Pierce™ Negative Ion Calibration Solution
Pierce™ Negative Ion Calibration Solution
Citations & References (5)
Thermo Scientific™

Pierce™ Negative Ion Calibration Solution

The Thermo Scientific Pierce ESI Negative Ion Calibration Solution is a mixture of highly purified ionizable molecules designed for negativeRead more
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Catalog NumberQuantity
8832410 mL
Catalog number 88324
Price (EUR)
309,00
Each
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Quantity:
10 mL
Request bulk or custom format
Price (EUR)
309,00
Each
Add to cart

The Thermo Scientific Pierce ESI Negative Ion Calibration Solution is a mixture of highly purified ionizable molecules designed for negative mode calibration of Thermo Scientific LTQ series mass spectrometer instruments.

Features of the Negative Ion Calibration Solution:

  • Strong peaks—mixture of SDS, sodium taurocholate and Ultramark 1621 in a acetonitrile/methanol/acetic solution.
  • Ready-to-use—load the mass reference standard into a syringe and inject into the instrument
  • High-purity—mass spectrometry grade reagents in a non-leachable container
  • Stable—store at room temperature for more than one year (see CofA for specific expiration date of each lot)

The Pierce ESI Negative Ion Calibration Solution is a ready-to-use liquid formulation ideal for quickly performing the routine calibration required to maintain the robust performance of Thermo Scientific Mass Spectrometers. The ESI Negative Ion Calibration Solution is manufactured at an ISO 9001 facility and each lot is quality controlled with strict specifications. The stable solution is provided in a leak-proof, high-purity PTFE bottle.

The ESI Negative Ion Calibration Solution can be used to calibrate the LTQ series, LTQ Velos series, the LTQ Orbitrap series and Exactive Mass Spectrometer instruments.

More Product Data

For Research Use Only. Not for use in diagnostic procedures.
Specifications
Final Product TypePeptides
For Use With (Equipment)Mass Spectrometer
Quantity10 mL
Workflow StepCalibration
Detection MethodMass Spectrometry
FormLiquid
Product LinePierce
Product TypeCalibration Solution
Starting MaterialPeptides
Unit SizeEach
Contents & Storage
Store between 2°C and 8°C for one year (see CofA for specific expiration date of each lot).

Citations & References (5)

Citations & References
Abstract
Untargeted metabolomics to understand the basis of phenotypic differences in amphotericin B-resistant Leishmania parasites.
Authors:Pountain AW,Barrett MP
Journal:Wellcome open research
PubMed ID:32133420
Background: Protozoan Leishmania parasites are responsible for a range of clinical infections that represent a substantial challenge for global health. Amphotericin B (AmB) is increasingly used to treat Leishmania infection, so understanding the potential for resistance to this drug is an important priority. Previously we described four independently-derived AmB-resistant L. ... More
Identification of Phenolic Compounds from Hancornia speciosa (Apocynaceae) Leaves by UHPLC Orbitrap-HRMS.
Authors:Bastos KX,Dias CN,Nascimento YM,da Silva MS,Langassner SM,Wessjohann LA,Tavares JF
Journal:Molecules (Basel, Switzerland)
PubMed ID:28098848
Apocynaceae is a botanical family distributed mainly in tropical and subtropical regions of the world. In Brazil, they comprise about 90 genera and 850 species, inhabiting various types of vegetation. Within this large botanical family, the genus Hancornia is considered monotypic, with its only species Hancornia speciosa Gomes. Antihypertensive, antidiabetic, ... More
Protocol for identifying metabolite biomarkers in patient uterine fluid for early ovarian cancer detection.
Authors:Jiang Y,Yue W,Bi M,Guo Y,Gu X,Li M
Journal:STAR protocols
PubMed ID:38489270
High mortality of ovarian cancer (OC) is primarily attributed to the lack of effective early detection methods. Uterine fluid, pooling molecules from neighboring ovaries, presents an organ-specific advantage over conventional blood samples. Here, we present a protocol for identifying metabolite biomarkers in uterine fluid for early OC detection. We describe ... More
Tulasporins A-D, 19-Residue Peptaibols from the Mycoparasitic Fungus Sepedonium tulasneanum
Authors:Otto A, Laub A, Haid M, Porzel A, Schmidt J, Wessjohann L, Arnold N
Journal:Nat Prod Commun
PubMed ID:30508342
Four new 19-residue peptaibols, named tulasporins A-D (1-4), were isolated from the semi-solid cultures of Sepedonium tulasneanum. Their structures were elucidated on the basis of extensive ESI-HRMS(n) fragmentation studies as well as (1)H NMR spectroscopic analyses. Interestingly, the structures of tulasporins A-D (1-4) resemble those of chrysospermins isolated earlier from ... More
Mapping small metabolite changes after traumatic brain injury using AP-MALDI MSI.
Authors:Siciliano AM,Moro F,De Simone G,Pischiutta F,Morabito A,Pastorelli R,Brunelli L,Zanier ER,Davoli E
Journal:Analytical and bioanalytical chemistry
PubMed ID:39090264
Traumatic brain injury (TBI) is an alteration of brain function caused by a sudden transmission of an external force to the head. The biomechanical impact induces acute and chronic metabolic changes that highly contribute to injury evolution and outcome. TBI heterogeneity calls for approaches allowing the mapping of regional molecular ... More