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1.
Nucleic Acids Res ; 32(8): 2353-61, 2004.
Article in English | MEDLINE | ID: mdl-15121896

ABSTRACT

The progress in genome sequencing has led to a rapid accumulation in GenBank submissions of uncharacterized 'hypothetical' genes. These genes, which have not been experimentally characterized and whose functions cannot be deduced from simple sequence comparisons alone, now comprise a significant fraction of the public databases. Expression analyses of Haemophilus influenzae cells using a combination of transcriptomic and proteomic approaches resulted in confident identification of 54 'hypothetical' genes that were expressed in cells under normal growth conditions. In an attempt to understand the functions of these proteins, we used a variety of publicly available analysis tools. Close homologs in other species were detected for each of the 54 'hypothetical' genes. For 16 of them, exact functional assignments could be found in one or more public databases. Additionally, we were able to suggest general functional characterization for 27 more genes (comprising approximately 80% total). Findings from this analysis include the identification of a pyruvate-formate lyase-like operon, likely to be expressed not only in H.influenzae but also in several other bacteria. Further, we also observed three genes that are likely to participate in the transport and/or metabolism of sialic acid, an important component of the H.influenzae lipo-oligosaccharide. Accurate functional annotation of uncharacterized genes calls for an integrative approach, combining expression studies with extensive computational analysis and curation, followed by eventual experimental verification of the computational predictions.


Subject(s)
Genes, Bacterial , Haemophilus influenzae/genetics , Amino Acid Sequence , Bacterial Proteins/genetics , Bacterial Proteins/physiology , Computational Biology , Databases, Genetic , Gene Expression , Genome, Bacterial , Genomics , Haemophilus influenzae/classification , Haemophilus influenzae/metabolism , Molecular Sequence Data , Phylogeny , Proteome/metabolism , Sequence Alignment , Sequence Analysis
2.
OMICS ; 8(1): 25-41, 2004.
Article in English | MEDLINE | ID: mdl-15107235

ABSTRACT

The intermediary metabolism of Haemophilus influenzae strain Rd KW20 was studied by a combination of protein expression analysis using a recently developed direct proteomics approach, mutational analysis, and mathematical modeling. Special emphasis was placed on carbon utilization, sugar fermentation, TCA cycle, and electron transport of H. influenzae cells grown microaerobically and anaerobically in a rich medium. The data indicate that several H. influenzae metabolic proteins similar to Escherichia coli proteins, known to be regulated by low concentrations of oxygen, were well expressed in both growth conditions in H. influenzae. An in silico model of the H. influenzae metabolic network was used to study the effects of selective deletion of certain enzymatic steps. This allowed us to define proteins predicted to be essential or non-essential for cell growth and to address numerous unresolved questions about intermediary metabolism of H. influenzae. Comparison of data from in vivo protein expression with the protein list associated with a genome-scale metabolic model showed significant coverage of the known metabolic proteome. This study demonstrates the significance of an integrated approach to the characterization of H. influenzae metabolism.


Subject(s)
Haemophilus influenzae/metabolism , Biochemistry/methods , Carbohydrate Metabolism , Carbon/metabolism , Cell Division , Culture Media , DNA Mutational Analysis , Electron Transport , Electrons , Escherichia coli/metabolism , Fermentation , Models, Biological , Models, Theoretical , Oxygen/metabolism , Protein Array Analysis , Proteome , Proteomics/methods , Tricarboxylic Acids/metabolism
3.
J Bacteriol ; 185(15): 4593-602, 2003 Aug.
Article in English | MEDLINE | ID: mdl-12867470

ABSTRACT

The proteome of Haemophilus influenzae strain Rd KW20 was analyzed by liquid chromatography (LC) coupled with ion trap tandem mass spectrometry (MS/MS). This approach does not require a gel electrophoresis step and provides a rapidly developed snapshot of the proteome. In order to gain insight into the central metabolism of H. influenzae, cells were grown microaerobically and anaerobically in a rich medium and soluble and membrane proteins of strain Rd KW20 were proteolyzed with trypsin and directly examined by LC-MS/MS. Several different experimental and computational approaches were utilized to optimize the proteome coverage and to ensure statistically valid protein identification. Approximately 25% of all predicted proteins (open reading frames) of H. influenzae strain Rd KW20 were identified with high confidence, as their component peptides were unambiguously assigned to tandem mass spectra. Approximately 80% of the predicted ribosomal proteins were identified with high confidence, compared to the 33% of the predicted ribosomal proteins detected by previous two-dimensional gel electrophoresis studies. The results obtained in this study are generally consistent with those obtained from computational genome analysis, two-dimensional gel electrophoresis, and whole-genome transposon mutagenesis studies. At least 15 genes originally annotated as conserved hypothetical were found to encode expressed proteins. Two more proteins, previously annotated as predicted coding regions, were detected with high confidence; these proteins also have close homologs in related bacteria. The direct proteomics approach to studying protein expression in vivo reported here is a powerful method that is applicable to proteome analysis of any (micro)organism.


Subject(s)
Bacterial Proteins/analysis , Haemophilus influenzae/chemistry , Proteome , Aerobiosis , Anaerobiosis , Animals , Bacterial Proteins/genetics , Bacterial Proteins/metabolism , Cattle , Chromatography, Liquid , Gene Expression Regulation, Bacterial , Haemophilus influenzae/genetics , Haemophilus influenzae/growth & development , Humans , Rabbits , Sensitivity and Specificity , Spectrometry, Mass, Electrospray Ionization , Trypsin
4.
OMICS ; 6(4): 341-8, 2002.
Article in English | MEDLINE | ID: mdl-12626093

ABSTRACT

Developments in high-throughput analysis tools coupled with integrative computational techniques have enabled biological studies to reach new levels. The ability to correlate large volumes of diverse data types into cohesive models of organism function has spawned a new systematic approach to biological investigation. The creation of a new consortium has been proposed to investigate a single organism utilizing these comprehensive approaches. The Haemophilus influenzae Consortium (HIC) would be comprised of five laboratories, each providing separate and complementary areas of expertise in the study of Haemophilus influenzae (HI). The 5-year study proposes to develop coherent models of HI, both as a stand-alone organism, and more importantly, as a human pathogen. Studies in growth condition specificity followed by genomic, metabolic, and proteomic experimentation will be combined and integrated through computational and experimental analyses to form dynamic and predictive models of HI and its responses. Data from the HIC will allow greater understanding of cellular behavior, pathogen-host interactions, bacterial infection, and provide future scientific endeavors with a template for studies of other pathogens.


Subject(s)
Bacterial Infections , Bacterial Physiological Phenomena , Genome, Bacterial , Haemophilus influenzae/genetics , Haemophilus influenzae/pathogenicity , Research/organization & administration , Bacterial Adhesion , Humans , Oligonucleotide Array Sequence Analysis , Software
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