text.skipToContent text.skipToNavigation

{{ addToCartData.mixPtRmWarning }}

Do you want to proceed?

{{requestQuote.productName}}; {{requestQuote.displayProductCode}}

Thank you

We will respond to your enquiry shortly.

Something went wrong, please try again later.

Quick Order
If not, click 'cancel'. You can also save this item for later.
Cancel

{{ favouriteItem.successMessage }}

View favourites

Product removed from your favourites

{{ addToCartData.mixPtRmWarning }}

Do you want to proceed?

{{requestQuote.productName}}; {{requestQuote.displayProductCode}}

Thank you

We will respond to your enquiry shortly.

Something went wrong, please try again later.

Product Overview

Product Code

TRC-A618750

CAS Number

177408-65-0

Product Format

Neat

Molecular Formula

C9 H17 N O3 . Cl H

Molecular Weight

223.70

Alternate CAS Number

Free base: 682799-71-9

Purity

>95% (HPLC)

Documentation

Where shall we send your requested SDS?
Part number:  {{ sdsPopupData.packSize.code }}

{{ errors[0] }}

{{ errors[0] }}

LGC will use your email address only for the purposes of providing the requested document.
For information about our data processing activities, please visit our Privacy Notice.
Thank you

Your request has been sent to our sales team to process.

Product Information

Analyte Name

8-Amino-7-oxopelargonic Acid, Hydrochloride

CAS Number

177408-65-0

Molecular Formula

C9 H17 N O3 . Cl H

Molecular Weight

223.70

Accurate Mass

223.0975

SMILES

Cl.CC(N)C(=O)CCCCCC(=O)O

InChI

InChI=1S/C9H17NO3.ClH/c1-7(10)8(11)5-3-2-4-6-9(12)13;/h7H,2-6,10H2,1H3,(H,12,13);1H

IUPAC

8-amino-7-oxononanoic acid;hydrochloride

Alternate CAS Number

Free base: 682799-71-9

Storage Temperature

-20°C

Shipping Temperature

Room Temperature

Country of Origin

CANADA

Product Type

Impurity; Bioactive Small Molecule

Product Format

Neat

Impurity Type

Intermediate

Purity

>95% (HPLC)

An intermediate in the synthesis of biotin. Pimeloyl-CoA is transformed into AOP in the presence of L-alanine by the enzyme AOP synthase. The catalytic mechanism of AOP synthase has been studied for the elucidation of inhibitors as potential antimicrobial agents.

References: Ohsugi, M., et al.: J. Nutr. Sci. Vitaminol., 34 (4), 343 (1985), Pearson, B.M., et al.: Lett. Appl. Microbiol., 10 (2), 89 (1990), Ploux, O., et al.: Biochem. J., 283, 327 (1992)

Punchout session timeout warning

Your punchout session will expire in 1 min 59 sec.

Select "Continue session" to extend your session.