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Undecyl-pentadecyl-keton, also known as 1-(undecyl)-hexadecan-1-one, is a synthetic organic compound characterized by its long-chain structure. It is a ketone with a molecular formula of C25H50O and a molecular weight of 366.67 g/mol. Undecyl-pentadecyl-keton is composed of a 15-carbon alkyl chain (pentadecyl) and an 11-carbon alkyl chain (undecyl), both connected to a central carbonyl group (C=O). Undecyl-pentadecyl-keton is often used in the fragrance industry due to its unique scent profile, which can mimic natural aromas. It is also employed in the formulation of various personal care and cosmetic products, where it contributes to the overall fragrance and can act as a fixative to help stabilize and prolong the scent.

31534-85-7

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31534-85-7 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 31534-85-7 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 3,1,5,3 and 4 respectively; the second part has 2 digits, 8 and 5 respectively.
Calculate Digit Verification of CAS Registry Number 31534-85:
(7*3)+(6*1)+(5*5)+(4*3)+(3*4)+(2*8)+(1*5)=97
97 % 10 = 7
So 31534-85-7 is a valid CAS Registry Number.

31534-85-7Upstream product

31534-85-7Downstream Products

31534-85-7Relevant academic research and scientific papers

Purification and characterization of OleA from Xanthomonas campestris and demonstration of a non-decarboxylative claisen condensation reaction

Frias, Janice A.,Richman, Jack E.,Erickson, Jasmine S.,Wackett, Lawrence P.

experimental part, p. 10930 - 10938 (2012/03/26)

OleA catalyzes the condensation of fatty acyl groups in the first step of bacterial long-chain olefin biosynthesis, but the mechanism of the condensation reaction is controversial. In this study, OleA from Xanthomonas campestris was expressed in Escherichia coli and purified to homogeneity. The purified protein was shown to be active with fatty acyl-CoA substrates that ranged from C 8 to C16 in length. With limiting myristoyl-CoA (C 14), 1 mol of the free coenzyme A was released/mol of myristoyl-CoA consumed. Using [14C]myristoyl-CoA, the other products were identified as myristic acid, 2-myristoylmyristic acid, and 14-heptacosanone. 2-Myristoylmyristic acid was indicated to be the physiologically relevant product of OleA in several ways. First, 2-myristoylmyristic acid was the major condensed product in short incubations, but over time, it decreased with the concomitant increase of 14-heptacosanone. Second, synthetic 2-myristoylmyristic acid showed similar decarboxylation kinetics in the absence of OleA. Third, 2-myristoylmyristic acid was shown to be reactive with purified OleC and OleD to generate the olefin 14-heptacosene, a product seen in previous in vivo studies. The decarboxylation product, 14-heptacosanone, did not react with OleC and OleD to produce any demonstrable product. Substantial hydrolysis of fatty acyl-CoA substrates to the corresponding fatty acids was observed, but it is currently unclear if this occurs in vivo. In total, these data are consistent with OleA catalyzing a non-decarboxylative Claisen condensation reactionin the first step of the olefin biosynthetic pathway previously found to be presentin at least 70 different bacterial strains.

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