Composition of the mitochondrial electron transport chain in Acanthamoeba castellanii: Structural and evolutionary insights

The mitochondrion, derived in evolution from an α-proteobacterial progenitor, plays a key metabolic role in eukaryotes. Mitochondria house the electron transport chain (ETC) that couples oxidation of organic substrates and electron transfer to proton pumping and synthesis of ATP. The ETC comprises s...

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Published inBiochimica et biophysica acta Vol. 1817; no. 11; pp. 2027 - 2037
Main Authors Gawryluk, Ryan M.R., Chisholm, Kenneth A., Pinto, Devanand M., Gray, Michael W.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.11.2012
Subjects
Acanthamoeba castellanii
Acanthamoeba castellanii - genetics
Acanthamoeba castellanii - metabolism
adenosine triphosphate
Amino Acid Sequence
animals
bacteria
bioinformatics
Computational Biology
electron transfer
Electron Transport
Electron transport chain
Electron Transport Chain Complex Proteins - analysis
Electron Transport Chain Complex Proteins - chemistry
Electron Transport Chain Complex Proteins - physiology
Electron Transport Complex I - analysis
Electron Transport Complex I - chemistry
Electron Transport Complex I - physiology
Electron Transport Complex II - analysis
Electron Transport Complex II - physiology
Electron Transport Complex III - analysis
Electron Transport Complex III - physiology
Electron Transport Complex IV - analysis
Electron Transport Complex IV - physiology
eukaryotic cells
Evolution, Molecular
fungi
Mass spectrometry
mitochondria
Mitochondria - metabolism
Mitochondrion
Molecular Sequence Data
oxidation
phylogeny
plants (botany)
polyacrylamide gel electrophoresis
proteins
Proteome
Protist
Mitochondrion
Electron transport chain
Mass spectrometry
Protist
Online AccessGet full text

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Abstract The mitochondrion, derived in evolution from an α-proteobacterial progenitor, plays a key metabolic role in eukaryotes. Mitochondria house the electron transport chain (ETC) that couples oxidation of organic substrates and electron transfer to proton pumping and synthesis of ATP. The ETC comprises several multiprotein enzyme complexes, all of which have counterparts in bacteria. However, mitochondrial ETC assemblies from animals, plants and fungi are generally more complex than their bacterial counterparts, with a number of ‘supernumerary’ subunits appearing early in eukaryotic evolution. Little is known, however, about the ETC of unicellular eukaryotes (protists), which are key to understanding the evolution of mitochondria and the ETC. We present an analysis of the ETC proteome from Acanthamoeba castellanii, an ecologically, medically and evolutionarily important member of Amoebozoa (sister to Opisthokonta). Data obtained from tandem mass spectrometric (MS/MS) analyses of purified mitochondria as well as ETC complexes isolated via blue native polyacrylamide gel electrophoresis are combined with the results of bioinformatic queries of sequence databases. Our bioinformatic analyses have identified most of the ETC subunits found in other eukaryotes, confirming and extending previous observations. The assignment of proteins as ETC subunits by MS/MS provides important insights into the primary structures of ETC proteins and makes possible, through the use of sensitive profile-based similarity searches, the identification of novel constituents of the ETC along with the annotation of highly divergent but phylogenetically conserved ETC subunits. ► We studied in detail the electron transport chain (ETC) of Acanthamoeba castellanii. ► This is the first broad proteomic analysis of the ETC for a member of Amoebozoa. ► We used profile-based bioinformatics to annotate divergent ETC subunits. ► We identified several novel subunits in the highly stable dimeric ATP synthase. ► Proteomic analysis confirmed novel structural features of several ETC proteins.
AbstractList The mitochondrion, derived in evolution from an α-proteobacterial progenitor, plays a key metabolic role in eukaryotes. Mitochondria house the electron transport chain (ETC) that couples oxidation of organic substrates and electron transfer to proton pumping and synthesis of ATP. The ETC comprises several multiprotein enzyme complexes, all of which have counterparts in bacteria. However, mitochondrial ETC assemblies from animals, plants and fungi are generally more complex than their bacterial counterparts, with a number of ‘supernumerary’ subunits appearing early in eukaryotic evolution. Little is known, however, about the ETC of unicellular eukaryotes (protists), which are key to understanding the evolution of mitochondria and the ETC. We present an analysis of the ETC proteome from Acanthamoeba castellanii, an ecologically, medically and evolutionarily important member of Amoebozoa (sister to Opisthokonta). Data obtained from tandem mass spectrometric (MS/MS) analyses of purified mitochondria as well as ETC complexes isolated via blue native polyacrylamide gel electrophoresis are combined with the results of bioinformatic queries of sequence databases. Our bioinformatic analyses have identified most of the ETC subunits found in other eukaryotes, confirming and extending previous observations. The assignment of proteins as ETC subunits by MS/MS provides important insights into the primary structures of ETC proteins and makes possible, through the use of sensitive profile-based similarity searches, the identification of novel constituents of the ETC along with the annotation of highly divergent but phylogenetically conserved ETC subunits.
The mitochondrion, derived in evolution from an α-proteobacterial progenitor, plays a key metabolic role in eukaryotes. Mitochondria house the electron transport chain (ETC) that couples oxidation of organic substrates and electron transfer to proton pumping and synthesis of ATP. The ETC comprises several multiprotein enzyme complexes, all of which have counterparts in bacteria. However, mitochondrial ETC assemblies from animals, plants and fungi are generally more complex than their bacterial counterparts, with a number of 'supernumerary' subunits appearing early in eukaryotic evolution. Little is known, however, about the ETC of unicellular eukaryotes (protists), which are key to understanding the evolution of mitochondria and the ETC. We present an analysis of the ETC proteome from Acanthamoeba castellanii, an ecologically, medically and evolutionarily important member of Amoebozoa (sister to Opisthokonta). Data obtained from tandem mass spectrometric (MS/MS) analyses of purified mitochondria as well as ETC complexes isolated via blue native polyacrylamide gel electrophoresis are combined with the results of bioinformatic queries of sequence databases. Our bioinformatic analyses have identified most of the ETC subunits found in other eukaryotes, confirming and extending previous observations. The assignment of proteins as ETC subunits by MS/MS provides important insights into the primary structures of ETC proteins and makes possible, through the use of sensitive profile-based similarity searches, the identification of novel constituents of the ETC along with the annotation of highly divergent but phylogenetically conserved ETC subunits.The mitochondrion, derived in evolution from an α-proteobacterial progenitor, plays a key metabolic role in eukaryotes. Mitochondria house the electron transport chain (ETC) that couples oxidation of organic substrates and electron transfer to proton pumping and synthesis of ATP. The ETC comprises several multiprotein enzyme complexes, all of which have counterparts in bacteria. However, mitochondrial ETC assemblies from animals, plants and fungi are generally more complex than their bacterial counterparts, with a number of 'supernumerary' subunits appearing early in eukaryotic evolution. Little is known, however, about the ETC of unicellular eukaryotes (protists), which are key to understanding the evolution of mitochondria and the ETC. We present an analysis of the ETC proteome from Acanthamoeba castellanii, an ecologically, medically and evolutionarily important member of Amoebozoa (sister to Opisthokonta). Data obtained from tandem mass spectrometric (MS/MS) analyses of purified mitochondria as well as ETC complexes isolated via blue native polyacrylamide gel electrophoresis are combined with the results of bioinformatic queries of sequence databases. Our bioinformatic analyses have identified most of the ETC subunits found in other eukaryotes, confirming and extending previous observations. The assignment of proteins as ETC subunits by MS/MS provides important insights into the primary structures of ETC proteins and makes possible, through the use of sensitive profile-based similarity searches, the identification of novel constituents of the ETC along with the annotation of highly divergent but phylogenetically conserved ETC subunits.
The mitochondrion, derived in evolution from an α-proteobacterial progenitor, plays a key metabolic role in eukaryotes. Mitochondria house the electron transport chain (ETC) that couples oxidation of organic substrates and electron transfer to proton pumping and synthesis of ATP. The ETC comprises several multiprotein enzyme complexes, all of which have counterparts in bacteria. However, mitochondrial ETC assemblies from animals, plants and fungi are generally more complex than their bacterial counterparts, with a number of ‘supernumerary’ subunits appearing early in eukaryotic evolution. Little is known, however, about the ETC of unicellular eukaryotes (protists), which are key to understanding the evolution of mitochondria and the ETC. We present an analysis of the ETC proteome from Acanthamoeba castellanii, an ecologically, medically and evolutionarily important member of Amoebozoa (sister to Opisthokonta). Data obtained from tandem mass spectrometric (MS/MS) analyses of purified mitochondria as well as ETC complexes isolated via blue native polyacrylamide gel electrophoresis are combined with the results of bioinformatic queries of sequence databases. Our bioinformatic analyses have identified most of the ETC subunits found in other eukaryotes, confirming and extending previous observations. The assignment of proteins as ETC subunits by MS/MS provides important insights into the primary structures of ETC proteins and makes possible, through the use of sensitive profile-based similarity searches, the identification of novel constituents of the ETC along with the annotation of highly divergent but phylogenetically conserved ETC subunits. ► We studied in detail the electron transport chain (ETC) of Acanthamoeba castellanii. ► This is the first broad proteomic analysis of the ETC for a member of Amoebozoa. ► We used profile-based bioinformatics to annotate divergent ETC subunits. ► We identified several novel subunits in the highly stable dimeric ATP synthase. ► Proteomic analysis confirmed novel structural features of several ETC proteins.
Author Gray, Michael W.
Chisholm, Kenneth A.
Gawryluk, Ryan M.R.
Pinto, Devanand M.
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Snippet The mitochondrion, derived in evolution from an α-proteobacterial progenitor, plays a key metabolic role in eukaryotes. Mitochondria house the electron...
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SubjectTerms Acanthamoeba castellanii
Acanthamoeba castellanii - genetics
Acanthamoeba castellanii - metabolism
adenosine triphosphate
Amino Acid Sequence
animals
bacteria
bioinformatics
Computational Biology
electron transfer
Electron Transport
Electron transport chain
Electron Transport Chain Complex Proteins - analysis
Electron Transport Chain Complex Proteins - chemistry
Electron Transport Chain Complex Proteins - physiology
Electron Transport Complex I - analysis
Electron Transport Complex I - chemistry
Electron Transport Complex I - physiology
Electron Transport Complex II - analysis
Electron Transport Complex II - physiology
Electron Transport Complex III - analysis
Electron Transport Complex III - physiology
Electron Transport Complex IV - analysis
Electron Transport Complex IV - physiology
eukaryotic cells
Evolution, Molecular
fungi
Mass spectrometry
mitochondria
Mitochondria - metabolism
Mitochondrion
Molecular Sequence Data
oxidation
phylogeny
plants (botany)
polyacrylamide gel electrophoresis
proteins
Proteome
Protist
Title Composition of the mitochondrial electron transport chain in Acanthamoeba castellanii: Structural and evolutionary insights
URI https://dx.doi.org/10.1016/j.bbabio.2012.06.005
https://www.ncbi.nlm.nih.gov/pubmed/22709906
https://www.proquest.com/docview/1038068813
https://www.proquest.com/docview/2000053840
Volume 1817
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