Microheterogeneity of human filaggrin: analysis of a complex peptide mixture using mass spectrometry. |
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| Authors: | C. D. Thulin J. A. Taylor K. A. Walsh |
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| Affiliation: | Department of Biochemistry, University of Washington, Seattle 98195, USA. |
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| Abstract: | Filaggrin is the product of posttranslational processing of the large, epidermal protein profilaggrin, which consists of 10 or more tandem filaggrin domains plus an amino and a carboxyl domain. According to fragmentary cDNA sequences, the filaggrin domains in the human protein vary at 40% of the amino acid positions; hence, mature filaggrin is a population of homologous but heterogeneous proteins, even within one individual. Available gene sequences give only a limited picture of the heterogeneity of human filaggrin protein because no complete human profilaggrin gene has been sequenced. Questions about the extent of heterogeneity of filaggrin within and between individuals have not been answered, nor have questions concerning the limited proteolytic cleavage of human profilaggrin that generates filaggrin in vivo. In order to address these questions and to provide an analysis of the primary structure of human filaggrins, we employed various methods of mass spectrometry. The intact protein and a tryptic digest of the mixture of human filaggrins were examined by matrix-assisted laser desorption time-of-flight mass spectrometry. Tryptic digests of human filaggrin from single individuals were also separated and analyzed by liquid chromatography/mass spectrometry (LC/MS) (using electrospray mass spectrometry), and specific peptides were identified by tandem mass spectrometry (MS/MS). A robust data analysis program, Sherpa, was developed to facilitate the interpretation of both LC/MS and MS/MS. These experiments show that human filaggrin includes heterogeneity not yet seen in cDNA sequences, but that much structure is highly conserved. Interestingly, we found that the heterogeneity is conserved among individuals. An approximation of the regions linking filaggrins in human profilaggrin is developed. These investigations provide a unique test of the limits of tryptic mapping of complex mixtures using mass spectrometry. |
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