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Critical Reviews in Biochemistry and Molecular Biology Volume 54, 2019 - Issue 2
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Review Article

The carboxy-terminus, a key regulator of protein function

Surbhi SharmaNevada Institute of Personalized Medicine and School of Life Sciences, University of Nevada, Las Vegas, NV, USAView further author information
&
Martin R. SchillerNevada Institute of Personalized Medicine and School of Life Sciences, University of Nevada, Las Vegas, NV, USACorrespondence[email protected]
ORCID Iconhttp://orcid.org/0000-0003-1671-6823View further author information
ORCID Icon
Pages 85-102 | Received 30 Nov 2018, Accepted 19 Feb 2019, Published online: 20 May 2019

References

  • Ahmad M, Zhang Y, Zhang Y, Papharalambus C, Alexander RW. 2002. Role of isoprenylcysteine carboxyl methyltransferase in tumor necrosis factor-alpha stimulation of expression of vascular cell adhesion molecule-1 in endothelial cells. Arter Thromb Vasc Biol. 22:759–764.
  • Aronson BD, Fisher AL, Blechman K, Caudy M, Gergen JP. 1997. Groucho-dependent and -independent repression activities of Runt domain proteins. Mol Cell Biol. 17:5581–5587.
  • Asami-Odaka A, Obayashi-Adachi Y, Matsumoto Y, Takahashi H, Fukumoto H, Horiguchi T, Suzuki N, Shoji M. 2005. Passive immunization of the Abeta42(43) C-terminal-specific antibody BC05 in a mouse model of Alzheimer’s disease. Neurodegener Dis. 2:36–43.
  • Attwood TK, Avison H, Beck ME, Bewley M, Bleasby AJ, Brewster F, Cooper P, Degtyarenko K, Geddes AJ, Flower DR, et al. 1997. The PRINTS database of protein fingerprints: a novel information resource for computational molecular biology. J Chem Inf Comput Sci. 37:417–424.
  • Austin RS, Provart NJ, Cutler SR. 2007. C-terminal motif prediction in eukaryotic proteomes using comparative genomics and statistical over-representation across protein families. BMC Genomics. 8:191.
  • Bahir I, Linial M. 2006. Functional grouping based on signatures in protein termini. Proteins. 63:996–1004.
  • Bahir I, Linial M. 2005. ProTeus: identifying signatures in protein termini. Nucleic Acids Res. 33:W277–W280.
  • Balla S, Thapar V, Verma S, Luong T, Faghri T, Huang CH, Rajasekaran S, del Campo JJ, Shinn JH, Mohler WA, et al. 2006. Minimotif Miner: a tool for investigating protein function. Nat Meth. 3:175–177.
  • Berezovsky IN, Kilosanidze GT, Tumanyan VG, Kisselev L. 1997. COOH-terminal decamers in proteins are non-random. FEBS Lett. 404:140–142.
  • Bermak JC, Li M, Bullock C, Zhou QY. 2001. Regulation of transport of the dopamine D1 receptor by a new membrane-associated ER protein. Nat Cell Biol. 3:492–498.
  • Beuming T, Skrabanek L, Niv MY, Mukherjee P, Weinstein H. 2005. PDZBase: a protein-protein interaction database for PDZ-domains. Bioinformatics. 21:827–828.
  • Birrane G, Chung J, Ladias JAA. 2003. Novel mode of ligand recognition by the Erbin PDZ domain. J Biol Chem. 278:1399–1402.
  • Björnsson A, Mottagui-Tabar S, Isaksson LA. 1996. Structure of the C-terminal end of the nascent peptide influences translation termination. EMBO J. 15:1696–1704.
  • Boeckmann B, Bairoch A, Apweiler R, Blatter MC, Estreicher A, Gasteiger E, Martin MJ, Michoud K, O’Donovan C, Phan I, et al. 2003. The SWISS-PROT protein knowledgebase and its supplement TrEMBL in 2003. Nucleic Acids Res. 31:365–370.
  • Bonetto V, Bergman A-C, Jörnvall H, Sillard R. 1997. C-terminal sequence analysis of peptides and proteins using carboxypeptidases and mass spectrometry after derivatization of Lys and Cys residues. Anal Chem. 69:1315–1319.
  • Bork P, Koonin EV. 1996. Protein sequence motifs. Curr Opin Struct Biol. 6:366–376.
  • Brahms H, Raymackers J, Union A, de Keyser F, Meheus L, Lührmann R. 2000. The C-terminal RG dipeptide repeats of the spliceosomal Sm proteins D1 and D3 contain symmetrical dimethylarginines, which form a major B-cell epitope for anti-Sm autoantibodies. J Biol Chem. 275:17122–17129.
  • Brinker A, Scheufler C, Von Der Mulbe F, Fleckenstein B, Herrmann C, Jung G, Moarefi I, Hartl FU. 2002. Ligand discrimination by TPR domains. Relevance and selectivity of EEVD-recognition in Hsp70 x Hop x Hsp90 complexes. J Biol Chem. 277:19265–19275.
  • Cabrera M, Muñiz M, Hidalgo J, Vega L, Martín ME, Velasco A. 2003. The retrieval function of the KDEL receptor requires PKA phosphorylation of its C-terminus. Mol Biol Cell. 14:4114–4125.
  • Carugo O. 2017. Protein termini. Curr Protein Pept Sci. 18:211–216.
  • Chen G, Courey AJ. 2000. Groucho/TLE family proteins and transcriptional repression. Gene. 249:1–16.
  • Chimura T, Launey T, Ito M. 2011. Evolutionarily conserved bias of amino-acid usage refines the definition of PDZ-binding motif. BMC Genomics. 12:300.
  • Chinnadurai G. 2007. Transcriptional regulation by C-terminal binding proteins. Int J Biochem Cell Biol. 39:1593–1607.
  • Chong YP, Mulhern TD, Cheng HC. 2005. C-terminal Src kinase (CSK) and CSK-homologous kinase (CHK)–endogenous negative regulators of Src-family protein kinases. Growth Factors. 23:233–244.
  • Choy E, Chiu VK, Silletti J, Feoktistov M, Morimoto T, Michaelson D, Ivanov IE, Philips MR. 1999. Endomembrane trafficking of ras: the CAAX motif targets proteins to the ER and Golgi. Cell. 98:69–80.
  • Chung JJ, Shikano S, Hanyu Y, Li M. 2002. Functional diversity of protein C-termini: more than zipcoding? Trends Cell Biol. 12:146–150.
  • Coblitz B, Wu M, Shikano S, Li M. 2006. C-terminal binding: an expanded repertoire and function of 14-3-3 proteins. FEBS Lett. 580:1531–1535.
  • Colaert N, Maddelein D, Impens F, Van Damme P, Plasman K, Helsens K, Hulstaert N, Vandekerckhove J, Gevaert K, Martens L. 2013. The online protein processing resource (TOPPR): a database and analysis platform for protein processing events. Nucleic Acids Res. 41:D333–D337.
  • Cortajarena AL, Regan L. 2006. Ligand binding by TPR domains. Protein Sci. 15:1193–1198.
  • de Klerk E, ‘t Hoen PAC. 2015. Alternative mRNA transcription, processing, and translation: insights from RNA sequencing. Trends Genet. 31:128–139.
  • Deretic D, Schmerl S, Hargrave PA, Arendt A, McDowell JH. 1998. Regulation of sorting and post-Golgi trafficking of rhodopsin by its C-terminal sequence QVS(A)PA. Proc Natl Acad Sci USA. 95:10620–10625.
  • Deretic D, Williams AH, Ransom N, Morel V, Hargrave PA, Arendt A. 2005. Rhodopsin C terminus, the site of mutations causing retinal disease, regulates trafficking by binding to ADP-ribosylation factor 4 (ARF4). Proc Natl Acad Sci USA. 102:3301–3306.
  • Dice JF. 1990. Peptide sequences that target cytosolic proteins for lysosomal proteolysis. Trends Biochem Sci. 15:305–309.
  • Dinkel H, Michael S, Weatheritt RJ, Davey NE, Van Roey K, Altenberg B, Toedt G, Uyar B, Seiler M, Budd A, et al. 2012. ELM–the database of eukaryotic linear motifs. Nucleic Acids Res. 40:D242–D251.
  • El Kennani S, Adrait A, Shaytan AK, Khochbin S, Bruley C, Panchenko AR, Landsman D, Pflieger D, Govin J. 2017. MS_HistoneDB, a manually curated resource for proteomic analysis of human and mouse histones. Epigenetics Chromatin. 10:2.
  • Favre B, Zolnierowicz S, Turowski P, Hemmings BA. 1994. The catalytic subunit of protein phosphatase 2A is carboxyl-methylated in vivo. J Biol Chem. 269:16311–16317.
  • Fisher AL, Ohsako S, Caudy M. 1996. The WRPW motif of the hairy-related basic helix-loop-helix repressor proteins acts as a 4-amino-acid transcription repression and protein-protein interaction domain. Mol Cell Biol. 16:2670–2677.
  • Fortelny N, Yang S, Pavlidis P, Lange PF, Overall CM. 2015. Proteome TopFIND 3.0 with TopFINDer and PathFINDer: database and analysis tools for the association of protein termini to pre- and post-translational events. Nucleic Acids Res. 43:D290–D297.
  • Fuglsang AT, Borch J, Bych K, Jahn TP, Roepstorff P, Palmgren MG. 2003. The binding site for regulatory 14-3-3 protein in plant plasma membrane H+-ATPase: involvement of a region promoting phosphorylation-independent interaction in addition to the phosphorylation-dependent C-terminal end. J Biol Chem. 278:42266–42272.
  • Gatto GJ, Berg JM. 2003. Nonrandom tripeptide sequence distributions at protein carboxyl termini. Genome Res. 13:617–623.
  • Ghomashchi F, Zhang X, Liu L, Gelb MH. 1995. Binding of prenylated and polybasic peptides to membranes: affinities and intervesicle exchange. Biochemistry. 34:11910–11918.
  • Giacomelli MG, Hancock AS, Masel J. 2007. The conversion of 3’ UTRs into coding regions. Mol Biol Evol. 24:457–464.
  • Gnad F, Estrada J, Gunawardena J. 2012. Proteus: a web-based, context-specific modelling tool for molecular networks. Bioinformatics. 28:1284–1286.
  • Gnad F, Gunawardena J, Mann M. 2011. PHOSIDA 2011: the posttranslational modification database. Nucleic Acids Res. 39:D253–D260.
  • Gold MG, Reichow SL, O’Neill SE, Weisbrod CR, Langeberg LK, Bruce JE, Gonen T, Scott JD. 2012. AKAP2 anchors PKA with aquaporin-0 to support ocular lens transparency. EMBO Mol Med. 4:15–26.
  • Gomez M, Scales SJ, Kreis TE, Perez F. 2000. Membrane recruitment of coatomer and binding to dilysine signals are separate events. J Biol Chem. 275:29162–29169.
  • Gostissa M, Hengstermann A, Fogal V, Sandy P, Schwarz SE, Scheffner M, Del Sal G. 1999. Activation of p53 by conjugation to the ubiquitin-like protein SUMO-1. EMBO J. 18:6462–6471.
  • Gouw M, Michael S, Sámano-Sánchez H, Kumar M, Zeke A, Lang B, Bely B, Chemes LB, Davey NE, Deng Z, et al. 2018. The eukaryotic linear motif resource – 2018 update. Nucleic Acids Res. 46:D428–D434.
  • Grou CP, Pinto MP, Mendes AV, Domingues P, Azevedo JE. 2015. The de novo synthesis of ubiquitin: identification of deubiquitinases acting on ubiquitin precursors. Sci Rep. 5:12836.
  • Gupta R, Birch H, Rapacki K, Brunak S, Hansen JE. 1999. O-GLYCBASE version 4.0: a revised database of O-glycosylated proteins. Nucleic Acids Res. 27:370–372.
  • Harris FM, Brecht WJ, Xu Q, Tesseur I, Kekonius L, Wyss-Coray T, Fish JD, Masliah E, Hopkins PC, Scearce-Levie K, et al. 2003. Carboxyl-terminal-truncated apolipoprotein E4 causes Alzheimer’s disease-like neurodegeneration and behavioral deficits in transgenic mice. Proc Natl Acad Sci USA. 100:10966–10971.
  • Herhaus L, Dikic I. 2015. Expanding the ubiquitin code through post-translational modification. EMBO Rep. 16:1071–1083.
  • Hodgman TC. 1989. The elucidation of protein function by sequence motif analysis. Comput Appl Biosci. 5:1–13.
  • Hoffmann JC, Pappa A, Krammer PH, Lavrik IN. 2009. A new C-terminal cleavage product of procaspase-8, p30, defines an alternative pathway of procaspase-8 activation. Mol Cell Biol. 29:4431–4440.
  • Hornbeck PV, Zhang B, Murray B, Kornhauser JM, Latham V, Skrzypek E. 2015. PhosphoSitePlus, 2014: mutations, PTMs and recalibrations. Nucleic Acids Res. 43:D512–D520.
  • Hsu WL, Oldfield CJ, Xue B, Meng J, Huang F, Romero P, Uversky VN, Dunker AK. 2013. Exploring the binding diversity of intrinsically disordered proteins involved in one-to-many binding. Protein Sci. 22:258–273.
  • Hung AY, Sheng M. 2002. PDZ domains: structural modules for protein complex assembly. J Biol Chem. 277:5699–5702.
  • Hurley JH, Lee S, Prag G. 2006. Ubiquitin-binding domains. Biochem J. 399:361–372.
  • Igarashi Y, Eroshkin A, Gramatikova S, Gramatikoff K, Zhang Y, Smith JW, Osterman AL, Godzik A. 2007. CutDB: a proteolytic event database. Nucleic Acids Res. 35:D546–D549.
  • Jackson MR, Nilsson T, Peterson PA. 1990. Identification of a consensus motif for retention of transmembrane proteins in the endoplasmic reticulum. EMBO J. 9:3153–3162.
  • Jacob E, Unger R. 2007. A tale of two tails: why are terminal residues of proteins exposed? Bioinformatics. 23:e225–e230.
  • Janzen DM, Geballe AP. 2004. The effect of eukaryotic release factor depletion on translation termination in human cell lines. Nucleic Acids Res. 32:4491–4502.
  • Jensen ON. 2004. Modification-specific proteomics: characterization of post-translational modifications by mass spectrometry. Curr Opin Chem Biol. 8:33–41.
  • Jeon YJ, Yoo HM, Chung CH. 2010. ISG15 and immune diseases. Biochim Biophys Acta. 1802:485–496.
  • Jiang H, Zhang X, Chen X, Aramsangtienchai P, Tong Z, Lin H. 2018. Protein lipidation: occurrence, mechanisms, biological functions, and enabling technologies. Chem Rev. 118:919–988.
  • Ju Z, He JJ. 2017. Prediction of lysine crotonylation sites by incorporating the composition of k-spaced amino acid pairs into Chou’s general PseAAC. J Mol Graph Model. 77:200–204.
  • Karve TM, Cheema AK. 2011. Small changes huge impact: the role of protein posttranslational modifications in cellular homeostasis and disease. J Amino Acids. 2011:207691.
  • Kawata M, Farnsworth CC, Yoshida Y, Gelb MH, Glomset JA, Takai Y. 1990. Posttranslationally processed structure of the human platelet protein SMG p21B: evidence for geranylgeranylation and carboxyl methylation of the C-terminal cysteine. Proc Natl Acad Sci USA. 87:8960–8964.
  • Kehoe JW, Bertozzi CR. 2000. Tyrosine sulfation: a modulator of extracellular protein-protein interactions. Chem Biol. 7:R57–R61.
  • Khoury GA, Baliban RC, Floudas CA. 2011. Proteome-wide post-translational modification statistics: frequency analysis and curation of the swiss-prot database. Sci Rep. 1:90.
  • Kim E, Sheng M. 2004. PDZ domain proteins of synapses. Nat Rev Neurosci. 5:771–781.
  • Kimura Y, Tanaka K. 2010. Regulatory mechanisms involved in the control of ubiquitin homeostasis. J Biochem. 147:793–798.
  • Komander D, Rape M. 2012. The ubiquitin code. Annu Rev Biochem. 81:203–229.
  • Kowluru A. 2000. Evidence for the carboxyl methylation of nuclear lamin-B in the pancreatic beta cell. Biochem Biophys Res Commun. 268:249–254.
  • Krishna MMG, Englander SW. 2005. The N-terminal to C-terminal motif in protein folding and function. Proc Natl Acad Sci USA. 102:1053–1058.
  • Krishnan N, Koveal D, Miller DH, Xue B, Akshinthala SD, Kragelj J, Jensen MR, Gauss CM, Page R, Blackledge M, et al. 2014. Targeting the disordered C-terminus of PTP1B with an allosteric inhibitor. Nat Chem Biol. 10:558–566.
  • Kupershmidt S, Yang T, Chanthaphaychith S, Wang Z, Towbin JA, Roden DM. 2002. Defective human Ether-à-go-go-related gene trafficking linked to an endoplasmic reticulum retention signal in the C terminus. J Biol Chem. 277:27442–27448.
  • Laio A, Micheletti C. 2006. Are structural biases at protein termini a signature of vectorial folding? Proteins. 62:17–23.
  • Lam HYK, Kim PM, Mok J, Tonikian R, Sidhu SS, Turk BE, Snyder M, Gerstein MB. 2010. MOTIPS: automated motif analysis for predicting targets of modular protein domains. BMC Bioinformatics. 11:243.
  • Lam P, Xu S, Soroka CJ, Boyer JL. 2012. A C-terminal tyrosine-based motif in the bile salt export pump directs clathrin-dependent endocytosis. Hepatology. 55:1901–1911.
  • Lange PF, Overall CM. 2013. Protein TAILS: when termini tell tales of proteolysis and function. Curr Opin Chem Biol. 17:73–82.
  • Laskowski RA, Chistyakov VV, Thornton JM. 2005. PDBsum more: new summaries and analyses of the known 3D structures of proteins and nucleic acids. Nucleic Acids Res. 33:D266–D268.
  • Lee BJ, Rajagopalan M, Kim YS, You KH, Jacobson KB, Hatfield D. 1990. Selenocysteine tRNA[Ser]Sec gene is ubiquitous within the animal kingdom. Mol Cell Biol. 10:1940–1949.
  • Lee HJ, Zheng JJ. 2010. PDZ domains and their binding partners: structure, specificity, and modification. Cell Commun Signal. 8:8.
  • Letunic I, Bork P. 2018. 20 years of the SMART protein domain annotation resource. Nucleic Acids Res. 46:D493–D496.
  • Levanon D, Goldstein RE, Bernstein Y, Tang H, Goldenberg D, Stifani S, Paroush Z, Groner Y. 1998. Transcriptional repression by AML1 and LEF-1 is mediated by the TLE/Groucho corepressors. Proc Natl Acad Sci USA. 95:11590–11595.
  • Levitan ES, Takimoto K. 2000. Surface expression of Kv1 voltage-gated K + channels is governed by a C-terminal motif. Trends Cardiovasc Med. 10:317–320.
  • Li T, Santockyte R, Shen RF, Tekle E, Wang G, Yang DCH, Chock PB. 2006. Expression of SUMO-2/3 induced senescence through p53- and pRB-mediated pathways. J Biol Chem. 281:36221–36227.
  • Lin H, Hejtmancik JF, Qi Y. 2007. A substitution of arginine to lysine at the COOH-terminus of MIP caused a different binocular phenotype in a congenital cataract family. Mol Vis. 13:1822–1827.
  • Liu BA. 2017. Characterizing SH2 domain specificity and network interactions using SPOT peptide arrays. Methods Mol Biol. 1555:357–373.
  • Liu MC, Suiko M. 1987. Tyrosine sulfation site is located in the C-terminal fibrin-binding domain in secreted fibronectin from rat embryo fibroblasts, line 3Y1. Arch Biochem Biophys. 255:162–167.
  • Liu R, van Veldhoven JPD, IJzerman AP. 2015. The role of the C-terminus of the human hydroxycarboxylic acid receptors 2 and 3 in G protein activation using Gα-engineered yeast cells. Eur J Pharmacol. 770:70–77.
  • Liu T, Lin Y, Wen X, Jorissen RN, Gilson MK. 2007. BindingDB: a web-accessible database of experimentally determined protein–ligand binding affinities. Nucleic Acids Res. 35:D198–D201.
  • Lobanov MY, Furletova EI, Bogatyreva NS, Roytberg MA, Galzitskaya OV. 2010. Library of disordered patterns in 3D protein structures. PLoS Comput Biol. 6:e1000958.
  • Lu CT, Huang KY, Su MG, Lee TY, Bretaña NA, Chang WC, Chen YJ, Chen YJ, Huang HD. 2013. DbPTM 3.0: an informative resource for investigating substrate site specificity and functional association of protein post-translational modifications. Nucleic Acids Res. 41:D295–D305.
  • Lübkemeier I, Requardt RP, Lin X, Sasse P, Andrié R, Schrickel JW, Chkourko H, Bukauskas FF, Kim JS, Frank M, et al. 2013. Deletion of the last five C-terminal amino acid residues of connexin43 leads to lethal ventricular arrhythmias in mice without affecting coupling via gap junction channels. Basic Res Cardiol. 108:348.
  • Luger TA, Brzoska T. 2007. alpha-MSH related peptides: a new class of anti-inflammatory and immunomodulating drugs. Ann Rheum Dis. 66: iii52–iii55.
  • Lyon KF, Cai X, Young RJ, Mamun AA, Rajasekaran S, Schiller MR. 2018. Minimotif Miner 4: a million peptide minimotifs and counting. Nucleic Acids Res. 46:D465–D470.
  • Lyon KF, Strong CL, Schooler SG, Young RJ, Roy N, Ozar B, Bachmeier M, Rajasekaran S, Schiller MR. 2015. Natural variability of minimotifs in 1092 people indicates that minimotifs are targets of evolution. Nucleic Acids Res. 43:6399–6412.
  • Lyons PJ, Fricker LD. 2010. Substrate specificity of human carboxypeptidase A6. J Biol Chem. 285:38234–38242.
  • Ma D, Zerangue N, Lin YF, Collins A, Yu M, Jan YN, Jan LY. 2001. Role of ER export signals in controlling surface potassium channel numbers. Science. 291:316–319.
  • Madeira F, Tinti M, Murugesan G, Berrett E, Stafford M, Toth R, Cole C, MacKintosh C, Barton GJ. 2015. 14-3-3-Pred: improved methods to predict 14-3-3-binding phosphopeptides. Bioinformatics. 31:2276–2283.
  • Marino G, Eckhard U, Overall CM. 2015. Protein termini and their modifications revealed by positional proteomics. ACS Chem Biol. 10:1754–1764.
  • Meh DA, Siebenlist KR, Brennan SO, Holyst T, Mosesson MW. 2001. The amino acid sequence in fibrin responsible for high affinity thrombin binding. Thromb Haemost. 85:470–474.
  • Mi T, Merlin JC, Deverasetty S, Gryk MR, Bill TJ, Brooks AW, Lee LY, Rathnayake V, Ross CA, Sargeant DP, et al. 2012. Minimotif Miner 3.0: database expansion and significantly improved reduction of false-positive predictions from consensus sequences. Nucleic Acids Res. 40:D252–D260.
  • Millhouse S, Manley JL. 2005. The C-terminal domain of RNA polymerase II functions as a phosphorylation-dependent splicing activator in a heterologous protein. Mol Cell Biol. 25:533–544.
  • Mohan A, Oldfield CJ, Radivojac P, Vacic V, Cortese MS, Dunker AK, Uversky VN. 2006. Analysis of molecular recognition features (MoRFs). J Mol Biol. 362:1043–1059.
  • Müller D, Kausalya PJ, Claverie-Martin F, Meij IC, Eggert P, Garcia-Nieto V, Hunziker W. 2003. A novel claudin 16 mutation associated with childhood hypercalciuria abolishes binding to ZO-1 and results in lysosomal mistargeting. Am J Hum Genet. 73:1293–1301.
  • Muller S, Berger M, Lehembre F, Seeler JS, Haupt Y, Dejean A. 2000. c-Jun and p53 activity is modulated by SUMO-1 modification. J Biol Chem. 275:13321–13329.
  • Munro S, Pelham HR. 1987. A C-terminal signal prevents secretion of luminal ER proteins. Cell. 48:899–907.
  • Neduva V, Russell RB. 2006. DILIMOT: discovery of linear motifs in proteins. Nucleic Acids Res. 34:W350–W355.
  • Neduva V, Russell RB. 2005. Linear motifs: evolutionary interaction switches. FEBS Lett. 579:3342–3345.
  • Nika H, Nieves E, Hawke DH, Angeletti RH. 2013. C-terminal protein characterization by mass spectrometry using combined micro scale liquid and solid-phase derivatization. J Biomol Tech. 24:17–31.
  • Ong SE, Mittler G, Mann M. 2004. Identifying and quantifying in vivo methylation sites by heavy methyl SILAC. Nat Meth. 1:119–126.
  • Orci L, Ravazzola M, Amherdt M, Madsen O, Perrelet A, Vassalli JD, Anderson RG. 1986. Conversion of proinsulin to insulin occurs coordinately with acidification of maturing secretory vesicles. J Cell Biol. 103:2273–2281.
  • Patil NA, Bathgate RAD, Kocan M, Ang SY, Tailhades J, Separovic F, Summers R, Grosse J, Hughes RA, Wade JD, et al. 2015. The C-terminus of the B-chain of human insulin-like peptide 5 is critical for cognate RXFP4 receptor activity. Amino Acids. 48:987–992.
  • Petris MJ, Camakaris J, Greenough M, LaFontaine S, Mercer JF. 1998. A C-terminal di-leucine is required for localization of the Menkes protein in the trans-Golgi network. Hum Mol Genet. 7:2063–2071.
  • Prakash T, Khandelwal M, Dasgupta D, Dash D, Brahmachari SK. 2004. CoPS: comprehensive peptide signature database. Bioinformatics. 20:2886–2888.
  • Puckerin A, Aromolaran KA, Chang DD, Zukin RS, Colecraft HM, Boutjdir M, Aromolaran AS. 2016. hERG 1a LQT2 C-terminus truncation mutants display hERG 1b-dependent dominant negative mechanisms. Heart Rhythm. 13:1121–1130.
  • Rahnefeld A, Klingel K, Schuermann A, Diny NL, Althof N, Lindner A, Bleienheuft P, Savvatis K, Respondek D, Opitz E, et al. 2014. Ubiquitin-like protein ISG15 (interferon-stimulated gene of 15 kDa) in host defense against heart failure in a mouse model of virus-induced cardiomyopathy. Circulation. 130:1589–1600.
  • Rajasekaran S, Balla S, Gradie P, Gryk MR, Kadaveru K, Kundeti V, Maciejewski MW, Mi T, Rubino N, Vyas J, et al. 2009. Minimotif miner 2nd release: a database and web system for motif search. Nucleic Acids Res. 37:D185–D190.
  • Rawlings ND, Waller M, Barrett AJ, Bateman A. 2014. MEROPS: the database of proteolytic enzymes, their substrates and inhibitors. Nucl Acids Res. 42:D503–D509.
  • Reiners J, Nagel-Wolfrum K, Jürgens K, Märker T, Wolfrum U. 2006. Molecular basis of human Usher syndrome: deciphering the meshes of the Usher protein network provides insights into the pathomechanisms of the Usher disease. Exp Eye Res. 83:97–119.
  • Ren J, Wang Y, Liang Y, Zhang Y, Bao S, Xu Z. 2010. Methylation of ribosomal protein S10 by protein-arginine methyltransferase 5 regulates ribosome biogenesis. J Biol Chem. 285:12695–12705.
  • Reyes-Turcu FE, Horton JR, Mullally JE, Heroux A, Cheng X, Wilkinson KD. 2006. The ubiquitin binding domain ZnF UBP recognizes the C-terminal diglycine motif of unanchored ubiquitin. Cell. 124:1197–1208.
  • Richards DB, Lipton JM. 1984. Effect of alpha-MSH 11-13 (lysine-proline-valine) on fever in the rabbit. Peptides. 5:815–817.
  • Rogers LD, Overall CM. 2013. Proteolytic post-translational modification of proteins: proteomic tools and methodology. Mol Cell Proteomics. 12:3532–3542.
  • Rui HL, Fan E, Zhou HM, Xu Z, Zhang Y, Lin SC. 2002. SUMO-1 modification of the C-terminal KVEKVD of Axin is required for JNK activation but has no effect on Wnt signaling. J Biol Chem. 277:42981–42986.
  • Ryan E, Shen D, Wang X. 2016. Structural studies reveal an important role for the pleiotrophin C terminus in mediating interactions with chondroitin sulfate. FEBS J. 283:1488–1503.
  • Sargeant DP, Gryk MR, Maciejewski MW, Thapar V, Kundeti V, Rajasekaran S, Romero P, Dunker K, Li SC, Kaneko T, et al. 2012. Secondary structure, a missing component of sequence-based minimotif definitions. PLoS One. 7:e49957.
  • Schey KL, Fowler JG, Shearer TR, David L. 1999. Modifications to rat lens major intrinsic protein in selenite-induced cataract. Invest Ophthalmol Vis Sci. 40:657–667.
  • Schiöth HB, Muceniece R, Mutule I, Wikberg JES. 2006. New melanocortin 1 receptor binding motif based on the C-terminal sequence of alpha-melanocyte-stimulating hormone. Basic Clin Pharmacol Toxicol. 99:287–293.
  • Sechi S, Chait BT. 2000. A method to define the carboxyl terminal of proteins. Anal Chem. 72:3374–3378.
  • Setlow P, Gerard C, Ozols J. 1980. The amino acid sequence specificity of a protease from spores of Bacillus megaterium. J Biol Chem. 255:3624–3628.
  • Seto Y, Ikeuchi Y, Kanehisa M. 1990. Fragment peptide library for classification and functional prediction of proteins. Proteins. 8:341–351.
  • Sharma S, Toledo O, Hedden M, Lyon KF, Brooks SB, David RP, Limtong J, Newsome JM, Novakovic N, Rajasekaran S, et al. 2016. The functional human C-terminome. PLoS One. 11:e0152731.
  • Sheridan RP, Venkataraghavan R. 1992. A systematic search for protein signature sequences. Proteins. 14:16–28.
  • Shy D, Gillet L, Abriel H. 2013. Cardiac sodium channel NaV1.5 distribution in myocytes via interacting proteins: the multiple pool model. Biochim Biophys Acta. 1833:886–894.
  • Shy D, Gillet L, Ogrodnik J, Albesa M, Verkerk AO, Wolswinkel R, Rougier JS, Barc J, Essers MC, Syam N, et al. 2014. PDZ domain-binding motif regulates cardiomyocyte compartment-specific NaV1.5 channel expression and function. Circulation. 130:147–160.
  • Smith HO, Welcox KW. 1970. A restriction enzyme from Hemophilus influenzae. I. Purification and general properties. J Mol Biol. 51:379–391.
  • Smith JJ, Aitchison JD. 2013. Peroxisomes take shape. Nat Rev Mol Cell Biol. 14:803–817.
  • Soleymani-Goloujeh M, Nokhodchi A, Niazi M, Najafi-Hajivar S, Shahbazi-Mojarrad J, Zarghami N, Zakeri-Milani P, Mohammadi A, Karimi M, Valizadeh H. 2017. Effects of N-terminal and C-terminal modification on cytotoxicity and cellular uptake of amphiphilic cell penetrating peptides. Artif Cells Nanomed Biotechnol. 46: 91–103.
  • Spiro RG. 2002. Protein glycosylation: nature, distribution, enzymatic formation, and disease implications of glycopeptide bonds. Glycobiology. 12:43R–56R.
  • Stamm S, Ben-Ari S, Rafalska I, Tang Y, Zhang Z, Toiber D, Thanaraj TA, Soreq H. 2005. Function of alternative splicing. Gene. 344:1–20.
  • Stein A, Céol A, Aloy P. 2011. 3did: identification and classification of domain-based interactions of known three-dimensional structure. Nucleic Acids Res. 39:D718–D723.
  • Stockklausner C, Ludwig J, Ruppersberg JP, Klöcker N. 2001. A sequence motif responsible for ER export and surface expression of Kir2.0 inward rectifier K(+) channels. FEBS Lett. 493:129–133.
  • Stone MJ, Chuang S, Hou X, Shoham M, Zhu JZ. 2009. Tyrosine sulfation: an increasingly recognised post-translational modification of secreted proteins. New Biotechnol. 25:299–317.
  • Sucic S, Koban F, El-Kasaby A, Kudlacek O, Stockner T, Sitte HH, Freissmuth M. 2013. Switching the clientele: a lysine residing in the C terminus of the serotonin transporter specifies its preference for the coat complex II component SEC24C. J Biol Chem. 288:5330–5341.
  • Sun Z, Huang C, He J, Lamb KL, Kang X, Gu T, Shen WH, Yin Y. 2014. PTEN C-terminal deletion causes genomic instability and tumor development. Cell Rep. 6:844–854.
  • Sundell GN, Ivarsson Y. 2014. Interaction analysis through proteomic phage display. BioMed Res. Int. 2014:176172.
  • Swart EC, Serra V, Petroni G, Nowacki M. 2016. Genetic codes with no dedicated stop codon: context-dependent translation termination. Cell. 166:691–702.
  • Tan M, Luo H, Lee S, Jin F, Yang JS, Montellier E, Buchou T, Cheng Z, Rousseaux S, Rajagopal N, et al. 2011. Identification of 67 histone marks and histone lysine crotonylation as a new type of histone modification. Cell. 146:1016–1028.
  • Tanco S, Gevaert K, Van Damme P. 2015. C-terminomics: targeted analysis of natural and posttranslationally modified protein and peptide C-termini. Proteomics. 15:903–914.
  • Teasdale RD, Jackson MR. 1996. Signal-mediated sorting of membrane proteins between the endoplasmic reticulum and the Golgi apparatus. Annu Rev Cell Dev Biol. 12:27–54.
  • Teesalu T, Sugahara KN, Kotamraju VR, Ruoslahti E. 2009. C-end rule peptides mediate neuropilin-1-dependent cell, vascular, and tissue penetration. Proc Natl Acad Sci USA. 106:16157–16162.
  • Thornton JM, Gardner SP. 1989. Protein motifs and data-base searching. Trends Biochem Sci. 14:300–304.
  • Tolstykh T, Lee J, Vafai S, Stock JB. 2000. Carboxyl methylation regulates phosphoprotein phosphatase 2A by controlling the association of regulatory B subunits. EMBO J. 19:5682–5691.
  • Tress ML, Abascal F, Valencia A. 2017. Alternative splicing may not be the key to proteome complexity. Trends Biochem Sci. 42:98–110.
  • Tsubaki M, Terashima I, Kamata K, Koga A. 2013. C-terminal modification of monoclonal antibody drugs: amidated species as a general product-related substance. Int J Biol Macromol. 52:139–147.
  • UniProt Consortium. 2015. UniProt: a hub for protein information. Nucleic Acids Res. 43:D204–D212.
  • van der Lee R, Buljan M, Lang B, Weatheritt RJ, Daughdrill GW, Dunker AK, Fuxreiter M, Gough J, Gsponer J, Jones DT, et al. 2014. Classification of intrinsically disordered regions and proteins. Chem Rev. 114:6589–6631.
  • van der Veen AG, Ploegh HL. 2012. Ubiquitin-like proteins. Annu Rev Biochem. 81:323–357.
  • Velez JCQ, Ierardi JL, Bland AM, Morinelli TA, Arthur JM, Raymond JR, Janech MG. 2012. Enzymatic processing of angiotensin peptides by human glomerular endothelial cells. Am J Physiol Renal Physiol. 302:F1583–F1594.
  • Verpy E, Leibovici M, Zwaenepoel I, Liu XZ, Gal A, Salem N, Mansour A, Blanchard S, Kobayashi I, Keats BJ, et al. 2000. A defect in harmonin, a PDZ domain-containing protein expressed in the inner ear sensory hair cells, underlies Usher syndrome type 1C. Nat Genet. 26:51–55.
  • Villanueva J, Shaffer DR, Philip J, Chaparro CA, Erdjument-Bromage H, Olshen AB, Fleisher M, Lilja H, Brogi E, Boyd J, et al. 2006. Differential exoprotease activities confer tumor-specific serum peptidome patterns. J Clin Invest. 116:271–284.
  • Vishnuvardhan D, Beinfeld MC. 2000. Role of tyrosine sulfation and serine phosphorylation in the processing of procholecystokinin to amidated cholecystokinin and its secretion in transfected AtT-20 cells. Biochemistry. 39:13825–13830.
  • Vitale A, Denecke J. 1999. The endoplasmic reticulum—gateway of the secretory pathway. Plant Cell. 11:615–628.
  • Vyas J, Nowling RJ, Maciejewski MW, Rajasekaran S, Gryk MR, Schiller MR. 2009. A proposed syntax for Minimotif Semantics, version 1. BMC Genomics. 10:360.
  • Wada H, Kito K, Caskey LS, Yeh ET, Kamitani T. 1998. Cleavage of the C-terminus of NEDD8 by UCH-L3. Biochem Biophys Res Commun. 251:688–692.
  • Wallace EF, Evans CJ, Jurik SM, Mefford IN, Barchas JD. 1982. Carboxypeptidase B activity from adrenal medulla-is it involved in the processing of proenkephalin? Life Sci. 31:1793–1796.
  • Wang ET, Sandberg R, Luo S, Khrebtukova I, Zhang L, Mayr C, Kingsmore SF, Schroth GP, Burge CB. 2008. Alternative isoform regulation in human tissue transcriptomes. Nature. 456:470–476.
  • Wang HY, Malbon CC. 2012. Dishevelled C-terminus: prolyl and histidinyl motifs. Acta Physiol (Oxf). 204:65–73.
  • Wang M, Casey PJ. 2016. Protein prenylation: unique fats make their mark on biology. Nat Rev Mol Cell Biol. 17:110–122.
  • Watanabe J, Nakagawa M, Watanabe N, Nakamura M. 2013. Ubiquitin-like protein MNSFβ covalently binds to Bcl-G and enhances lipopolysaccharide/interferon γ-induced apoptosis in macrophages. Febs J. 280:1281–1293.
  • Weatheritt RJ, Davey NE, Gibson TJ. 2012. Linear motifs confer functional diversity onto splice variants. Nucleic Acids Res. 40:7123–7131.
  • Wei W, Mao A, Tang B, Zeng Q, Gao S, Liu X, Lu L, Li W, Du JX, Li J, et al. 2017. Large-scale identification of protein crotonylation reveals its role in multiple cellular functions. J Proteome Res. 16:1743–1752.
  • Weil D, El-Amraoui A, Masmoudi S, Mustapha M, Kikkawa Y, Lainé S, Delmaghani S, Adato A, Nadifi S, Zina ZB, et al. 2003. Usher syndrome type I G (USH1G) is caused by mutations in the gene encoding SANS, a protein that associates with the USH1C protein, harmonin. Hum Mol Genet. 12:463–471.
  • Weissman AM. 2001. Themes and variations on ubiquitylation. Nat Rev Mol Cell Biol. 2:169–178.
  • Winter-Vann AM, Kamen BA, Bergo MO, Young SG, Melnyk S, James SJ, Casey PJ. 2003. Targeting Ras signaling through inhibition of carboxyl methylation: an unexpected property of methotrexate. Proc Natl Acad Sci USA. 100:6529–6534.
  • Wong HC, Bourdelas A, Krauss A, Lee HJ, Shao Y, Wu D, Mlodzik M, Shi DL, Zheng J. 2003. Direct binding of the PDZ domain of Dishevelled to a conserved internal sequence in the C-terminal region of Frizzled. Mol Cell. 12:1251–1260.
  • Wu J, Leng T, Jing L, Jiang N, Chen D, Hu Y, Xiong ZG, Zha XM. 2016. Two di-leucine motifs regulate trafficking and function of mouse ASIC2a. Mol Brain. 9:9.
  • Yang YS, Wang CC, Chen BH, Hou YH, Hung KS, Mao YC. 2015. Tyrosine sulfation as a protein post-translational modification. Molecules. 20:2138–2164.
  • Yofe I, Weill U, Meurer M, Chuartzman S, Zalckvar E, Goldman O, Ben-Dor S, Schütze C, Wiedemann N, Knop M, et al. 2016. One library to make them all: streamlining the creation of yeast libraries via a SWAp-Tag strategy. Nat Methods. 13:371–378.
  • Yoo HM, Kang SH, Kim JY, Lee JE, Seong MW, Lee SW, Ka SH, Sou YS, Komatsu M, Tanaka K, et al. 2014. Modification of ASC1 by UFM1 is crucial for ERα transactivation and breast cancer development. Mol Cell. 56:261–274.
  • Zaarour N, Demaretz S, Defontaine N, Zhu Y, Laghmani K. 2012. Multiple evolutionarily conserved Di-leucine like motifs in the carboxyl terminus control the anterograde trafficking of NKCC2. J Biol Chem. 287:42642–42653.
  • Zanuy D, Kotla R, Nussinov R, Teesalu T, Sugahara KN, Alemán C, Haspel N. 2013. Sequence dependence of C-end rule peptides in binding and activation of neuropilin-1 receptor. J Struct Biol. 182:78–86.
  • Zanzoni A, Ausiello G, Via A, Gherardini PF, Helmer-Citterich M. 2007. Phospho3D: a database of three-dimensional structures of protein phosphorylation sites. Nucleic Acids Res. 35:D229–D231.
  • Zeytuni N, Zarivach R. 2012. Structural and functional discussion of the tetra-trico-peptide repeat, a protein interaction module. Structure. 20:397–405.
  • Zhang CE, Tian Q, Wei W, Peng JH, Liu GP, Zhou XW, Wang Q, Wang DW, Wang JZ. 2008. Homocysteine induces tau phosphorylation by inactivating protein phosphatase 2A in rat hippocampus. Neurobiol Aging. 29:1654–1665.
  • Zhang Y, Appleton BA, Wiesmann C, Lau T, Costa M, Hannoush RN, Sidhu SS. 2009. Inhibition of Wnt signaling by Dishevelled PDZ peptides. Nat Chem Biol. 5:217–219.
  • Zhang Y, Li Q, Huang J, Wu Z, Huang J, Huang L, Li Y, Ye J, Zhang X. 2018. An approach to incorporate multi-enzyme digestion into C-TAILS for C-terminomics studies. Proteomics. 18:1700034.
  • Zhang Y, Lv J, Liu H, Zhu J, Su J, Wu Q, Qi Y, Wang F, Li X. 2010. HHMD: the human histone modification database. Nucleic Acids Res. 38:D149–D154.
  • Zheng N, Shabek N. 2017. Ubiquitin ligases: structure, function, and regulation. Annu Rev Biochem. 86:129–157.

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