Sialic Acid Reference Panel

The Sialic Acid Reference panel is a mixture of different sialic acids forms (as detailed on chromatogram below) sourced from bovine submaxillary mucin.

It includes the following sialic acids: Neu5Ac; Neu5Gc; Neu5,7Ac2; Neu5,Gc9Ac; Neu5,9Ac2; Neu5,7,(8),9Ac3Gc.

Amount: approx. 1.25 nmols

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Download Non-hazardous SDS

Part Number: CM-SRP-01


Product Description

The Sialic Acid Reference Panel contains Neu5Ac; Neu5Gc; Neu5,7Ac2; Neu5,Gc9Ac; Neu5,9Ac2; Neu5,8Ac2 and Neu5,7,(8),9Ac3Gc.

It is also supplied as a component of our LudgerTag DMB sialic acid release and labeling kit (LT-KDMB-A1).

Ludger Guides to Sialic Acid Analysis:
Sialylation Guide I: Neu5Ac and Neu5Gc Quantitation
Sialylation Guide II: Highly Sialylated Glycoproteins
Application Note: Quantitative Sialic Acid Analysis

sialic acid reference panel
Chromatogram of DMB Labelled Sialic Acid Reference Panel (CM-SRP-01) run on the LudgerSep-R1 HPLC column (A) or LudgerSep-uR2 UHPLC column (B)
Peaks: 1=Neu5Gc; 2=Neu5Ac; 3=Neu5,7Ac2; 4=Neu5Gc,9Ac; 5=Neu5,8Ac2; 6=Neu5,9Ac2; 7=Neu5,x,xAc3 (where x is an unknown acetyl position); *=Reagent.

Sources: Bovine submaxillary mucin

Form: Dry. Dried by centrifugal evaporation from an aqueous solution.

Amount: 1.25 nmols

Storage: -20˚C both before and after dissolution. This product is stable for at least 5 years as supplied.
View Certificate of Stabilty

Shipping: The sialic acid reference panel can be shipped at ambient when dry. After dissolution, ship on dry ice.

Handling: Allow the unopened vial to reach ambient temperature and tap unopened on a solid surface to ensure that most of the lyophilized material is at the bottom of the vial. Gently remove the cap, add the desired volume of reconstitution medium, re-cap and mix thoroughly to bring all the oligosaccharide into solution. For maximal recovery of oligosaccharide, ensure that the cap lining is also rinsed and centrifuge the reconstituted vial briefly before use. Ensure that any glass, plasticware or solvents used are free of glycosidases and environmental carbohydrates. Minimise exposure to elevated temperatures or extremes of pH. High temperatures and low pH will cause desialylation. High pH will cause epimerisation of the reducing terminus GlcNAc.

Safety: This product is non-hazardous and has been purified from natural sources certified to be free of all hazardous material including pathogenic biological agents.
Download Non-hazardous SDS


Fernandes, D. Biopharmaceutical Sialylation. European Biopharmaceutical Review. Spring 2006. pp 100 -104

Bhide GP, Colley KJ. Sialylation of N-glycans: mechanism, cellular compartmentalization and function. Histochem Cell Biol. 2017 Feb;147(2):149-174. doi: 10.1007/s00418-016-1520-x. Epub 2016 Dec 14.

Anumula KR. Rapid quantitative determination of sialic acids in glycoproteins by high-performance liquid chromatography with a sensitive fluorescence detection. Analytical Biochemistry 230: pp24-30, 1995,