K-EBHLG

SKU: 700004278

50 assays per kit

Content:	50 assays per kit
Shipping Temperature:	Ambient
Storage Temperature:	Short term stability: 2-8oC, Long term stability: See individual component labels
Stability:	> 2 years under recommended storage conditions

Analyte:	β-Glucan
Assay Format:	Spectrophotometer
Detection Method:	Absorbance
Wavelength (nm):	510
Signal Response:	Increase
Limit of Detection:	1 g/100 g
Reaction Time (min):	~ 100 min
Application examples:	Yeast preparations and other materials
Method recognition:	Novel method

This product has been discontinued (see here), please use the recommended replacement product β-Glucan Assay Kit (Yeast and Mushroom) for all your yeast and mushroom β-Glucan testing needs.

Enzymatic Yeast Beta-Glucan test kit, an enzymatic procedure for the measurement and analysis of 1,3:1,6-β-glucan in yeast. Also measures 1,3-β-glucan.

See more of our polysaccharide test kit products.

Advantages

Standard included

Very competitive price (cost per test) 

All reagents stable for > 12 months after preparation 

Mega-Calc™ software tool is available from our website for hassle-free raw data processing 

This product has been discontinued (see here), please use the recommended replacement product β-Glucan Assay Kit (Yeast and Mushroom) for all your yeast and mushroom β-Glucan testing needs.

Purple-Jelley Hyaluronic Acid assay kit

Biocolor’s Purple-Jelley assay kit is the perfect tool for accurate measurement of hyaluronic acid / Hyaluronan levels in your samples. This colorimetric assay is optimised for quantitative analysis in-vivo, tissue-derived hyaluronic acid / Hyaluronan and includes full step-by-step instructions.

Colorimetric Detection (655nm) (Endpoint)

Hyaluronic Acid: A gentle giant!

Hyaluronic acid, in its hydrated form, is a unique carbohydrate polymer, often referred to as a ‘gentle giant.’ It consists of a lengthy, flexible, non-branching chain with a repeating disaccharide pattern. This disaccharide is composed of alternating uronic acid and aminosugar units.

Why is our kit called ‘Purple-Jelley’?

Discovering the J-Aggregate Effect in Cyanine DyesIn 1936, Edwin Jelley made a fascinating observation, documented it in a letter to Nature (Nature 138, 1009 – 1010). He noted a peculiar behaviour of certain cyanine dyes, that when dissolved in 5 M NaCl, they dyes exhibited a third absorbance peak at a longer wavelength, around 650nm. In deionized water, however, they displayed only a double peak at approximately 540nm and 570nm. The 650nm peak in concentrated dye solutions resulted from the aggregation of dye molecules and was later termed a ‘J-aggregate,’ in honor of Edwin Jelley. The J-aggregate is known as a supra-molecular complex, formed by stacking individual dye molecules.

Subsequent research in the 1960s, notably by Kay et al. (J. Physical Chem. 68, 1896 – 1906), revealed that various biological polymers, including proteins, DNA, polar lipids, and glycosaminoglycans, could also induce this third absorbance peak. This phenomenon led to the development of the Purple-Jelley assay, named after the purple color of the dye reagent and Edwin Jelley himself.

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An overview of the Purple-Jelley assay steps:

During the assay, hyaluronic acid is selectively purified during the assay sample preparation protocol. This is then reacted with the Purple-Jelley dye reagent, and the absorption of the characteristic third wavelength recorded. By comparison with a calibration curve the hyaluronic acid content of the sample can be measured.

‍Step 1. The assay protocol takes tissue samples through a sequential sample preparation protocol which involves enzymatic protein digestion, followed by precipitation and purification of GAGs, culminating in the precipitation of purified Hyaluronic acid.

Step2. The processed sample is then incubated for 10 minutes with the Purple-Jelley dye reagent, forming a coloured product which can be measured spectrophotometrically.

Step 3. The Hyaluronic acid content of unknown samples can be calculated by comparison against a calibration curve prepared using a standard comprising hyaluronic acid (supplied with the kit).

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Assay range

10 – 100µg/ml

Limit of Detection

10µg/ml

Detection Method

Colorimetric Detection (655nm) (Endpoint)

Measurements per kit

100 in total (allows a maximum of 46 samples to be run in duplicate alongside a standard curve).

Suitable Samples

In-vivo: Hyaluronic acid purified from in-vivo tissues. The kit protocol involves extraction and purification of hyaluronic acid prior to reaction with the Purple-Dye reagent.

Precautions

This kit is designed for research use only. Not for use in diagnostic procedures.
Kit requires access to a centrifuge, as well as a spectrophotometer/colorimeter capable of colorimetric, absorbance detection at 655nm.
Specific sample preparation protocols may require customer to provide further reagents, consult assay manual for further information.

ation

Mode of ActionAssay SpecificationsKit Contents

Purple-Jelley Hyaluronic acid kit contents:‍

1. Purple-Jelley Dye Reagent (1x 20ml)

2. Hyaluronan Reference Standard (1x 5ml, 0.2mg/ml soluble Hyaluronic Acid)

3. Precipitating Reagent (2x 34ml)

4. Sodium Chloride (1x 20ml)

5. Cetylpyridinium Chloride (1x 20ml)

6. TRIS-buffered Saline (5x tablets)

7. 2ml screw-cap tubes for preparation of samples.

8. Assay kit manual

NB: Additional reagents may be required for sample preparation prior to assay. Consult manual or contact us for further details.

Biocolor’s Purple-Jelley assay kit is the perfect tool for accurate measurement of hyaluronic acid / Hyaluronan levels in your samples. This colorimetric assay is optimised for quantitative analysis in-vivo, tissue-derived hyaluronic acid / Hyaluronan and includes full step-by-step instructions.

t-Boc-aminooxy-PEG1-propargyl is a click chemistry PEG linker with a t-Boc-aminooxy group. The propargyl group can react with azide-bearing compounds or biomolecules via copper catalyzed azide-alkyne Click Chemistry to yield a stable triazole linkage. The t-Boc aminooxy group can be deprotected under mild acidic conditions and then can react with an aldehyde or ketone group to form a stable oxime linkage. The hydrophilic PEG spacer increases solubility in aqueous media. Reagent grade, for research purpose. Please contact us for GMP-grade inquiries.

t-Boc-aminooxy-PEG1-propargyl is a click chemistry PEG linker with a t-Boc-aminooxy group. The propargyl group can react with azide-bearing compounds or biomolecules via copper catalyzed azide-alkyne Click Chemistry to yield a stable triazole linkage. The t-Boc aminooxy group can be deprotected under mild acidic conditions and then can react with an aldehyde or ketone group to form a stable oxime linkage. The hydrophilic PEG spacer increases solubility in aqueous media. Reagent grade, for research purpose. Please contact us for GMP-grade inquiries.