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1.
Proteomics ; 1(5): 705-20, 2001 May.
Article in English | MEDLINE | ID: mdl-11678040

ABSTRACT

Caulobacter crescentus, a Gram negative alpha-purple bacterium that displays an invariant asymmetric cell division pattern, has become a key model system for the study of bacterial development. Membrane proteins play key roles in cell cycle events, both as components of landmark morphological structures and as critical elements in regulation of the cell cycle. Recent advances for the isolation and solubilization of bacterial membrane proteins prior to isoelectric focusing have significantly improved the separation of outer membrane proteins by two-dimensional (2-D) electrophoresis. In this work we describe the analysis of the outer membrane proteome of Caulobacter crescentus. Proteins were identified using 2-D gel electrophoresis and peptide mass fingerprinting by matrix-assisted laser desorption/ionization-time of flight mass spectrometry. We identified 54 unique proteins out of which 41 were outer membrane proteins. Of the outer membrane proteins, 16 were identified as TonB-dependent receptor proteins. These studies were executed simultaneously with the Caulobacter genome sequencing project and advantages and limitations of proteomic analysis of a nonannotated genome are discussed. Finally, protein levels between cells grown in rich and minimal media are compared which demonstrates that many of the TonB-dependent receptor proteins are found at higher levels in minimal medium.


Subject(s)
Bacterial Outer Membrane Proteins/analysis , Caulobacter crescentus/chemistry , Electrophoresis, Gel, Two-Dimensional/methods , Proteome , Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization/methods , Amino Acid Sequence , Caulobacter crescentus/growth & development , Culture Media , Genes, Bacterial , Genome, Bacterial , Molecular Sequence Data , Open Reading Frames , Sequence Analysis, Protein
2.
Electrophoresis ; 22(9): 1686-96, 2001 May.
Article in English | MEDLINE | ID: mdl-11425224

ABSTRACT

Many bacterial outer membrane proteins (OMPs) are missing from two-dimensional (2-D) gel proteome maps. Recently, we developed a technique for 2-D electrophoresis (2-DE) of Escherichia coli OMPs using alkaline pH incubation for isolation of OMPs, followed by improved solubilization conditions for array by 2-DE using immobilized pH gradients. In this report, we expanded our study, examining protein components from the outer membranes of two enteric bacteria, Salmonella typhimurium and Klebsiella pneumoniae (also known as Klebsiella aerogenes), as well as the unrelated, free-living alpha-proteobacteria Caulobacter crescentus. Patterns of OMPs expression appeared remarkably conserved between members of the Enterobacteriaceae, while C. crescentus was unique, displaying a greater number of clusters of higher-molecular-weight proteins (>80 kDa). Peptide mass fingerprinting (PMF) was used for protein identification, and despite matching across-species boundaries, proved useful for first-pass protein assignment of enteric OMPs. In contrast, identification of C. crescentus OMPs was successful only when searching against its recently completed genome. For all three microorganisms examined, the majority of proteins identified on the 2-D gel appear localized to the outer membrane, a result consistent with our previous finding in Escherichia coli. In addition, we discuss some of the benefits and limitations of PMF in cross-species searching.


Subject(s)
Bacterial Outer Membrane Proteins/analysis , Bacterial Outer Membrane Proteins/chemistry , Electrophoresis, Gel, Two-Dimensional/methods , Peptide Mapping/methods
3.
Proc Natl Acad Sci U S A ; 98(7): 4136-41, 2001 Mar 27.
Article in English | MEDLINE | ID: mdl-11259647

ABSTRACT

The complete genome sequence of Caulobacter crescentus was determined to be 4,016,942 base pairs in a single circular chromosome encoding 3,767 genes. This organism, which grows in a dilute aquatic environment, coordinates the cell division cycle and multiple cell differentiation events. With the annotated genome sequence, a full description of the genetic network that controls bacterial differentiation, cell growth, and cell cycle progression is within reach. Two-component signal transduction proteins are known to play a significant role in cell cycle progression. Genome analysis revealed that the C. crescentus genome encodes a significantly higher number of these signaling proteins (105) than any bacterial genome sequenced thus far. Another regulatory mechanism involved in cell cycle progression is DNA methylation. The occurrence of the recognition sequence for an essential DNA methylating enzyme that is required for cell cycle regulation is severely limited and shows a bias to intergenic regions. The genome contains multiple clusters of genes encoding proteins essential for survival in a nutrient poor habitat. Included are those involved in chemotaxis, outer membrane channel function, degradation of aromatic ring compounds, and the breakdown of plant-derived carbon sources, in addition to many extracytoplasmic function sigma factors, providing the organism with the ability to respond to a wide range of environmental fluctuations. C. crescentus is, to our knowledge, the first free-living alpha-class proteobacterium to be sequenced and will serve as a foundation for exploring the biology of this group of bacteria, which includes the obligate endosymbiont and human pathogen Rickettsia prowazekii, the plant pathogen Agrobacterium tumefaciens, and the bovine and human pathogen Brucella abortus.


Subject(s)
Caulobacter crescentus/genetics , Genome, Bacterial , Adaptation, Biological/genetics , Cell Cycle/genetics , DNA Methylation , Dinucleotide Repeats , Molecular Sequence Data , Peptide Hydrolases/genetics , Phylogeny , Signal Transduction , Transcription, Genetic
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