Advanced search
Publication Cover
Critical Reviews in Biotechnology Volume 33, 2013 - Issue 3
Submit an article Journal homepage
1,807
Views
111
CrossRef citations to date
0
Altmetric
Review Article

Saliva proteome research: current status and future outlook

Benjamin L. SchulzSchool of Chemistry & Molecular Biosciences, St Lucia, The University of Queensland, Brisbane, QLD, Australia
,
Justin Cooper-White
&
Chamindie K. PunyadeeraCorrespondence[email protected]
Pages 246-259 | Received 12 Jan 2012, Accepted 18 Apr 2012, Published online: 21 May 2012

References

  • Yeh CK, Christodoulides NJ, Floriano PN, Miller CS, Ebersole JL, Weigum SE, McDevitt J, Redding SW. 2010. Current development of saliva/oral fluid-based diagnostics. Tex Dent J 127: 651–661.
  • Choi M. 2010. Saliva diagnostics integrate dentistry into general and preventive health care. Int J Prosthodont 23: 189.
  • Drake RR, Cazare LH, Semmes OJ, Wadsworth JT. 2005. Serum, salivary and tissue proteomics for discovery of biomarkers for head and neck cancers. Expert Rev Mol Diagn 5: 93–100.
  • Yan W, Apweiler R, Balgley BM, Boontheung P, Bundy JL, Cargile BJ, Cole S, Fang X, Gonzalez-Begne M, Griffin TJ, Hagen F, Hu S, Wolinsky LE, Lee CS, Malamud D, Melvin JE, Menon R, Mueller M, Qiao R, Rhodus NL, Sevinsky JR, States D, Stephenson JL, Than S, Yates JR, Yu W, Xie H, Xie Y, Omenn GS, Loo JA, Wong DT. 2009. Systematic comparison of the human saliva and plasma proteomes. Proteomics Clin Appl 3: 116–134.
  • Pisitkun T, Shen RF, Knepper MA. 2004. Identification and proteomic profiling of exosomes in human urine. Proc Natl Acad Sci USA 101: 13368–13373.
  • Bouwman FG, de Roos B, Rubio-Aliaga I, Crosley LK, Duthie SJ, Mayer C, Horgan G, Polley AC, Heim C, Coort SL, Evelo CT, Mulholland F, Johnson IT, Elliott RM, Daniel H, Mariman EC. 2011. 2D-electrophoresis and multiplex immunoassay proteomic analysis of different body fluids and cellular components reveal known and novel markers for extended fasting. BMC Med Genomics 4: 24.
  • Christodoulides N, Mohanty S, Miller CS, Langub MC, Floriano PN, Dharshan P, Ali MF, Bernard B, Romanovicz D, Anslyn E, Fox PC, McDevitt JT. 2005. Application of microchip assay system for the measurement of C-reactive protein in human saliva. Lab Chip 5: 261–269.
  • Heflin L Walsh S, Bagajewicz M. 2009. Design of medical diagnostics products: A case-study of a saliva diagnostics kit. Computers & Chemical Engineering 33: 1067–1076.
  • Gonçalves Lda R, Soares MR, Nogueira FC, Garcia CH, Camisasca DR, Domont G, Feitosa AC, Pereira DA, Zingali RB, Alves G. 2011. Analysis of the salivary proteome in gingivitis patients. J Periodont Res 46: 599–606.
  • Spielmann N, Wong DT. 2011. Saliva: diagnostics and therapeutic perspectives. Oral Dis 17: 345–354.
  • Hu S, Wong DT. 2008. Organisation WIP.
  • Rao PV, Reddy AP, Lu X, Dasari S, Krishnaprasad A, Biggs E, Roberts CT, Nagalla SR. 2009. Proteomic identification of salivary biomarkers of type-2 diabetes. J Proteome Res 8: 239–245.
  • Pfaffe T, Cooper-White J, Beyerlein P, Kostner K, Punyadeera C. 2011. Diagnostic potential of saliva: current state and future applications. Clin Chem 57: 675–687.
  • Loo JA, Yan W, Ramachandran P, Wong DT. 2010. Comparative human salivary and plasma proteomes. J Dent Res 89: 1016–1023.
  • He H, Sun G, Ping F, Cong Y. 2011. A new and preliminary three-dimensional perspective: proteomes of optimization between OSCC and OLK. Artif Cells Blood Substit Immobil Biotechnol 39: 26–30.
  • Zhang L, Xiao H, Karlan S, Zhou H, Gross J, Elashoff D, Akin D, Yan X, Chia D, Karlan B, Wong DT. 2010. Discovery and preclinical validation of salivary transcriptomic and proteomic biomarkers for the non-invasive detection of breast cancer. PLoS ONE 5: e15573.
  • Al-Tarawneh SK, Border MB, Dibble CF, Bencharit S. 2011. Defining salivary biomarkers using mass spectrometry-based proteomics: a systematic review. OMICS 15: 353–361.
  • Al Kawas S, Rahim ZH, Ferguson DB. 2012. Potential uses of human salivary protein and peptide analysis in the diagnosis of disease. Arch Oral Biol 57: 1–9.
  • Fleissig Y, Reichenberg E, Redlich M, Zaks B, Deutsch O, Aframian DJ, Palmon A. 2010. Comparative proteomic analysis of human oral fluids according to gender and age. Oral Dis 16: 831–838.
  • Gonçalves Lda R, Soares MR, Nogueira FC, Garcia C, Camisasca DR, Domont G, Feitosa AC, Pereira Dde A, Zingali RB, Alves G. 2010. Comparative proteomic analysis of whole saliva from chronic periodontitis patients. J Proteomics 73: 1334–1341.
  • Wilmarth PA, Riviere MA, Rustvold DL, Lauten JD, Madden TE, David LL. 2004. Two-dimensional liquid chromatography study of the human whole saliva proteome. J Proteome Res 3: 1017–1023.
  • Amado FM, Vitorino RM, Domingues PM, Lobo MJ, Duarte JA. 2005. Analysis of the human saliva proteome. Expert Rev Proteomics 2: 521–539.
  • Hirtz C, Chevalier F, Centeno D, Egea JC, Rossignol M, Sommerer N, de Périère D. 2005. Complexity of the human whole saliva proteome. J Physiol Biochem 61: 469–480.
  • Hu S, Li Y, Wang J, Xie Y, Tjon K, Wolinsky L, Loo RR, Loo JA, Wong DT. 2006. Human saliva proteome and transcriptome. J Dent Res 85: 1129–1133.
  • Hu S, Loo JA, Wong DT. 2007. Human saliva proteome analysis. Ann N Y Acad Sci 1098: 323–329.
  • Hu S, Loo JA, Wong DT. 2007. Human saliva proteome analysis and disease biomarker discovery. Expert Rev Proteomics 4: 531–538.
  • Dowling P, Wormald R, Meleady P, Henry M, Curran A, Clynes M. 2008. Analysis of the saliva proteome from patients with head and neck squamous cell carcinoma reveals differences in abundance levels of proteins associated with tumour progression and metastasis. J Proteomics 71: 168–175.
  • Punyadeera C, Dimeski G, Kostner K, Beyerlein P, Cooper-White J. 2011. One-step homogeneous C-reactive protein assay for saliva. J Immunol Methods 373: 19–25.
  • Ridker PM. 2005. C-reactive protein, inflammation, and cardiovascular disease: clinical update. Tex Heart Inst J 32: 384–386.
  • Ridker PM, Danielson E, Fonseca FA, Genest J, Gotto AM Jr, Kastelein JJ, Koenig W, Libby P, Lorenzatti AJ, MacFadyen JG, Nordestgaard BG, Shepherd J, Willerson JT, Glynn RJ; JUPITER Study Group. 2008. Rosuvastatin to prevent vascular events in men and women with elevated C-reactive protein. N Engl J Med 359: 2195–2207.
  • Arima H, Kubo M, Yonemoto K, Doi Y, Ninomiya T, Tanizaki Y, Hata J, Matsumura K, Iida M, Kiyohara Y. 2008. High-sensitivity C-reactive protein and coronary heart disease in a general population of Japanese: the Hisayama study. Arterioscler Thromb Vasc Biol 28: 1385–1391.
  • Nagler RM. 2009. Saliva as a tool for oral cancer diagnosis and prognosis. Oral Oncol 45: 1006–1010.
  • Shpitzer T, Bahar G, Feinmesser R, Nagler RM. 2007. A comprehensive salivary analysis for oral cancer diagnosis. J Cancer Res Clin Oncol 133: 613–617.
  • Wong DT. 2007. Oral Cancer and Saliva Diagnostics.. In: National Oral Health Conference (Denver CO).
  • Hu S, Gao K, Pollard R, Arellano-Garcia M, Zhou H, Zhang L, Elashoff D, Kallenberg CG, Vissink A, Wong DT. 2010. Preclinical validation of salivary biomarkers for primary Sjögren’s syndrome. Arthritis Care Res (Hoboken) 62: 1633–1638.
  • California Uo. 2010. Researchers find biomarkers in saliva for detection of early-stage pancreatic cancer.
  • Streckfus C, Bigler L, Dellinger T, Dai X, Kingman A, Thigpen JT. 2000. The presence of soluble c-erbB-2 in saliva and serum among women with breast carcinoma: a preliminary study. Clin Cancer Res 6: 2363–2370.
  • Streckfus CF, Mayorga-Wark O, Arreola D, Edwards C, Bigler L, Dubinsky WP. 2008. Breast cancer related proteins are present in saliva and are modulated secondary to ductal carcinoma in situ of the breast. Cancer Invest 26: 159–167.
  • Zha R. 1998. Saliva in research and clinical diagnosis - an overview. Annals Dent Univ Malaya 5:11–16.
  • Marmud D. 1992. Saliva as a diagnostic fluid Second now to blood? BMJ 305: 25.
  • Castagnola MPMP, Messana I, Fanali C, Fiorita A, Cabras T, Calò L, Pisano E, Passali GC, Iavarone F, Paludetti G, Scarano E. 2011. Potential applications of human saliva as diagnostic fluid. Acta Otorhinolaryngol Ital 31: 347–357.
  • Topkas E, Keith P, Dimeski G, Cooper-White J, Punyadeera C. 2012. Evaluation of saliva collection devices for the analysis of proteins. Clin Chim Acta 413: 1066–1070.
  • Laine M, Pienihäkkinen K, Leimola-Virtanen R. 1999. The effect of repeated sampling on paraffin-stimulated salivary flow rates in menopausal women. Arch Oral Biol 44: 93–95.
  • Anzano MA, Lamb AJ, Olson JA. 1981. Impaired salivary gland secretory function following the induction of rapid, synchronous vitamin A deficiency in rats. J Nutr 111: 496–504.
  • Haeckel R. 1990 Saliva, an alternative specimen in clinical chemistry. Journal of the International Federation of Clinical Chemnistrv 2: 208–217.
  • Malamud D. 2011. Saliva as a diagnostic fluid. Dent Clin North Am 55: 159–178.
  • Helmerhorst EJ, Oppenheim FG. 2007. Saliva: a dynamic proteome. J Dent Res 86: 680–693.
  • Caporossi L, Santoro A, Papaleo B. 2010. Saliva as an analytical matrix: state of the art and application for biomonitoring. Biomarkers 15: 475–487.
  • Humphrey SP, Williamson RT. 2001. A review of saliva: normal composition, flow, and function. J Prosthet Dent 85: 162–169.
  • Streckfus CF, Bigler LR. 2002. Saliva as a diagnostic fluid. Oral Dis 8: 69–76.
  • Dawes C, Jenkins GN. 1964. The effects of different stimuli on the composition of saliva in man. J Physiol (Lond) 170: 86–100.
  • Proctor GB, Carpenter GH, Garrett JR. 2000. Sympathetic decentralization abolishes increased secretion of immunoglobulin A evoked by parasympathetic stimulation of rat submandibular glands. J Neuroimmunol 109: 147–154.
  • Edwards AV, Titchen DA. 1992. Synergism in the autonomic regulation of parotid secretion of protein in sheep. J Physiol (Lond) 451: 1–15.
  • Carpenter GH, Proctor GB, Garrett JR. 2005. Preganglionic parasympathectomy decreases salivary SIgA secretion rates from the rat submandibular gland. J Neuroimmunol 160: 4–11.
  • Calvert PA, Heck PM, Edwards AV. 1998. Autonomic control of submandibular protein secretion in the anaesthetized calf. Exp Physiol 83: 545–556.
  • Bardow A, Nyvad B, Nauntofte B. 2001. Relationships between medication intake, complaints of dry mouth, salivary flow rate and composition, and the rate of tooth demineralization in situ. Arch Oral Biol 46: 413–423.
  • Alfredo A, Molinolo PA, Cristiane H, Squarize, Rogerio M, Castilho, Vyomesh Patel JSG. 2009. Dysregulated molecular networks in head and neck carcinogenesis. Oral Oncology 45: 324–334.
  • Turner RJ, Sugiya H. 2002. Understanding salivary fluid and protein secretion. Oral Dis 8: 3–11.
  • Navazesh M, Kumar SK; University of Southern California School of Dentistry. 2008. Measuring salivary flow: challenges and opportunities. J Am Dent Assoc 139 Suppl: 35S–40S.
  • Guajardo-Edwards CFSaC. 2011. Biometrics. (InTech, USA).
  • Ferguson DB. 1987. Current diagnostic uses of saliva. J Dent Res 66: 420–424.
  • Hirtz C, Chevalier F, Centeno D, Rofidal V, Egea JC, Rossignol M, Sommerer N, Deville de Périère D. 2005. MS characterization of multiple forms of alpha-amylase in human saliva. Proteomics 5: 4597–4607.
  • Gröschl M. 2008. Current status of salivary hormone analysis. Clin Chem 54: 1759–1769.
  • Gröschl M. 2009. The physiological role of hormones in saliva. Bioessays 31: 843–852.
  • Granger DA, Kivlighan KT, Fortunato C, Harmon AG, Hibel LC, Schwartz EB, Whembolua GL. 2007. Integration of salivary biomarkers into developmental and behaviorally-oriented research: problems and solutions for collecting specimens. Physiol Behav 92: 583–590.
  • Megson E, Fitzsimmons T, Dharmapatni K, Mark Bartold P. 2010. C-reactive protein in gingival crevicular fluid may be indicative of systemic inflammation. J Clin Periodontol 37: 797–804.
  • Walsh CT, Garneau-Tsodikova S, Gatto GJ Jr. 2005. Protein posttranslational modifications: the chemistry of proteome diversifications. Angew Chem Int Ed Engl 44: 7342–7372.
  • Bandhakavi S, Stone MD, Onsongo G, Van Riper SK, Griffin TJ. 2009. A dynamic range compression and three-dimensional peptide fractionation analysis platform expands proteome coverage and the diagnostic potential of whole saliva. J Proteome Res 8: 5590–5600.
  • Dawes C. 1993. Considerations in the development of diagnostic tests on saliva. Ann N Y Acad Sci 694: 265–269.
  • Whiteaker JR, Lin C, Kennedy J, Hou L, Trute M, Sokal I, Yan P, Schoenherr RM, Zhao L, Voytovich UJ, Kelly-Spratt KS, Krasnoselsky A, Gafken PR, Hogan JM, Jones LA, Wang P, Amon L, Chodosh LA, Nelson PS, McIntosh MW, Kemp CJ, Paulovich AG. 2011. A targeted proteomics-based pipeline for verification of biomarkers in plasma. Nat Biotechnol 29: 625–634.
  • Oppenheim FG, Salih E, Siqueira WL, Zhang W, Helmerhorst EJ. 2007. Salivary proteome and its genetic polymorphisms. Ann N Y Acad Sci 1098: 22–50.
  • Interleukin 6 and interleukin 8 as potential biomarkers for oral cavity and oropharyngeal squamous cell carcinoma. 2004. Interleukin 6 and interleukin 8 as potential biomarkers for oral cavity and oropharyngeal squamous cell carcinoma. (Translated from eng) Arch Otolaryngol Head Neck Surg 130: 929–935 (in eng).
  • Ghezzi EM, Ship JA. 2003. Aging and secretory reserve capacity of major salivary glands. J Dent Res 82: 844–848.
  • Westermark A, Pyykkö I, Magnusson M, Ishizaki H, Jäntti P, van Setten G. 2002. Basic fibroblast growth factor in human saliva decreases with aging. Laryngoscope 112: 887–889.
  • Dawes C. 2008. Salivary flow patterns and the health of hard and soft oral tissues. J Am Dent Assoc 139: 18S–24S.
  • Hansen AM, Garde AH, Persson R. 2008. Measurement of salivary cortisol–effects of replacing polyester with cotton and switching antibody. Scand J Clin Lab Invest 68: 826–829.
  • Hansen AM, Garde AH, Persson R. 2008. Sources of biological and methodological variation in salivary cortisol and their impact on measurement among healthy adults: a review. Scand J Clin Lab Invest 68: 448–458.
  • Mandel ID, Kutscher A, Denning CR, Thompson RH Jr, Zegarelli EV. 1967. Salivary studies in cystic fibrosis. Am J Dis Child 113: 431–438.
  • Mandel ID. 1974. Relation of saliva and plaque to caries. J Dent Res 53: 246–266.
  • Messana I, Inzitari R, Fanali C, Cabras T, Castagnola M. 2008. Facts and artifacts in proteomics of body fluids. What proteomics of saliva is telling us? J Sep Sci 31: 1948–1963.
  • Huang CM, Zhu W. 2009. Profiling human saliva endogenous peptidome via a high throughput MALDI-TOF-TOF mass spectrometry. Comb Chem High Throughput Screen 12: 521–531.
  • Gillies PA, Wilcox B, Coates C, Kristmundsdöttir F, Reid DJ. 1982. Use of objective measurement in the validation of self-reported smoking in children aged 10 and 11 years: saliva thiocyanate. J Epidemiol Community Health 36: 205–208.
  • Forman D, Al-Dabbagh S, Doll R. 1985. Nitrates, nitrites and gastric cancer in Great Britain. Nature 313: 620–625.
  • Bandhakavi S, Van Riper SK, Tawfik PN, Stone MD, Haddad T, Rhodus NL, Carlis JV, Griffin TJ. 2011. Hexapeptide libraries for enhanced protein PTM identification and relative abundance profiling in whole human saliva. J Proteome Res 10: 1052–1061.
  • Navazesh M, Kumar SKS. 2008. Measuring salivary flow: Challenges and opportunities. J Am Dent Assoc 139 (suppl_2):35S–40S.
  • Carlson AJ, Crittenden AL. 1910. The relation of ptyalin concentration to the diet and to the rate of secretion of the saliva. American Journal of Physiology -- Legacy Content 26: 169–177.
  • Heft MW, Baum BJ. 1984. Unstimulated and stimulated parotid salivary flow rate in individuals of different ages. J Dent Res 63: 1182–1185.
  • K. SL. 1916. Reflex secretion of the human parotid gland. Journal of Experimental Psychology 1: 461–493.
  • Schipper R, Loof A, de Groot J, Harthoorn L, Dransfield E, van Heerde W. 2007. SELDI-TOF-MS of saliva: methodology and pre-treatment effects. J Chromatogr B Analyt Technol Biomed Life Sci 847: 45–53.
  • Esser D, Alvarez-Llamas G, de Vries MP, Weening D, Vonk RJ, Roelofsen H. 2008. Sample Stability and Protein Composition of Saliva: Implications for Its Use as a Diagnostic Fluid. Biomark Insights 3: 25–27.
  • Baum BJ. 1981. Clinical Science. Journal of Dental Research 60: 1292–1296.
  • Huang CM. 2004. Comparative proteomic analysis of human whole saliva. Arch Oral Biol 49: 951–962.
  • Atkinson KR, Lo KR, Payne SR, Mitchell JS, Ingram JR. 2008. Rapid saliva processing techniques for near real-time analysis of salivary steroids and protein. J Clin Lab Anal 22: 395–402.
  • Michishige F, Kanno K, Yoshinaga S, Hinode D, Takehisa Y, Yasuoka S. 2006. Effect of saliva collection method on the concentration of protein components in saliva. J Med Invest 53: 140–146.
  • Pearson BL, Judge PG, Reeder DM. 2008. Effectiveness of saliva collection and enzyme-immunoassay for the quantification of cortisol in socially housed baboons. Am J Primatol 70: 1145–1151.
  • Saunte C. 1983. Quantification of salivation, nasal secretion and tearing in man. Cephalalgia 3: 159–173.
  • Vitorino R, Lobo MJ, Ferrer-Correira AJ, Dubin JR, Tomer KB, Domingues PM, Amado FM. 2004. Identification of human whole saliva protein components using proteomics. Proteomics 4: 1109–1115.
  • Stone MD, Chen X, McGowan T, Bandhakavi S, Cheng B, Rhodus NL, Griffin TJ. 2011. Large-scale phosphoproteomics analysis of whole saliva reveals a distinct phosphorylation pattern. J Proteome Res 10: 1728–1736.
  • Nurkka A, Obiero J, Käyhty H, Scott JA. 2003. Effects of sample collection and storage methods on antipneumococcal immunoglobulin A in saliva. Clin Diagn Lab Immunol 10: 357–361.
  • Jessie K, Pang WW, Haji Z, Rahim A, Hashim OH. 2010. Proteomic analysis of whole human saliva detects enhanced expression of interleukin-1 receptor antagonist, thioredoxin and lipocalin-1 in cigarette smokers compared to non-smokers. Int J Mol Sci 11: 4488–4505.
  • Soares S, Vitorino R, Osório H, Fernandes A, Venâncio A, Mateus N, Amado F, de Freitas V. 2011. Reactivity of human salivary proteins families toward food polyphenols. J Agric Food Chem 59: 5535–5547.
  • Whitelegge JP, Zabrouskov V, Halgand F, Souda P, Bassilian S, Yan W, Wolinsky L, Loo JA, Wong DT, Faull KF. 2007. Protein-Sequence Polymorphisms and Post-translational Modifications in Proteins from Human Saliva using Top-Down Fourier-transform Ion Cyclotron Resonance Mass Spectrometry. Int J Mass Spectrom 268: 190–197.
  • Vitorino R, Alves R, Barros A, Caseiro A, Ferreira R, Lobo MC, Bastos A, Duarte J, Carvalho D, Santos LL, Amado FL. 2010. Finding new posttranslational modifications in salivary proline-rich proteins. Proteomics 10: 3732–3742.
  • Molloy MP, Herbert BR, Williams KL, Gooley AA. 1999. Extraction of Escherichia coli proteins with organic solvents prior to two-dimensional electrophoresis. Electrophoresis 20: 701–704.
  • Pasquali C, Fialka I, Huber LA. 1999. Subcellular fractionation, electromigration analysis and mapping of organelles. J Chromatogr B Biomed Sci Appl 722: 89–102.
  • Krief G, Deutsch O, Gariba S, Zaks B, Aframian DJ, Palmon A. 2011. Improved visualization of low abundance oral fluid proteins after triple depletion of alpha amylase, albumin and IgG. Oral Dis 17: 45–52.
  • Hage DS. 1999. Affinity chromatography: a review of clinical applications. Clin Chem 45: 593–615.
  • Fang X, Zhang WW. 2008. Affinity separation and enrichment methods in proteomic analysis. J Proteomics 71: 284–303.
  • Righetti PG, Fasoli E, Boschetti E. 2011. Combinatorial peptide ligand libraries: the conquest of the ‘hidden proteome’ advances at great strides. Electrophoresis 32: 960–966.
  • Dwivedi RC, Krokhin OV, Cortens JP, Wilkins JA. 2010. Assessment of the reproducibility of random hexapeptide peptide library-based protein normalization. J Proteome Res 9: 1144–1149.
  • Hartwig S, Czibere A, Kotzka J, Passlack W, Haas R, Eckel J, Lehr S. 2009. Combinatorial hexapeptide ligand libraries (ProteoMiner): an innovative fractionation tool for differential quantitative clinical proteomics. Arch Physiol Biochem 115: 155–160.
  • Nita-Lazar A, Saito-Benz H, White FM. 2008. Quantitative phosphoproteomics by mass spectrometry: past, present, and future. Proteomics 8: 4433–4443.
  • Thingholm TE, Jensen ON, Larsen MR. 2009. Analytical strategies for phosphoproteomics. Proteomics 9: 1451–1468.
  • Zielinska DF, Gnad F, Wisniewski JR, Mann M. 2010. Precision mapping of an in vivo N-glycoproteome reveals rigid topological and sequence constraints. Cell 141: 897–907.
  • Gámez-Pozo A, Sánchez-Navarro I, Calvo E, Díaz E, Miguel-Martín M, López R, Agulló T, Camafeita E, Espinosa E, López JA, Nistal M, Vara JÁ. 2011. Protein phosphorylation analysis in archival clinical cancer samples by shotgun and targeted proteomics approaches. Mol Biosyst 7: 2368–2374.
  • Christiansen MN, Kolarich D, Nevalainen H, Packer NH, Jensen PH. 2010. Challenges of determining O-glycopeptide heterogeneity: a fungal glucanase model system. Anal Chem 82: 3500–3509.
  • Gilar M, Yu YQ, Ahn J, Xie H, Han H, Ying W, Qian X. 2011. Characterization of glycoprotein digests with hydrophilic interaction chromatography and mass spectrometry. Anal Biochem 417: 80–88.
  • Li Y, Larsson EL, Jungvid H, Galaev IYu, Mattiasson B. 2000. Affinity chromatography of neoglycoproteins. Bioseparation 9: 315–323.
  • Li Y, Pfüller U, Larsson EL, Jungvid H, Galaev IYu, Mattiasson B. 2001. Separation of mistletoe lectins based on the degree of glycosylation using boronate affinity chromatography. J Chromatogr A 925: 115–121.
  • Zhang H, Li XJ, Martin DB, Aebersold R. 2003. Identification and quantification of N-linked glycoproteins using hydrazide chemistry, stable isotope labeling and mass spectrometry. Nat Biotechnol 21: 660–666.
  • Zhang M, Gazzard G, Fu Z, Li L, Chen B, Saw SM, Congdon N. 2011. Validating the accuracy of a model to predict the onset of myopia in children. Invest Ophthalmol Vis Sci 52: 5836–5841.
  • Ramachandran P, Boontheung P, Xie Y, Sondej M, Wong DT, Loo JA. 2006. Identification of N-linked glycoproteins in human saliva by glycoprotein capture and mass spectrometry. J Proteome Res 5: 1493–1503.
  • Sondej M, Denny PA, Xie Y, Ramachandran P, Si Y, Takashima J, Shi W, Wong DT, Loo JA, Denny PC. 2009. Glycoprofiling of the Human Salivary Proteome. Clin Proteomics 5: 52–68.
  • Sharon N, Lis H. 1995. Lectins–proteins with a sweet tooth: functions in cell recognition. Essays Biochem 30: 59–75.
  • Drake RR, Schwegler EE, Malik G, Diaz J, Block T, Mehta A, Semmes OJ. 2006. Lectin capture strategies combined with mass spectrometry for the discovery of serum glycoprotein biomarkers. Mol Cell Proteomics 5: 1957–1967.
  • Helmerhorst EJ. 2007. Whole Saliva Proteolysis. Annals of the New York Academy of Sciences 1098: 454–460.
  • Schulz BL, Oxley D, Packer NH, Karlsson NG. 2002. Identification of two highly sialylated human tear-fluid DMBT1 isoforms: the major high-molecular-mass glycoproteins in human tears. Biochem J 366: 511–520.
  • Issa SM, Schulz BL, Packer NH, Karlsson NG. 2011. Analysis of mucosal mucins separated by SDS-urea agarose polyacrylamide composite gel electrophoresis. Electrophoresis 32: 3554–3563.
  • Wilson NL, Schulz BL, Karlsson NG, Packer NH. 2002. Sequential analysis of N- and O-linked glycosylation of 2D-PAGE separated glycoproteins. J Proteome Res 1: 521–529.
  • Wada Y, Dell A, Haslam SM, Tissot B, Canis K, Azadi P, Bäckström M, Costello CE, Hansson GC, Hiki Y, Ishihara M, Ito H, Kakehi K, Karlsson N, Hayes CE, Kato K, Kawasaki N, Khoo KH, Kobayashi K, Kolarich D, Kondo A, Lebrilla C, Nakano M, Narimatsu H, Novak J, Novotny MV, Ohno E, Packer NH, Palaima E, Renfrow MB, Tajiri M, Thomsson KA, Yagi H, Yu SY, Taniguchi N. 2010. Comparison of methods for profiling O-glycosylation: Human Proteome Organisation Human Disease Glycomics/Proteome Initiative multi-institutional study of IgA1. Mol Cell Proteomics 9: 719–727.
  • Ruhaak LR, Zauner G, Huhn C, Bruggink C, Deelder AM, Wuhrer M. 2010. Glycan labeling strategies and their use in identification and quantification. Anal Bioanal Chem 397: 3457–3481.
  • Brooks SA. 2009. Strategies for analysis of the glycosylation of proteins: current status and future perspectives. Mol Biotechnol 43: 76–88.
  • Kawasaki T, Shimizu M, Satsuma H, Fujiwara A, Fujie M, Usami S, Yamada T. 2009. Genomic characterization of Ralstonia solanacearum phage phiRSB1, a T7-like wide-host-range phage. J Bacteriol 191: 422–427.
  • Mariño K, Bones J, Kattla JJ, Rudd PM. 2010. A systematic approach to protein glycosylation analysis: a path through the maze. Nat Chem Biol 6: 713–723.
  • Cooper CA, Harrison MJ, Wilkins MR, Packer NH. 2001. GlycoSuiteDB: a new curated relational database of glycoprotein glycan structures and their biological sources. Nucleic Acids Res 29: 332–335.
  • Joshi HJ, Harrison MJ, Schulz BL, Cooper CA, Packer NH, Karlsson NG. 2004. Development of a mass fingerprinting tool for automated interpretation of oligosaccharide fragmentation data. Proteomics 4: 1650–1664.
  • Joshi HJ, von der Lieth CW, Packer NH, Wilkins MR. 2010. GlycoViewer: a tool for visual summary and comparative analysis of the glycome. Nucleic Acids Res 38: W667–W670.
  • Hayes CA, Karlsson NG, Struwe WB, Lisacek F, Rudd PM, Packer NH, Campbell MP. 2011. UniCarb-DB: a database resource for glycomic discovery. Bioinformatics 27: 1343–1344.
  • von der Lieth CW, Freire AA, Blank D, Campbell MP, Ceroni A, Damerell DR, Dell A, Dwek RA, Ernst B, Fogh R, Frank M, Geyer H, Geyer R, Harrison MJ, Henrick K, Herget S, Hull WE, Ionides J, Joshi HJ, Kamerling JP, Leeflang BR, Lütteke T, Lundborg M, Maass K, Merry A, Ranzinger R, Rosen J, Royle L, Rudd PM, Schloissnig S, Stenutz R, Vranken WF, Widmalm G, Haslam SM. 2011. EUROCarbDB: An open-access platform for glycoinformatics. Glycobiology 21: 493–502.
  • Christianen M, et al. 2011. Predictive models for dysphagia after (chemo) radiation in head and neck cancer: a multi-center prospective cohort study. Radiotherapy and Oncology 98 (Suppl 1):S13–S14.
  • Ueda K, Takami S, Saichi N, Daigo Y, Ishikawa N, Kohno N, Katsumata M, Yamane A, Ota M, Sato TA, Nakamura Y, Nakagawa H. 2010. Development of serum glycoproteomic profiling technique; simultaneous identification of glycosylation sites and site-specific quantification of glycan structure changes. Mol Cell Proteomics 9: 1819–1828.
  • Therkildsen MH, Mandel U, Christensen M, Clausen H, Dabelsteen E. 1993. Simple mucin-type carbohydrate antigens in pleomorphic adenomas. APMIS 101: 242–248.
  • Thomsson KA, Schulz BL, Packer NH, Karlsson NG. 2005. MUC5B glycosylation in human saliva reflects blood group and secretor status. Glycobiology 15: 791–804.
  • Schulz BL, Sloane AJ, Robinson LJ, Prasad SS, Lindner RA, Robinson M, Bye PT, Nielson DW, Harry JL, Packer NH, Karlsson NG. 2007. Glycosylation of sputum mucins is altered in cystic fibrosis patients. Glycobiology 17: 698–712.
  • Schulz BL, Sloane AJ, Robinson LJ, Sebastian LT, Glanville AR, Song Y, Verkman AS, Harry JL, Packer NH, Karlsson NG. 2005. Mucin glycosylation changes in cystic fibrosis lung disease are not manifest in submucosal gland secretions. Biochem J 387: 911–919.
  • Cabras T, Fanali C, Monteiro JA, Amado F, Inzitari R, Desiderio C, Scarano E, Giardina B, Castagnola M, Messana I. 2007. Tyrosine polysulfation of human salivary histatin 1. A post-translational modification specific of the submandibular gland. J Proteome Res 6: 2472–2480.
  • Keshishian H, Addona T, Burgess M, Kuhn E, Carr SA. 2007. Quantitative, multiplexed assays for low abundance proteins in plasma by targeted mass spectrometry and stable isotope dilution. Mol Cell Proteomics 6: 2212–2229.
  • Kasinathan C, Gandhi N, Ramaprasad P, Sundaram P, Ramasubbu N. 2007. Tyrosine sulfation of statherin. Int J Biol Sci 3: 237–241.
  • Lange V, Picotti P, Domon B, Aebersold R. 2008. Selected reaction monitoring for quantitative proteomics: a tutorial. Mol Syst Biol 4: 222.
  • Gallien S, Duriez E, Domon B. 2011. Selected reaction monitoring applied to proteomics. J Mass Spectrom 46: 298–312.
  • Hu S, Xie Y, Ramachandran P, Ogorzalek Loo RR, Li Y, Loo JA, Wong DT. 2005. Large-scale identification of proteins in human salivary proteome by liquid chromatography/mass spectrometry and two-dimensional gel electrophoresis-mass spectrometry. Proteomics 5: 1714–1728.
  • Xie H, Rhodus NL, Griffin RJ, Carlis JV, Griffin TJ. 2005. A catalogue of human saliva proteins identified by free flow electrophoresis-based peptide separation and tandem mass spectrometry. Mol Cell Proteomics 4: 1826–1830.
  • Denny P, Hagen FK, Hardt M, Liao L, Yan W, Arellanno M, Bassilian S, Bedi GS, Boontheung P, Cociorva D, Delahunty CM, Denny T, Dunsmore J, Faull KF, Gilligan J, Gonzalez-Begne M, Halgand F, Hall SC, Han X, Henson B, Hewel J, Hu S, Jeffrey S, Jiang J, Loo JA, Ogorzalek Loo RR, Malamud D, Melvin JE, Miroshnychenko O, Navazesh M, Niles R, Park SK, Prakobphol A, Ramachandran P, Richert M, Robinson S, Sondej M, Souda P, Sullivan MA, Takashima J, Than S, Wang J, Whitelegge JP, Witkowska HE, Wolinsky L, Xie Y, Xu T, Yu W, Ytterberg J, Wong DT, Yates JR 3rd., Fisher SJ. 2008. The proteomes of human parotid and submandibular/sublingual gland salivas collected as the ductal secretions. J Proteome Res 7: 1994–2006.
  • Guo T. 2006. J. Proteome Res. 5: 1469.
  • Hardt M, Thomas LR, Dixon SE, Newport G, Agabian N, Prakobphol A, Hall SC, Witkowska HE, Fisher SJ. 2005. Toward defining the human parotid gland salivary proteome and peptidome: identification and characterization using 2D SDS-PAGE, ultrafiltration, HPLC, and mass spectrometry. Biochemistry 44: 2885–2899.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.