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(2S,3R,14E)-2-aminooctadecen-3-ol is a long-chain unsaturated fatty alcohol with a specific stereochemical configuration. The 2S, 3R, and 14E designations indicate the orientation of its functional groups. The presence of an amine group and a double bond in the long hydrocarbon chain makes it a key component of certain biological processes, particularly in the synthesis of lipids and membrane structures.

2190487-94-4

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2190487-94-4 Usage

Uses

Used in Pharmaceutical Development:
(2S,3R,14E)-2-aminooctadecen-3-ol is used as a key component in the development of pharmaceuticals due to its potential functional and structural roles in biological systems.
Used in Biochemistry Research:
(2S,3R,14E)-2-aminooctadecen-3-ol is used as a research tool for understanding the biochemistry of lipid metabolism and its role in the synthesis of lipids and membrane structures.

Check Digit Verification of cas no

The CAS Registry Mumber 2190487-94-4 includes 10 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 7 digits, 2,1,9,0,4,8 and 7 respectively; the second part has 2 digits, 9 and 4 respectively.
Calculate Digit Verification of CAS Registry Number 2190487-94:
(9*2)+(8*1)+(7*9)+(6*0)+(5*4)+(4*8)+(3*7)+(2*9)+(1*4)=184
184 % 10 = 4
So 2190487-94-4 is a valid CAS Registry Number.

2190487-94-4Downstream Products

2190487-94-4Relevant academic research and scientific papers

Elucidating the chemical structure of native 1-deoxysphingosine

Steiner, Regula,Saied, Essa M.,Othman, Alaa,Arenz, Christoph,Maccarone, Alan T.,Poad, Berwyck L. J.,Blanksby, Stephen J.,Von Eckardstein, Arnold,Hornemann, Thorsten

, p. 1194 - 1203 (2016)

The 1-deoxysphingolipids (1-deoxySLs) are formed by an alternate substrate usage of the enzyme, serine-palmitoyltransferase, and are devoid of the C1-OH-group present in canonical sphingolipids. Pathologically elevated 1-deoxySL levels are associated with the rare inherited neuropathy, HSAN1, and diabetes type 2 and might contribute to β cell failure and the diabetic sensory neuropathy. In analogy to canonical sphingolipids, it was assumed that 1-deoxySLs also bear a (4E) double bond, which is normally introduced by sphingolipid delta(4)-desaturase 1. This, however, was never confirmed. We therefore supplemented HEK293 cells with isotope-labeled D3-1-deoxysphinganine and compared the downstream formed D3-1-deoxysphingosine (1-deoxySO) to a commercial synthetic SPH m18:1(4E)(3OH) standard. Both compounds showed the same m/z, but differed in their RPLC retention time and atmospheric pressure chemical ionization in-source fragmentation, suggesting that the two compounds are structural isomers. Using dimethyl disulfide derivatization followed by MS2 as well as differential-mobility spectrometry combined with ozone-induced dissociation MS, we identified the carbon-carbon double bond in native 1-deoxySO to be located at the (Δ14) position. Comparing the chromatographic behavior of native 1-deoxySO to chemically synthesized SPH m18:1(14Z) and (14E) stereoisomers assigned the native compound to be SPH m18:1(14Z). This indicates that 1-deoxySLs are metabolized differently than canonical sphingolipids.

Synthesis and characterization of some atypical sphingoid bases

Saied, Essa M.,Le, Thuy Linh-Stella,Hornemann,Arenz, Christoph

, p. 4047 - 4057 (2018/06/30)

Sphingolipids are ubiquitous and abundant components of all eukaryotic and some prokaryotic organisms. Sphingolipids show a large structural variety not only between the different species, but also within an individual cell. This variety is not limited to alterations in the polar headgroups of e.g. glycosphingolipids, but also affects the lipophilic anchors comprised of different fatty acids on the one hand and different sphingoid bases on the other hand. The structural variations within different sphingoid bases e.g. in pathogens can be used to identify novel biomarkers and drug targets and the specific change in the profile of common and uncommon sphingolipids are associated with pathological conditions like diabetes or cancer. Therefore, the emerging field of sphingolipidomics is dedicated to collect data on the sphingolipidome of a cell and hence to assign changes therein to certain states of a cell or to pathological conditions. This powerful tool however is still limited by the availability of structural information about the individual lipid species as well as by the availability of appropriate internal standards for quantification. Herein we describe the synthesis of a variety of 1-deoxy-sphingoid bases. 1-DeoxySphingolipids have recently acquired significant attention due to its pathological role in the rare inherited neuropathy, HSAN1 but also as predictive biomarkers in diabetes type II. Some of the compounds synthesized and characterized herein, have been used and will be used to elucidate the correct structure of these disease-related lipids and their metabolites.

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