Proteomic profile of dormant Trichophyton rubrum conidia

Trichophyton rubrum is the most common dermatophyte causing fungal skin infections in humans. Asexual sporulation is an important means of propagation for T. rubrum, and conidia produced by this way are thought to be the primary cause of human infections. Despite their importance in pathogenesis, th...

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Bibliographic Details
Published in:BMC genomics 2008-06, Vol.9 (1), p.303-303, Article 303
Main Authors: Leng, Wenchuan, Liu, Tao, Li, Rui, Yang, Jian, Wei, Candong, Zhang, Wenliang, Jin, Qi
Format: Article
Language:English
Subjects:
Care and treatment
Cell Wall - genetics
Cell Wall - metabolism
Databases, Protein
Dermatophytes
Fungal Proteins - genetics
Fungal Proteins - metabolism
Gene Expression Profiling
Genetic aspects
Humans
Infectious skin diseases
Physiological aspects
Protein Array Analysis
Proteome
Proteomics
Risk factors
Signal Transduction
Spores, Fungal - genetics
Spores, Fungal - metabolism
Tinea - microbiology
Trichophyton - genetics
Trichophyton - metabolism
Trichophyton - pathogenicity
Trichophyton rubrum
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Summary:Trichophyton rubrum is the most common dermatophyte causing fungal skin infections in humans. Asexual sporulation is an important means of propagation for T. rubrum, and conidia produced by this way are thought to be the primary cause of human infections. Despite their importance in pathogenesis, the conidia of T. rubrum remain understudied. We intend to intensively investigate the proteome of dormant T. rubrum conidia to characterize its molecular and cellular features and to enhance the development of novel therapeutic strategies. The proteome of T. rubrum conidia was analyzed by combining shotgun proteomics with sample prefractionation and multiple enzyme digestion. In total, 1026 proteins were identified. All identified proteins were compared to those in the NCBI non-redundant protein database, the eukaryotic orthologous groups database, and the gene ontology database to obtain functional annotation information. Functional classification revealed that the identified proteins covered nearly all major biological processes. Some proteins were spore specific and related to the survival and dispersal of T. rubrum conidia, and many proteins were important to conidial germination and response to environmental conditions. Our results suggest that the proteome of T. rubrum conidia is considerably complex, and that the maintenance of conidial dormancy is an intricate and elaborate process. This data set provides the first global framework for the dormant T. rubrum conidia proteome and is a stepping stone on the way to further study of the molecular mechanisms of T. rubrum conidial germination and the maintenance of conidial dormancy.
ISSN:1471-2164
1471-2164
DOI:10.1186/1471-2164-9-303