YcdB from Escherichia coli Reveals a Novel Class of Tat-dependently Translocated Hemoproteins

The Tat (twin-arginine translocation) system of Escherichia coli serves to translocate folded proteins across the cytoplasmic membrane. The reasons established so far for the Tat dependence are cytoplasmic cofactor assembly and/or heterodimerization of the respective proteins. We were interested in...

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Veröffentlicht in:	The Journal of biological chemistry 2006-05, Vol.281 (20), p.13972-13978
Hauptverfasser:	Sturm, Alexander, Schierhorn, Angelika, Lindenstrauss, Ute, Lilie, Hauke, Brüser, Thomas
Format:	Artikel
Sprache:	eng
Schlagworte:	Amino Acid Sequence Cytoplasm - metabolism Dimerization Escherichia coli Escherichia coli - metabolism Escherichia coli Proteins - chemistry Escherichia coli Proteins - genetics Escherichia coli Proteins - metabolism Escherichia coli Proteins - physiology Fungal Proteins - chemistry Heme - chemistry Hemeproteins - chemistry Hemeproteins - genetics Hemeproteins - physiology Membrane Transport Proteins - chemistry Molecular Sequence Data Peroxidases - chemistry Peroxidases - metabolism Plasmids - metabolism Protein Structure, Tertiary Protein Transport Sequence Homology, Amino Acid
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container_end_page	13978
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container_title	The Journal of biological chemistry
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creator	Sturm, Alexander Schierhorn, Angelika Lindenstrauss, Ute Lilie, Hauke Brüser, Thomas
description	The Tat (twin-arginine translocation) system of Escherichia coli serves to translocate folded proteins across the cytoplasmic membrane. The reasons established so far for the Tat dependence are cytoplasmic cofactor assembly and/or heterodimerization of the respective proteins. We were interested in the reasons for the Tat dependence of novel Tat substrates and focused on two uncharacterized proteins, YcdO and YcdB. Both proteins contain predicted Tat signal sequences. However, we found that only YcdB was indeed Tat-dependently translocated, whereas YcdO was equally well translocated in a Tat-deficient strain. YcdB is a dimeric protein and contains a heme cofactor that was identified to be a high-spin FeIII-protoporphyrin IX complex. In contrast to all other periplasmic hemoproteins analyzed so far, heme was assembled into YcdB in the cytoplasm, suggesting that heme assembly could take place prior to translocation. The function of YcdB in the periplasm may be related to a detoxification reaction under specific conditions because YcdB had peroxidase activity at acidic pH, which coincides well with the known acid-induced expression of the gene. The data demonstrate the existence of a class of heme-containing Tat substrates, the first member of which is YcdB.
doi_str_mv	10.1074/jbc.M511891200
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The reasons established so far for the Tat dependence are cytoplasmic cofactor assembly and/or heterodimerization of the respective proteins. We were interested in the reasons for the Tat dependence of novel Tat substrates and focused on two uncharacterized proteins, YcdO and YcdB. Both proteins contain predicted Tat signal sequences. However, we found that only YcdB was indeed Tat-dependently translocated, whereas YcdO was equally well translocated in a Tat-deficient strain. YcdB is a dimeric protein and contains a heme cofactor that was identified to be a high-spin FeIII-protoporphyrin IX complex. In contrast to all other periplasmic hemoproteins analyzed so far, heme was assembled into YcdB in the cytoplasm, suggesting that heme assembly could take place prior to translocation. The function of YcdB in the periplasm may be related to a detoxification reaction under specific conditions because YcdB had peroxidase activity at acidic pH, which coincides well with the known acid-induced expression of the gene. 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The function of YcdB in the periplasm may be related to a detoxification reaction under specific conditions because YcdB had peroxidase activity at acidic pH, which coincides well with the known acid-induced expression of the gene. 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subjects	Amino Acid Sequence Cytoplasm - metabolism Dimerization Escherichia coli Escherichia coli - metabolism Escherichia coli Proteins - chemistry Escherichia coli Proteins - genetics Escherichia coli Proteins - metabolism Escherichia coli Proteins - physiology Fungal Proteins - chemistry Heme - chemistry Hemeproteins - chemistry Hemeproteins - genetics Hemeproteins - physiology Membrane Transport Proteins - chemistry Molecular Sequence Data Peroxidases - chemistry Peroxidases - metabolism Plasmids - metabolism Protein Structure, Tertiary Protein Transport Sequence Homology, Amino Acid
title	YcdB from Escherichia coli Reveals a Novel Class of Tat-dependently Translocated Hemoproteins
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