Transformer protein

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A transformer protein (TFP) also known as a metamorphic protein is a protein that can interconvert between two or more shapes (also known as folds) each having a different function.[1][2]

The fold of a protein is defined by how the two-dimensional linear protein polypeptide folds up into a three-dimensional structure. Most proteins adopt a single stable fold. But some proteins have marginal structural stability and can rapidly interconvert between two or more folds.[2] Protein structures in a given environment were thought to be defined completely by their amino acid sequence.[3] These protein structures are usually related to one single physiological protein activity. This hypothesis was, however, challenged by observations that proteins could fold in two alternative conformations, such as the prion proteins which exist in a physiologically active cellular form and an insoluble form.[4]

It has been estimated that up to four percent of proteins may have this fold chaining property.[2] Examples of metamorphic proteins include XCL1, RfaH, and KaiB.[2]

RfaH

Extending the concept of a protein that exists in a soluble and an insoluble form, for the bacterial transcription factor RfaH two entirely different structures were observed to coexist in solution.[5] RfaH is a two-domain protein, the C-terminal domain (CTD) of which can fold into alpha-helical and, alternatively, into beta-barrel form. These two interconvertible structures have two different functions, in alpha-helix form the CTD inhibits binding of the N-terminal domain to the RNA-polymerase, whereas the beta-barrel form recruits ribosomes. RfaH is thus the first member of the transformer protein class which obviously violates the original 'one sequence - one structure - one function' suggestion that governed protein research for decades . [6][7][8]

See also

References

  1. ^ Caldwell E (19 July 2012). "Like a Transformer? Protein Unfolds and Refolds for New Function". researchnews.osu.edu. Archived from the original on 26 July 2012. Retrieved 14 September 2012.
  2. ^ a b c d Dishman AF, Volkman BF (June 2022). "Design and discovery of metamorphic proteins". Current Opinion in Structural Biology. 74: 102380. doi:10.1016/j.sbi.2022.102380. PMC 9664977. PMID 35561475.
  3. ^ Anfinsen CB, Redfield RR, Choate WL, Page J, Carroll WR (March 1954). "Studies on the gross structure, cross-linkages, and terminal sequences in ribonuclease". The Journal of Biological Chemistry. 207 (1): 201–210. doi:10.1016/S0021-9258(18)71260-X. PMID 13152095.
  4. ^ Prusiner SB, Scott MR, DeArmond SJ, Cohen FE (May 1998). "Prion protein biology". Cell. 93 (3): 337–348. doi:10.1016/S0092-8674(00)81163-0. PMID 9590169.
  5. ^ Burmann BM, Knauer SH, Sevostyanova A, Schweimer K, Mooney RA, Landick R, et al. (July 2012). "An α helix to β barrel domain switch transforms the transcription factor RfaH into a translation factor". Cell. 150 (2): 291–303. doi:10.1016/j.cell.2012.05.042. PMC 3430373. PMID 22817892.
  6. ^ Knauer SH, Artsimovitch I, Rösch P (December 2012). "Transformer proteins". Cell Cycle. 11 (23): 4289–4290. doi:10.4161/cc.22468. PMC 3552902. PMID 23095672.
  7. ^ Knauer SH, Rösch P, Artsimovitch I (December 2012). "Transformation: the next level of regulation". RNA Biology. 9 (12): 1418–1423. doi:10.4161/rna.22724. PMC 3679274. PMID 23131843.
  8. ^ "Transformers: The science, not the fiction ‹ Quips ‹ PDBe ‹ EMBL-EBI". Protein Databank in Europe. European Molecular Biology Institute. Archived from the original on 15 September 2015. Retrieved 14 January 2022.
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