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B1502

Brain Extract from bovine brain

Name: Brain Extract from bovine brain
Brand: SIGMA

Type I, Folch Fraction I

Synonym(s):

Brain Extract from Bovine

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About This Item

NACRES:

NA.25

UNSPSC Code:

12352211

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Properties

biological source

bovine brain

Quality Level

200

type

Type I

form

powder

lipid type

phosphoglycerides

storage temp.

−20°C

Description

General description

Brain extract has lipids, especially polyunsaturated fatty acids (PUFAs) at high level. Extract from substantia niagra and the striatum has high amount of iron.

Application

Brain Extract from bovine brain has been used:

to prepare small unilamellar vesicles
in lipid binding assay
to aid the recovery of phosphoinositides and also to terminate the reaction in phosphatidylinositol 5-phosphate (PtdIns5P) and PtdIns4P assay
in liposome and protein self-aggregation assays

Biochem/physiol Actions

Brain lipids are involved in cellular signal transduction, membrane organization, trafficking protein modification, interactions and energy storage.

Packaging

Sealed ampule.

Other Notes

Contains phosphatidylinositol phosphatidylserine,other brain lipids.

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Storage Class

11 - Combustible Solids

wgk

WGK 3

flash_point_f

Not applicable

flash_point_c

Not applicable

ppe

Eyeshields, Gloves, type N95 (US)

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Certificates of Analysis (COA)

Lot/Batch Number

0000551575

0000474438

0000445695

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Structure and dynamics of helix-0 of the N-BAR domain in lipid micelles and bilayers

Low C, et al.

Biophysical Journal, 95(9), 4315-4323 (2008)

An unexpected INAD PDZ tandem-mediated plcβ binding in Drosophila photo receptors.

Fei Ye et al.

eLife, 7 (2018-12-12)

INAD assembles key enzymes of the Drosophila compound eye photo-transduction pathway into a supramolecular complex, supporting efficient and fast light signaling. However, the molecular mechanism that governs the interaction between INAD and NORPA (phospholipase Cβ, PLCβ), a key step for

Anionic Phospholipids Bind to and Modulate the Activity of Human TRESK Background K+ Channel.

Jonathan P Giblin et al.

Molecular neurobiology, 56(4), 2524-2541 (2018-07-25)

The background K+ channel TRESK regulates sensory neuron excitability, and changes in its function/expression contribute to neuronal hyperexcitability after injury/inflammation, making it an attractive therapeutic target for pain-related disorders. Factors that change lipid bilayer composition/properties (including volatile anesthetics, chloroform, chlorpromazine

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