negative ion modes, and are not ionizable in both electrospray (PSI) and atmospheric pressure ionization (APCI) modes. Typically, multiple sets of compounds are used that work either in positive or negative ion mode and either in ESI or APCI mode.
In accordance with an aspect of the applicants' teachings, a calibration composition for use in mass spectrometry is provided. The system comprises a predetermined concentration of a calibrant comprising a mixture of amino acid polyethylene glycol compounds, also known as discrete polyethylene glycol (dPEG®) compounds, and a solvent for dissolving the calibrant. In various embodiments, the calibrant can be used in either positive or negative ionization mode. In various embodiments, the calibrant can be used in calibrating an atmospheric pressure chemical ionization (APCI) or an electrospray mass spectrometer. In various embodiments, the calibrant composition comprises a mixture to enable calibration across a range of approximately 145 to 3500 Da. In various aspects, in calibrating an APCI mass spectrometer in positive ionization mode, the polyethylene glycol compounds comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, and amino-dPEG 12-acid. In various embodiments, the calibrant further comprises 7-aminoheptanoic acid, clomipramine, reserpine, phosphazene 921, and phosphazene 1521. In various aspects, the solvent comprises a mixture of acetonitrile and water, but any suitable solvent can be used. In various aspects, in calibrating an APCI mass spectrometer in negative ionization mode, the polyethylene glycol compounds comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, amino-dPEG 12-acid, and amino-dPEG 16-acid. In various embodiments, the calibrant further comprises 7-aminoheptanoic acid and sulfinpyrazone. In various aspects, the solvent comprises a mixture of acetonitrile and water, but any suitable solvent can be used. In various embodiments, in calibrating an electrospray mass spectrometer in positive ionization mode, the polyethylene glycol compounds comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, and amino-dPEG 12-acid. In various embodiments, the calibrant further comprises 7-aminoheptanoic acid, clomipramine, reserpine, phosphazene 921, and phosphazene 1521. In various aspects, the solvent comprises a mixture of acetonitrile and water, but any suitable solvent can be used. In various embodiments, in calibrating an electrospray mass spectrometer in negative ionization mode, the polyethylene glycol compounds comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, amino-dPEG 12-acid, and amino-dPEG 16-acid. In various embodiments, the calibrant further comprises 7-aminoheptanoic acid and sulfinpyrazone. In various aspects, the solvent comprises a mixture of acetonitrile and water, but any suitable solvent can be used.
In various aspects, a method for calibrating a mass spectrometer is provided. The method comprises obtaining a mass spectrum of a calibrant composition containing a plurality of known compounds comprising a mixture of amino acid polyethylene glycol compounds, also known as discrete polyethylene glycol (dPEG®) compounds, and a solvent for dissolving the calibrant, determining the differences between the expected mass peaks for the known compounds and the corresponding actual mass peaks obtained, and adjusting the mass spectrometer based on the differences between the expected and actual mass peaks. In various embodiments, the calibrant can be used in either positive or negative ionization mode. In various embodiments, the calibrant can be used in calibrating an atmospheric pressure chemical ionization (APCI) or an electrospray mass spectrometer. In various embodiments, the calibrant mixture is selected to enable calibration across a range of approximately 145 to 3500 Da. In various aspects, in calibrating an APCI mass spectrometer in positive ionization mode, the polyethylene glycol compounds comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, and amino-dPEG 12-acid. In various embodiments, the calibrant further comprises 7-aminoheptanoic acid clomipramine, reserpine, phosphazene 921, and phosphazene 1521. In various aspects, the solvent comprises a mixture of acetonitrile and water, but any suitable solvent can be used. In various aspects, in calibrating an APCI mass spectrometer in negative ionization mode, the polyethylene glycol compounds comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, amino-dPEG 12-acid, and amino-dPEG 16-acid. In various embodiments, the calibrant further comprises 7-aminoheptanoic acid and sulfinpyrazone. In various aspects, the solvent comprises a mixture of acetonitrile and water, but any suitable solvent can be used. In various embodiments, in calibrating an electrospray mass spectrometer in positive ionization mode, the polyethylene glycol compounds comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, and amino-dPEG 12-acid. In various embodiments, the calibrant further comprises 7-aminoheptanoic acid clomipramine, reserpine, phosphazene 921, and phosphazene 1521. In various aspects, the solvent comprises a mixture of acetonitrile and water, but any suitable solvent can be used. In various embodiments, in calibrating an electrospray mass spectrometer in negative ionization mode, the polyethylene glycol compounds comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, amino-dPEG 12-acid, and amino-dPEG 16-acid. In various embodiments, the calibrant further comprises 7-aminoheptanoic acid and sulfinpyrazone. In various aspects, the solvent comprises a mixture of acetonitrile and water, but any suitable solvent can be used.
In various aspects, a kit for calibrating a mass spectrometer is provided comprising a predetermined concentration of a calibrant comprising a mixture of amino acid polyethylene glycol compounds, also known as discrete polyethylene glycol (dPEG) compounds, and a solvent for dissolving the calibrant. In various embodiments, the calibrant comprises a mixture to enable calibration across a range of approximately 145 to 3500 Da. In various aspects, in calibrating an atmospheric pressure chemical ionization (APCI) mass spectrometer in positive ionization mode, the polyethylene glycol compounds comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, and amino-dPEG 12-acid. In various embodiments, the calibrant further comprises 7-aminoheptanoic acid, clomipramine, reserpine, phosphazene 921, and phosphazene 1521. In various aspects, the solvent comprises a mixture of acetonitrile and water, but any suitable solvent can be used. In various aspects, in calibrating an atmospheric pressure chemical ionization (APCI) mass spectrometer in negative ionization mode, the polyethylene glycol compounds comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, amino-dPEG 12-acid, and amino-dPEG 16-acid. In various embodiments, the calibrant further comprises 7-aminoheptanoic acid and sulfinpyrazone. In various aspects, the solvent comprises a mixture of acetonitrile and water, but any suitable solvent can be used. In various embodiments, in calibrating an electrospray mass spectrometer in positive ionization mode, the polyethylene glycol compounds comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, and amino-dPEG 12-acid. In various embodiments, the calibrant further comprises 7-aminoheptanoic acid, clomipramine, reserpine, phosphazene 921, and phosphazene 1521. In various aspects, the solvent comprises a mixture of acetonitrile and water, but any suitable solvent can be used. In various embodiments, in calibrating an electrospray mass spectrometer in negative ionization mode, the polyethylene glycol compounds comprise amino-dPEG amino-dPEG 6-acid, amino-dPEG 8-acid, amino-dPEG 12-acid, and amino-dPEG 16-acid. In various embodiments, the calibrant further comprises 7-aminoheptanoic acid and sulfinpyrazone. In various aspects, the solvent comprises a mixture of acetonitrile and water, but any suitable solvent can be used,
These and other features of the applicants' teachings are set forth herein.
The skilled person in the art will understand that the drawings, described below, are for illustration purposes only. The drawings are not intended to limit the scope of the applicants' teachings in anyway.
It should be understood that the phrase “a” or “an” used in conjunction with the applicants' teachings with reference to various elements encompasses “one or more” or “at least one” unless the context clearly indicates otherwise. In various embodiments, a calibration composition comprises a predetermined concentration of a calibrant comprising a mixture of amino acid polyethylene glycol compounds or discrete polyethylene glycol (dPEG®) compounds in a solvent that can dissolve the calibrant and any other components that can be present in the composition. In various embodiments, the calibrant composition can be used in positive or negative ionization mode. In various aspects, certain calibrant compositions can be better suited for use in positive ionization mode while others can be better for use in negative ionization mode. In various embodiments, the calibrant composition can be used in calibrating a mass spectrometer with an atmospheric pressure chemical ionization (APCI) mass spectrometer or a mass spectrometer with an electrospray (ESI) ion source. In various embodiments, a calibrant composition can be selected to enable calibration across a broad mass range and can provide reference mass peaks in both positive and negative ionization modes. In various aspects, substantially the same components can be used for both APCI and electrospray mass spectrometry. To provide calibration across a broad mass range, the calibrant composition can comprise a mixture of different discrete polyethylene glycol compounds in accordance with various embodiments of the applicant's teachings. In various aspects, the calibrant composition can enable calibration across a range of approximately 145 to 3500 Da. In various aspects, the solvent to dissolve the calibrant can comprise a mixture of acetonitrile and water, but any suitable solvent can be used.
Reference is made to
In various embodiments, in calibrating an APCI mass spectrometer in positive ionization mode, the polyethylene glycol compounds comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, and amino-dPEG 12-acid. In various embodiments, the calibrant further comprises 7-aminoheptanoic acid, clomipramine, reserpine, phosphazene 921, and phosphazene 1521.
In various embodiments, a calibration composition for use in APCI mass spectrometry calibration in positive ionization mode was prepared comprising the components in
In various aspects, in calibrating an APCI mass spectrometer in negative ionization mode, the polyethylene glycol compounds comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, amino-dPEG 12-acid, and amino-dPEG 16-acid. In various embodiments, the calibrant composition further comprises 7-aminoheptanoic acid and sulfinpyrazone.
In various embodiments, a calibration composition for use in APCI mass spectrometry calibration in negative ionization mode was prepared comprising the components in
In various embodiments, in calibrating an electrospray mass spectrometer in positive ionization mode, the polyethylene glycol compounds comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, and amino-dPEG 12-acid. In various embodiments, the calibrant further comprises 7-aminoheptanoic acid clomipramine, reserpine, phosphazene 921, and phosphazene 1521.
In various embodiments, a calibration composition for use in electrospray mass spectrometry calibration in positive ionization mode was prepared comprising the components in
In various embodiments, in calibrating an electrospray mass spectrometer in negative ionization mode, the polyethylene glycol compounds comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, amino-dPEG 12-acid, and amino-dPEG 16-acid. In various embodiments, the calibrant further comprises 7-aminoheptanoic acid and sulfinpyrazone.
In various embodiments, a calibration composition for use in electrospray mass spectrometry calibration in negative ionization mode was prepared comprising the components in
According to various embodiments of the applicant's teachings,
In various embodiments, solvents can be used to dissolve the calibrant and can include, but are not limited to, acetonitrile, methanol, ethanol, propanol, isopropanol, or water. In various aspects, the solvent can comprise a mixture of acetronitrile and water.
In various aspects, the calibration composition can be used as an internal standard to optimize and tune parameters of the mass spectrometer to ensure that accurate mass spectra are obtained. In use, a mass spectrum of a calibrant composition can be obtained. The calibrant composition can include a plurality of known compounds comprising a mixture of amino acid polyethylene glycol compounds and a solvent for dissolving the calibrant. The differences between the expected mass peaks for the known compounds and the corresponding mass peaks obtained can be determined and the mass spectrometer can be adjusted based on the differences between the expected and actual mass peaks. In various aspects, the calibrant can be used in either positive or negative ionization mode, and the calibrant can be used in calibrating an APCI or an electrospray mass spectrometer.
In various embodiments, in calibrating an APCI mass spectrometer in positive ionization mode, the polyethylene glycol compounds can comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, and amino-dPEG 12-acid. In various embodiments, the calibrant can further comprise 7-aminoheptanoic acid, clomipramine, reserpine, phosphazene 921, and phosphazene 1521.
In various embodiments, in calibrating an APCI mass spectrometer in negative ionization mode, the polyethylene glycol compounds can comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, amino-dPEG 12-acid, and amino-dPEG 16-acid. In various aspects, the calibrant can further comprise 7-aminoheptanoic acid and sulfinpyrazone.
In various embodiments, in calibrating an electrospray mass spectrometer in positive ionization mode, the polyethylene glycol compounds can comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, and amino-dPEG 12-acid. In various aspects, the calibrant can further comprise 7-aminoheptanoic acid, clomipramine, reserpine, phosphazene 921, and phosphazene 1521.
In various embodiments, in calibrating an electrospray mass spectrometer in negative ionization mode, the polyethylene glycol compounds comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, amino-dPEG 12-acid, and amino-dPEG 16-acid. In various aspects, the calibrant can further comprise 7-aminoheptanoic acid and sulfinpyrazone.
In various embodiments, solvents can be used to dissolve the calibrant and can include, but are not limited to, acetonitrile, methanol, ethanol, propanol, isopropanol, or water. In various aspects, the solvent can comprise a mixture of acetronitrile and water.
In various embodiments, the calibrant composition can include a mixture to enable calibration across a broad range of masses. In various aspects, the calibrant composition can enable calibration across a range of approximately 145 to 3500 Da.
In various embodiments, a kit for calibrating a mass spectrometer can be provided. The kit can comprise a predetermined concentration of a calibrant comprising a mixture of amino acid polyethylene glycol compounds and a solvent for dissolving the calibrant.
In various aspects, in calibrating an APCI mass spectrometer in positive ionization mode, the polyethylene glycol compounds in the kit can comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, and amino-dPEG 12-acid. In various embodiments, the kit can further comprise 7-aminoheptanoic acid, clomipramine, reserpine, phosphazene 921, and phosphazene 1521.
In various embodiments, in calibrating an APCI mass spectrometer in negative ionization mode, the polyethylene glycol compounds in the kit can comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, amino-dPEG 12-acid, and amino-dPEG 16-acid. In various aspects, the kit can further comprise 7-aminoheptanoic acid and sulfinpyrazone.
In various embodiments, in calibrating an electrospray mass spectrometer in positive ionization mode, the polyethylene glycol compounds in the kit can comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, and amino-dPEG 12-acid. In various aspects, the kit can further comprise 7-aminoheptanoic acid, clomipramine, reserpine, phosphazene 921, and phosphazene 1521.
In various embodiments, in calibrating an electrospray mass spectrometer in negative ionization mode, the polyethylene glycol compounds in the kit can comprise amino-dPEG 4-acid, amino-dPEG 6-acid, amino-dPEG 8-acid, amino-dPEG 12-acid, and amino-dPEG 16-acid. In various aspects, the kit can further comprise 7-aminoheptanoic acid and sulfinpyrazone.
In various aspects, the kit can comprise a solvent to dissolve the calibrant. In various embodiments, the solvent can comprise a mixture of acetonitrile and water. In various embodiments, the kit can contain any suitable solvent.
In various embodiments, the calibrant composition can include a mixture to enable calibration across a broad range of masses. In various aspects, the kit can comprise a calibrant composition that can enable calibration across a range of approximately 145 to 3500 Da.
While the applicants' teachings are described in conjunction with various embodiments, it is not intended that the applicants' teachings be limited to such embodiments. On the contrary, the applicants' teachings encompass various alternatives, modifications, and equivalents, as will be appreciated by those skilled in the art.
This application claims priority to U.S. provisional application No. 61/470,275 filed Mar. 31, 2011, which is incorporated herein by reference in its entirety.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US12/31553 | 3/30/2012 | WO | 00 | 9/30/2013 |
Number | Date | Country | |
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61470275 | Mar 2011 | US |