The separation and identification of enolase isozymes of brain and sciatic nerve by high-pressure liquid anion-exchange chromatography

Andrew I. Soiefer; Matthew S. Miller; Mohammad I. Sabri; Peter S. Spencer

doi:10.1016/0006-8993(85)91375-7

The separation and identification of enolase isozymes of brain and sciatic nerve by high-pressure liquid anion-exchange chromatography

Andrew I. Soiefer, Matthew S. Miller, Mohammad I. Sabri, Peter S. Spencer

Research output: Contribution to journal › Article › peer-review

Abstract

A rapid technique for separating and quantitating the three enolase isozymes present in rodent brain and sciatic nerve was developed using high-pressure liquid anion-exchange chromatography. At pH 7.9, one cationic and two anionic enzyme forms were separated with baseline resolution in an imidazole buffer containing ethylenediaminetetraacetic acid (EDTA) and magnesium. The recovery of enolase activity was 90% or greater for brain and 85% for sciatic nerve. Chromatography of liver and axon-free (degenerated) sciatic nerve allowed the identification of non-neuronal, hybrid, and neuron-specific enolase isozymes. These enzyme forms, respectively, constituted 40%, 29% and 19% of total activity in brain, and 63%, 13% and 4% of total activity in normal sciatic nerve.

Original language	English (US)
Pages (from-to)	196-199
Number of pages	4
Journal	Brain research
Volume	342
Issue number	1
DOIs	https://doi.org/10.1016/0006-8993(85)91375-7
State	Published - Sep 2 1985
Externally published	Yes

Keywords

high-pressure liquid chromatography
neuron-specific enolase
rodent brain and sciatic nerve

ASJC Scopus subject areas

General Neuroscience
Molecular Biology
Clinical Neurology
Developmental Biology

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10.1016/0006-8993(85)91375-7

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title = "The separation and identification of enolase isozymes of brain and sciatic nerve by high-pressure liquid anion-exchange chromatography",

abstract = "A rapid technique for separating and quantitating the three enolase isozymes present in rodent brain and sciatic nerve was developed using high-pressure liquid anion-exchange chromatography. At pH 7.9, one cationic and two anionic enzyme forms were separated with baseline resolution in an imidazole buffer containing ethylenediaminetetraacetic acid (EDTA) and magnesium. The recovery of enolase activity was 90% or greater for brain and 85% for sciatic nerve. Chromatography of liver and axon-free (degenerated) sciatic nerve allowed the identification of non-neuronal, hybrid, and neuron-specific enolase isozymes. These enzyme forms, respectively, constituted 40%, 29% and 19% of total activity in brain, and 63%, 13% and 4% of total activity in normal sciatic nerve.",

keywords = "high-pressure liquid chromatography, neuron-specific enolase, rodent brain and sciatic nerve",

author = "Soiefer, {Andrew I.} and Miller, {Matthew S.} and Sabri, {Mohammad I.} and Spencer, {Peter S.}",

note = "Funding Information: This research was supported by NINCDS Training Grant 07183, NIOSH 00851 and NS 19611.",

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AU - Soiefer, Andrew I.

AU - Miller, Matthew S.

AU - Sabri, Mohammad I.

AU - Spencer, Peter S.

N1 - Funding Information: This research was supported by NINCDS Training Grant 07183, NIOSH 00851 and NS 19611.

PY - 1985/9/2

Y1 - 1985/9/2

N2 - A rapid technique for separating and quantitating the three enolase isozymes present in rodent brain and sciatic nerve was developed using high-pressure liquid anion-exchange chromatography. At pH 7.9, one cationic and two anionic enzyme forms were separated with baseline resolution in an imidazole buffer containing ethylenediaminetetraacetic acid (EDTA) and magnesium. The recovery of enolase activity was 90% or greater for brain and 85% for sciatic nerve. Chromatography of liver and axon-free (degenerated) sciatic nerve allowed the identification of non-neuronal, hybrid, and neuron-specific enolase isozymes. These enzyme forms, respectively, constituted 40%, 29% and 19% of total activity in brain, and 63%, 13% and 4% of total activity in normal sciatic nerve.

AB - A rapid technique for separating and quantitating the three enolase isozymes present in rodent brain and sciatic nerve was developed using high-pressure liquid anion-exchange chromatography. At pH 7.9, one cationic and two anionic enzyme forms were separated with baseline resolution in an imidazole buffer containing ethylenediaminetetraacetic acid (EDTA) and magnesium. The recovery of enolase activity was 90% or greater for brain and 85% for sciatic nerve. Chromatography of liver and axon-free (degenerated) sciatic nerve allowed the identification of non-neuronal, hybrid, and neuron-specific enolase isozymes. These enzyme forms, respectively, constituted 40%, 29% and 19% of total activity in brain, and 63%, 13% and 4% of total activity in normal sciatic nerve.

KW - high-pressure liquid chromatography

KW - neuron-specific enolase

KW - rodent brain and sciatic nerve

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The separation and identification of enolase isozymes of brain and sciatic nerve by high-pressure liquid anion-exchange chromatography

Abstract

Keywords

ASJC Scopus subject areas

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