Ammonium Acetate (5 M), RNase-free

Name: Ammonium Acetate (5 M), RNase-free
SKU: AM9071
Price: 178.00 EUR

Ambion Molecular biology grade, 5 M Ammonium Acetate solution is supplied in one bottle containing 500 mL. The solution isRead more

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Catalog Number	Quantity
AM9071	500 mL
AM9070G	100 mL

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Catalog number AM9071

Price (EUR)

178,00

Each

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Quantity:

500 mL

Price (EUR)

178,00

Each

Add to cart

Ambion Molecular biology grade, 5 M Ammonium Acetate solution is supplied in one bottle containing 500 mL. The solution is certified RNase-free, economical, and ready-to-use. Due to the ubiquitous presence of RNases, manufacturing products for use with RNA is especially challenging. Ambion's nuclease-free reagents and buffers are manufactured in facilities specifically designed to prevent the introduction of nucleases. Highly sensitive RNase assays are performed at several different stages of the manufacturing process to ensure the highest quality. These reagents are rigorously tested for contaminating nonspecific endonuclease, exonuclease, and RNase activity.

For Research Use Only. Not for use in diagnostic procedures.

Specifications

Chemical Name or MaterialAmmonium Acetate

Packaging TypeBottle

Product LineAmbion

PurityMolecular Biology Grade

Quantity500 mL

Shipping ConditionRoom Temperature

Concentration5 M

FormLiquid

Unit SizeEach

Contents & Storage

Store at room temperature.

Frequently asked questions (FAQs)

What salts can be used to precipitate total RNA? What are the advantages of each? Do they require ethanol?

The three salts that can be used are:

- Guanidine thiocyanate, which requires ethanol. Guanidine thiocyanate is a common agent used for isolating RNA and we recommend it especially for tissues high in ribonuclease activity, such as the pancreas or spleen.
- Ammonium acetate, which requires ethanol. Ammonium acetate is useful when reducing coprecipitation of unwanted dNTPs and oligosaccharides. However, it should not be used when the nucleic acid will be phosphorylated using T4 polynucleotide kinase, since this enzyme is inhibited by ammonium ions.
- Lithium chloride, which does not require ethanol. LiCl is very effective in precipitating RNA but does not efficiently precipitate protein or DNA. It also does not precipitate unincorporated nucleotides.

How can I concentrate DNA solution using ethanol precipitation?

Ethanol precipitation is frequently used for concentration of DNA solutions and for removal of protein, salt, and unincorporated nucleotides. The two most common protocols use either 0.3 M sodium acetate (0.1 volume of 3 M) or 2.5 M ammonium acetate (0.5 volume of 7.5 M), along with 2 to 2.5 volumes of ethanol. Studies at Thermo Fisher Scientific (1, 2) have shown these two salts to be equally effective for recovery of small amounts of DNA from small volumes and for removal of unincorporated nucleotides from labeling reactions.

DNA was found to precipitate readily with room temperature ethanol and room temperature centrifugation. For DNA concentrations >0.1 µg/mL, no incubation period is required. For improved recovery of DNA from dilute solutions (10 ng/mL), overnight incubation in the ethanol and extended (30 min) centrifugation is recommended. Addition of ammonium acetate to 2.5 M (without ethanol) has also been shown to be effective in precipitating proteins while leaving the DNA in solution (2).

1. Zeugin, J.A. and Hartley, J.L. (1985) FOCUS 7:4, 1.

2. Crouse, J. and Amorese, D. (1987) FOCUS 9:2, 3.