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Journal of Biomolecular Structure and Dynamics Volume 34, 2016 - Issue 9
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Research Articles

Structural disorder: a tool for housekeeping proteins performing tissue-specific interactions

Sanghita BanerjeeMachine Intelligence Unit, Indian Statistical Institute, 203 Barrackpore Trunk Road, Kolkata700108, IndiaCorrespondence[email protected]
&
Rajat K. DeMachine Intelligence Unit, Indian Statistical Institute, 203 Barrackpore Trunk Road, Kolkata700108, India
Pages 1930-1945 | Received 03 Jul 2015, Accepted 14 Sep 2015, Published online: 02 Feb 2016

References

  • Babu, M. M., van der Lee, R., de Groot, N. S., & Gsponer, J. (2011). Intrinsically disordered proteins: Regulation and disease. Current Opinion in Structural Biology, 21, 432–440.10.1016/j.sbi.2011.03.011
  • Badolato, J., Gardiner, E., Morrison, N., & Eisman, J. (1995). Identification and characterisation of a novel human RNA-binding protein. Gene, 166, 323–327.10.1016/0378-1119(95)00571-4
  • Baronti, L., Erales, J., Habchi, J., Felli, I. C., Pierattelli, R., & Longhi, S. (2015). Dynamics of the intrinsically disordered C-terminal domain of the Nipah virus nucleoprotein and interaction with the X domain of the phosphoprotein as unveiled by NMR spectroscopy. ChemBioChem, 16, 268–276.10.1002/cbic.v16.2
  • Boehr, D. D., Nussinov, R., & Wright, P. E. (2009). The role of dynamic conformational ensembles in biomolecular recognition. Nature Chemical Biology, 5, 789–796.10.1038/nchembio.232
  • Bossi, A., & Lehner, B. (2009). Tissue specificity and the human protein interaction network. Molecular System Biology, 5, 260.
  • Briggs, J., Paoloni, M., Chen, Q. R., Wen, X., Khan, J., & Khanna, C. (2011). A compendium of canine normal tissue gene expression. PLoS One, 6, e17107.10.1371/journal.pone.0017107
  • Brown, C. J., Johnson, A. K., & Daughdrill, G. W. (2010). Comparing models of evolution for ordered and disordered proteins. Molecular Biology and Evolution, 27, 609–621.10.1093/molbev/msp277
  • Brown, C. J., Johnson, A. K., Dunker, A. K., & Daughdrill, G. W. (2011). Evolution and disorder. Current Opinion in Structural Biology, 21, 441–446.10.1016/j.sbi.2011.02.005
  • Brown, C. J., Takayama, S., Campen, A. M., Vise, P., Marshall, T. W., Oldfield, C. J., … Dunker, A. K. (2002). Evolutionary rate heterogeneity in proteins with long disordered regions. Journal of Molecular Evolution, 55, 104–110.10.1007/s00239-001-2309-6
  • Buljan, M., Chalancon, G., Eustermann, S., Wagner, G. P., Fuxreiter, M., Bateman, A., & Babu, M. M. (2012). Tissue-specific splicing of disordered segments that embed binding motifs rewires protein interaction networks. Molecular Cell, 46, 871–883.10.1016/j.molcel.2012.05.039
  • Chang, C. W., Cheng, W. C., Chen, C. R., Shu, W. Y., Tsai, M. L., Huang, C. L., & Hsu, I. C. (2011). Identification of human housekeeping genes and tissue-selective genes by microarray meta-analysis. PLoS One, 6, e22859.10.1371/journal.pone.0022859
  • Chen, J. W., Romero, P., Uversky, V. N., & Dunker, A. K. (2006a). Conservation of intrinsic disorder in protein domains and families: I. A database of conserved predicted disordered regions. Journal of Proteome Research, 5, 879–887.10.1021/pr060048x
  • Chen, J. W., Romero, P., Uversky, V. N., & Dunker, A. K. (2006b). Conservation of intrinsic disorder in protein domains and families: II. functions of conserved disorder. Journal of Proteome Research, 5, 888–898.10.1021/pr060049p
  • Copley, S. D. (2012). Moonlighting is mainstream: Paradigm adjustment required. BioEssays, 34, 578–588.10.1002/bies.201100191
  • Cortese, M. S., Uversky, V. N., & Dunker, A. K. (2008). Intrinsic disorder in scaffold proteins: Getting more from less. Progress in Biophysics and Molecular Biology, 98, 85–106.10.1016/j.pbiomolbio.2008.05.007
  • Csizmók, V., Bokor, M., Bánki, P., Klement, E., Medzihradszky, K. F., Friedrich, P., … Tompa, P. (2005). Primary contact sites in intrinsically unstructured proteins: The case of calpastatin and microtubule-associated protein 2. Biochemistry, 44, 3955–3964.10.1021/bi047817f
  • Disfani, F. M., Hsu, W. L., Mizianty, M. J., Oldfield, C. J., Xue, B., Dunker, A. K., … Kurgan, L. (2012). MoRFpred, a computational tool for sequence-based prediction and characterization of short disorder-to-order transitioning binding regions in proteins. Bioinformatics, 28, i75–i83.10.1093/bioinformatics/bts209
  • Dosztanyi, Z., Csizmok, V., Tompa, P., & Simon, I. (2005). IUPred: Web server for the prediction of intrinsically unstructured regions of proteins based on estimated energy content. Bioinformatics, 21, 3433–3434.10.1093/bioinformatics/bti541
  • Dosztanyi, Z., Meszaros, B., & Simon, I. (2009). ANCHOR: Web server for predicting protein binding regions in disordered proteins. Bioinformatics, 25, 2745–2746.10.1093/bioinformatics/btp518
  • Dunker, A. K., Brown, C. J., Lawson, J. D., Iakoucheva, L. M., & Obradović, Z. (2002). Intrinsic disorder and protein function. Biochemistry, 41, 6573–6582.10.1021/bi012159+
  • Dunker, A. K., Garner, E., Guilliot, S., Romero, P., Albrecht, K., Hart, J., … Villafranca, J. E. (1998). Protein disorder and the evolution of molecular recognition: Theory, predictions and observations. Pacific Symposium on Biocomputing, 473–484.
  • Eisenberg, E., & Levanon, E. Y. (2003). Human housekeeping genes are compact. Trends in Genetics, 19, 362–365.10.1016/S0168-9525(03)00140-9
  • Eisenberg, E., & Levanon, E. Y. (2013). Human housekeeping genes, revisited. Trends in Genetics, 29, 569–574.10.1016/j.tig.2013.05.010
  • Farré, D., Bellora, N., Mularoni, L., Messeguer, X., & Albà, M. M. (2007). Housekeeping genes tend to show reduced upstream sequence conservation. Genome Biology, 8, R140.10.1186/gb-2007-8-7-r140
  • Fuxreiter, M. (2012). Fuzziness: Linking regulation to protein dynamics. Molecular BioSystems, 8, 168–177.10.1039/C1MB05234A
  • Grabherr, M. G., Haas, B. J., Yassour, M., Levin, J. Z., Thompson, D. A., Amit, I., … Regev, A. (2011). Full-length transcriptome assembly from RNA-Seq data without a reference genome. Nature Biotechnology, 29, 644–652.10.1038/nbt.1883
  • Gruet, A., Dosnon, M., Vassena, A., Lombard, V., Gerlier, D., Bignon, C., & Longhi, S. (2013). Dissecting partner recognition by an intrinsically disordered protein using descriptive random mutagenesis. Journal of Molecular Biology, 425, 3495–3509.10.1016/j.jmb.2013.06.025
  • Gsponer, J., Futschik, M. E., Teichmann, S. A., & Babu, M. M. (2008). Tight regulation of unstructured proteins: From transcript synthesis to protein degradation. Science, 322, 1365–1368.10.1126/science.1163581
  • Gunasekaran, K., Tsai, C. J., Kumar, S., Zanuy, D., & Nussinov, R. (2003). Extended disordered proteins: Targeting function with less scaffold. Trends in Biochemical Sciences, 28, 81–85.10.1016/S0968-0004(03)00003-3
  • Habchi, J., Tompa, P., Longhi, S., & Uversky, V. N. (2014). Introducing protein intrinsic disorder. Chemical Reviews, 114, 6561–6588.10.1021/cr400514h
  • Haynes, C., Oldfield, C. J., Ji, F., Klitgord, N., Cusick, M. E., Radivojac, P., Uversky, V. N., Vidal, M., & Iakoucheva, L. M. (2006). Intrinsic disorder is a common feature of hub proteins from four eukaryotic interactomes. PLoS Computational Biology, 2, e100.10.1371/journal.pcbi.0020100
  • Huberts, D. H. & van der Klei, I. J. (2010). Moonlighting proteins: An intriguing mode of multitasking. Biochimica et Biophysica Acta (BBA) – Proteins and Proteomics, 1803, 520–525.10.1016/j.bbamcr.2010.01.022
  • Jeffery, C. J. (2003). Moonlighting proteins: Old proteins learning new tricks. Trends in Genetics, 19, 415–417.10.1016/S0168-9525(03)00167-7
  • Jeffery, C. J. (2009). Moonlighting proteins–an update. Molecular BioSystems, 5, 345–350.10.1039/b900658n
  • Kim, W. K., Henschel, A., Winter, C., & Schroeder, M. (2006b). The many faces of protein–protein interactions: A compendium of interface geometry. PLoS Computational Biology, 2, e124.10.1371/journal.pcbi.0020124
  • Kim, P. M., Lu, L. J., Xia, Y., & Gerstein, M. B. (2006a). Relating three-dimensional structures to protein networks provides evolutionary insights. Science, 314, 1938–1941.10.1126/science.1136174
  • Kim, P. M., Sboner, A., Xia, Y., & Gerstein, M. (2008). The role of disorder in interaction networks: A structural analysis. Molecular Systems Biology, 4, 179.
  • Korneta, I., & Bujnicki, J. M. (2012). Intrinsic disorder in the human spliceosomal proteome. PLoS Computational Biology, 8, e1002641.10.1371/journal.pcbi.1002641
  • Lehner, B., & Fraser, A. G. (2004). Protein domains enriched in mammalian tissue-specific or widely expressed genes. Trends in Genetics, 20, 468–472.10.1016/j.tig.2004.08.002
  • Liu, J., Faeder, J. R., & Camacho, C. J. (2009). Toward a quantitative theory of intrinsically disordered proteins and their function. Proceedings of the National Academy of Sciences, 106, 19819–19823.10.1073/pnas.0907710106
  • Madan Babu, M., Kriwacki, R. W., & Pappu, R. V. (2012). Versatility from protein disorder. Science, 337.
  • Magrane M., Consortium U. (2011). UniProt Knowledgebase: A hub of integrated protein data. Database (Oxford). bar009.
  • McWilliam, H., Li, W., Uludag, M., Squizzato, S., Park, Y. M., Buso, N., … Lopez, R. (2013). Analysis tool web services from the EMBL-EBI. Nucleic Acids Research, 41, W597–W600.10.1093/nar/gkt376
  • Mészáros, B., Tompa, P., Simon, I., & Dosztányi, Z. (2007). Molecular principles of the interactions of disordered proteins. Journal of Molecular Biology, 372, 549–561.10.1016/j.jmb.2007.07.004
  • Mitchell, A., Chang, H. Y., Daugherty, L., Fraser, M., Hunter, S., Lopez, R., … Finn, R. D. (2015). The InterPro protein families database: the classification resource after 15 years. Nucleic Acids Research, 43, D213–D221.10.1093/nar/gku1243
  • Mohan, A., Oldfield, C. J., Radivojac, P., Vacic, V., Cortese, M. S., Dunker, A. K., & Uversky, V. N. (2006). Analysis of molecular recognition features (MoRFs). Journal of Molecular Biology, 362, 1043–1059.10.1016/j.jmb.2006.07.087
  • Moldoveanu, T., Gehring, K., & Green, D. R. (2008). Concerted multi-pronged attack by calpastatin to occlude the catalytic cleft of heterodimeric calpains. Nature, 456, 404–408.10.1038/nature07353
  • Oldfield, C. J., Cheng, Y., Cortese, M. S., Romero, P., Uversky, V. N., & Dunker, A. K. (2005). Coupled folding and binding with alpha-helix-forming molecular recognition elements. Biochemistry, 44, 12454–12470.10.1021/bi050736e
  • Pancsa, R., & Tompa, P. (2012). Structural disorder in eukaryotes. PLoS ONE, 7, e34687.10.1371/journal.pone.0034687
  • Park, S. G., & Choi, S. S. (2010). Expression breadth and expression abundance behave differently in correlations with evolutionary rates. BMC Evolutionary Biology, 10, 241.10.1186/1471-2148-10-241
  • Pruitt, K. D., Tatusova, T., & Maglott, D. R. (2005). NCBI reference sequence (RefSeq): A curated non-redundant sequence database of genomes, transcripts and proteins. Nucleic Acids Research, 33, D501–D504.
  • Punta, M., Coggill, P. C., Eberhardt, R. Y., Mistry, J., Tate, J., Boursnell, C., Pang, N., Forslund, K., Ceric, G., Clements, J., Heger, A., Holm, L., Sonnhammer, E. L., Eddy, S. R., Bateman, A., Finn, R. D. (2012). The Pfam protein families database. Nucleic Acids Research, 40, D290–D301.10.1093/nar/gkr1065
  • Receveur-Bréchot, V., Bourhis, J. M., Uversky, V. N., Canard, B., & Longhi, S. (2006). Assessing protein disorder and induced folding. Proteins, 62, 24–45.
  • Schad, E., Tompa, P., & Hegyi, H. (2011). The relationship between proteome size, structural disorder and organism complexity. Genome Biology, 12, R120.10.1186/gb-2011-12-12-r120
  • Schlessinger, A., Schaefer, C., Vicedo, E., Schmidberger, M., Punta, M., & Rost, B. (2011). Protein disorder–a breakthrough invention of evolution? Current Opinion in Structural Biology, 21, 412–418.10.1016/j.sbi.2011.03.014
  • Stein, G. S., Lian, J. B., & Owen, T. A. (1990a). Bone cell differentiation: A functionally coupled relationship between expression of cell-growth- and tissue-specific genes. Current Opinion in Cell Biology, 2, 1018–1027.10.1016/0955-0674(90)90151-4
  • Stein, G. S., Lian, J. B., & Owen, T. A. (1990b). Relationship of cell growth to the regulation of tissue-specific gene expression during osteoblast differentiation. FASEB Journal, 4, 3111–3123.
  • Tomala, K., & Korona, R. (2013). Evaluating the fitness cost of protein expression in Saccharomyces cerevisiae. Genome Biology and Evolution, 5, 2051–2060.10.1093/gbe/evt154
  • Tompa, P. (2005). The interplay between structure and function in intrinsically unstructured proteins. FEBS Letters, 579, 3346–3354.10.1016/j.febslet.2005.03.072
  • Tompa, P., & Fuxreiter, M. (2008). Fuzzy complexes: Polymorphism and structural disorder in protein-protein interactions. Trends in Biochemical Sciences, 33, 2–8.10.1016/j.tibs.2007.10.003
  • Tompa, P., Fuxreiter, M., Oldfield, C. J., Simon, I., Dunker, A. K., & Uversky, V. N. (2009). Close encounters of the third kind: Disordered domains and the interactions of proteins. BioEssays, 31, 328–335.10.1002/bies.v31:3
  • Uhlén, M., Fagerberg, L., Hallström, B. M., Lindskog, C., Oksvold, P., Mardinoglu, A., Sivertsson, Å., Kampf, C., Sjöstedt, E., Asplund, A., Olsson, I., Edlund, K., Lundberg, E., Navani, S., Szigyarto, C. A., Odeberg, J., Djureinovic, D., Takanen, J. O., Hober, S., Alm, T., Edqvist, P. H., Berling, H., Tegel, H., Mulder, J., Rockberg, J., Nilsson, P., Schwenk, J. M., Hamsten, M., von Feilitzen, K., Forsberg, M., Persson, L., Johansson, F., Zwahlen, M., von Heijne, G., Nielsen, J., Pontén, .F. (2015). Tissue-based map of the human proteome. Science, 347, 1260419.10.1126/science.1260419
  • Vavouri, T., Semple, J. I., Garcia-Verdugo, R., & Lehner, B. (2009). Intrinsic protein disorder and interaction promiscuity are widely associated with dosage sensitivity. Cell, 138, 198–208.10.1016/j.cell.2009.04.029
  • Walsh, I., Martin, A. J., Di Domenico, T., & Tosatto, S. C. (2012). ESpritz: accurate and fast prediction of protein disorder. Bioinformatics, 28, 503–509.10.1093/bioinformatics/btr682
  • Ward, J. J., Sodhi, J. S., McGuffin, L. J., Buxton, B. F., & Jones, D. T. (2004). Prediction and functional analysis of native disorder in proteins from the three kingdoms of life. Journal of Molecular Biology, 337, 635–645.10.1016/j.jmb.2004.02.002
  • Warrington, J. A., Nair, A., Mahadevappa, M., & Tsyganskaya, M. (2000). Comparison of human adult and fetal expression and identification of 535 housekeeping/maintenance genes. Physiological Genomics, 2, 143–147.
  • Wright, P. E., & Dyson, H. J. (1999). Intrinsically unstructured proteins: Re-assessing the protein structure-function paradigm. Journal of Molecular Biology, 293, 321–331.10.1006/jmbi.1999.3110
  • Wright, P. E., & Dyson, H. J. (2009). Linking folding and binding. Current Opinion in Structural Biology, 19, 31–38.10.1016/j.sbi.2008.12.003
  • Xue, B., Dunbrack, R. L., Williams, R. W., Dunker, A. K., & Uversky, V. N. (2010). PONDR-FIT: A meta-predictor of intrinsically disordered amino acids. Biochimica et Biophysica Acta (BBA) – Proteins and Proteomics, 1804, 996–1010.10.1016/j.bbapap.2010.01.011
  • Xue, B., Dunker, A. K., & Uversky, V. N. (2012). The roles of intrinsic disorder in orchestrating the wnt-pathway. Journal of Biomolecular Structure and Dynamics, 29, 843–861.10.1080/073911012010525024
  • Yang, Z., & Nielsen, R. (2000). Estimating synonymous and nonsynonymous substitution rates under realistic evolutionary models. Molecular Biology and Evolution, 17, 32–43.10.1093/oxfordjournals.molbev.a026236
  • Zhang, L., & Li, W. H. (2004). Mammalian housekeeping genes evolve more slowly than tissue-specific genes. Molecular Biology and Evolution, 21, 236–239.
  • Zhang, Q. C., Petrey, D., Deng, L., Qiang, L., Shi, Y., Thu, C. A., Bisikirska, B., Lefebvre, C., Accili, D., Hunter, T., Maniatis, T., Califano, A., Honig, B. (2012). Structure-based prediction of protein–protein interactions on a genome-wide scale. Nature, 490, 556–560.10.1038/nature11503
  • Zhao, Q. Y., Wang, Y., Kong, Y. M., Luo, D., Li, X., & Hao, P. (2011). Optimizing de novo transcriptome assembly from short-read RNA-Seq data: A comparative study. BMC Bioinformatics, 12, S2.10.1186/1471-2105-12-S14-S2

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