Fast Proteolytic Digestion Coupled with Organelle Enrichment for Proteomic Analysis of Rat Liver

The use of an acid-labile surfactant as an alternative to urea denaturation allows for same-day proteolytic digestion and fast cleanup of cellular lysate samples. Homogenized rat liver tissue was separated into four fractions enriched in nuclei, mitochondria, microsomes (remaining organelles), and c...

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Veröffentlicht in:	Journal of proteome research 2004-05, Vol.3 (3), p.653-657
Hauptverfasser:	Arnold, Randy J, Hrncirova, Petra, Annaiah, Kiran, Novotny, Milos V
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Cell Nucleus - chemistry Chromatography, Liquid Cytosol - chemistry Liver Extracts - analysis Liver Extracts - chemistry Mass Spectrometry Microsomes - chemistry Mitochondria - chemistry Proteome Rats Subcellular Fractions - chemistry Surface-Active Agents - chemistry Trypsin - chemistry Urea - chemistry
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creator	Arnold, Randy J Hrncirova, Petra Annaiah, Kiran Novotny, Milos V
description	The use of an acid-labile surfactant as an alternative to urea denaturation allows for same-day proteolytic digestion and fast cleanup of cellular lysate samples. Homogenized rat liver tissue was separated into four fractions enriched in nuclei, mitochondria, microsomes (remaining organelles), and cytosol. Each subcellular fraction was then subjected to proteolytic digestion with trypsin for 2 h after denaturing with an acid-labile surfactant (ALS), separated by nanoflow reversed phase HPLC, and mass analyzed by tandem mass spectrometry in a 3-D ion trap. The results obtained from ALS denaturation for both organelle enrichment and whole cell lysate samples were comparable to those obtained from aliquots of the same samples treated by reduction, alkylation, and urea denaturation. Each method resulted in a similar number of peptides (694 for urea, 674 for ALS) and proteins (225 for urea, 229 for ALS) identified, with generally the same proteins (47% overlap) identified. As expected, organelle enrichment enabled the identification of more proteins (66% more with urea, 60% more with ALS) compared to a whole cell lysate. With organelle enrichment, the number of proteins with equal or increased sequence coverage went up by 73% with urea and 67% with ALS compared to the whole cell lysate. Additional information regarding the subcellular location of many proteins is obtained by organelle enrichment. While organelle enrichment is demonstrated with a bottom-up proteomics approach, it should be easily amenable to top-down proteomics approaches. Keywords: Proteomics • organelle enrichment • acid-labile surfactant • subcellular fractionation • proteolysis • nano-LC • tandem mass spectrometry • rat liver
doi_str_mv	10.1021/pr034110r
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Proteome Res</addtitle><description>The use of an acid-labile surfactant as an alternative to urea denaturation allows for same-day proteolytic digestion and fast cleanup of cellular lysate samples. Homogenized rat liver tissue was separated into four fractions enriched in nuclei, mitochondria, microsomes (remaining organelles), and cytosol. Each subcellular fraction was then subjected to proteolytic digestion with trypsin for 2 h after denaturing with an acid-labile surfactant (ALS), separated by nanoflow reversed phase HPLC, and mass analyzed by tandem mass spectrometry in a 3-D ion trap. The results obtained from ALS denaturation for both organelle enrichment and whole cell lysate samples were comparable to those obtained from aliquots of the same samples treated by reduction, alkylation, and urea denaturation. Each method resulted in a similar number of peptides (694 for urea, 674 for ALS) and proteins (225 for urea, 229 for ALS) identified, with generally the same proteins (47% overlap) identified. As expected, organelle enrichment enabled the identification of more proteins (66% more with urea, 60% more with ALS) compared to a whole cell lysate. With organelle enrichment, the number of proteins with equal or increased sequence coverage went up by 73% with urea and 67% with ALS compared to the whole cell lysate. Additional information regarding the subcellular location of many proteins is obtained by organelle enrichment. While organelle enrichment is demonstrated with a bottom-up proteomics approach, it should be easily amenable to top-down proteomics approaches. 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subjects	Animals Cell Nucleus - chemistry Chromatography, Liquid Cytosol - chemistry Liver Extracts - analysis Liver Extracts - chemistry Mass Spectrometry Microsomes - chemistry Mitochondria - chemistry Proteome Rats Subcellular Fractions - chemistry Surface-Active Agents - chemistry Trypsin - chemistry Urea - chemistry
title	Fast Proteolytic Digestion Coupled with Organelle Enrichment for Proteomic Analysis of Rat Liver
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