Protein chimerism: Novel source of protein diversity in humans adds complexity to bottom-up proteomics

Three main molecular mechanisms are considered to contribute expanding the repertoire and diversity of proteins present in living organisms: first, at DNA level (gene polymorphisms and single nucleotide polymorphisms); second, at messenger RNA (pre‐mRNA and mRNA) level including alternative splicing...

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Bibliographic Details
Published in:Proteomics (Weinheim) 2013-01, Vol.13 (1), p.5-11
Main Authors: Casado-Vela, Juan, Lacal, Juan Carlos, Elortza, Felix
Format: Article
Language:English
Subjects:
Analytical, structural and metabolic biochemistry
Bcr-Abl
Biological and medical sciences
Biomedicine
Chimeric proteins
Chimerotypic peptides
Fundamental and applied biological sciences. Psychology
Fusion Proteins, bcr-abl - classification
Fusion Proteins, bcr-abl - genetics
Gene expression
Genetic Variation
Genetics
Humans
Junction peptides
Miscellaneous
Mutant Chimeric Proteins - chemistry
Mutant Chimeric Proteins - genetics
Polymorphism, Single Nucleotide
Protein diversity
Proteins
Proteins - chemistry
Proteins - genetics
Proteins - metabolism
Proteomics
RNA Precursors - genetics
RNA, Messenger - genetics
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Summary:Three main molecular mechanisms are considered to contribute expanding the repertoire and diversity of proteins present in living organisms: first, at DNA level (gene polymorphisms and single nucleotide polymorphisms); second, at messenger RNA (pre‐mRNA and mRNA) level including alternative splicing (also termed differential splicing or cis‐splicing); finally, at the protein level mainly driven through PTM and specific proteolytic cleavages. Chimeric mRNAs constitute an alternative source of protein diversity, which can be generated either by chromosomal translocations or by trans‐splicing events. The occurrence of chimeric mRNAs and proteins is a frequent event in cells from the immune system and cancer cells, mainly as a consequence of gene rearrangements. Recent reports support that chimeric proteins may also be expressed at low levels under normal physiological circumstances, thus, representing a novel source of protein diversity. Notably, recent publications demonstrate that chimeric protein products can be successfully identified through bottom‐up proteomic analyses. Several questions remain unsolved, such as the physiological role and impact of such chimeric proteins or the potential occurrence of chimeric proteins in higher eukaryotic organisms different from humans. The occurrence of chimeric proteins certainly seems to be another unforeseen source of complexity for the proteome. It may be a process to take in mind not only when performing bottom‐up proteomic analyses in cancer studies but also in general bottom‐up proteomics experiments.
ISSN:1615-9853
1615-9861
DOI:10.1002/pmic.201200371