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Food Reviews International Volume 29, 2013 - Issue 4
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Original Articles

Biological and Chemical Databases for Research into the Composition of Animal Source Foods

Piotr Minkiewicz Department of Food Biochemistry, University of Warmia and Mazury in Olsztyn, Olsztyn-Kortowo, PolandCorrespondence[email protected]
,
Jan Miciński Department of Cattle Breeding and Milk Evaluation, University of Warmia and Mazury in Olsztyn, Olsztyn-Kortowo, Poland
,
Małgorzata Darewicz Department of Food Biochemistry, University of Warmia and Mazury in Olsztyn, Olsztyn-Kortowo, Poland
&
Justyna Bucholska Department of Food Biochemistry, University of Warmia and Mazury in Olsztyn, Olsztyn-Kortowo, Poland
Pages 321-351 | Published online: 09 Sep 2013

References

  • Zapletal , D. , Kuchtík , J. and Dobeš , I. 2010 . The effect of genotype on the chemical and fatty acid composition of the Quadriceps femoris muscle in extensively fattened lambs . Arch. Tierz. , 53 : 589 – 599 .
  • Czerniawska-Piątkowska , E. , Szewczuk , M. and Zych , S. 2011 . Association between genetic polymorphism of growth-hormone-releasing hormone and the yield, chemical composition and technological parameters of cow milk [brief report] . Arch. Tierz. , 54 : 323 – 325 .
  • Manga , I. and Říha , H. 2011 . The DGAT1 gene K232A mutation is associated with milk fat content, milk yield and milk somatic cell count in cattle [short communication] . Arch. Tierz. , 54 : 257 – 263 .
  • Molik , E. , Bonczar , G. , Żebrowska , A. , Misztal , T. , Pustkowiak , H. and Zięba , D. 2011 . Effect of day length and exogenous melatonin on chemical composition of sheep milk . Arch. Tierz. , 54 : 177 – 187 .
  • Miciński , J. , Zwierzchowski , G. , Kowalski , I.M. , Wojtkiewicz , J. and Szarek , J. 2012 . Health-supporting properties of beef . J. Elementol. , 17 : 149 – 157 .
  • Okruszek , A . 2012 . Fatty acid composition of muscle and adipose tissue of indigenous Polish geese breeds . Arch. Tierz. , 55 : 294 – 302 .
  • Pogorzelska , J. , Miciński , J. , Ostoja , H. , Kowalski , I.M. , Szarek , J. and Strzyżewska , E. 2013 . Quality traits of meat from young Limousin, Charolais and Hereford bulls . Pak. Vet. J. , 33 : 65 – 68 .
  • Garcia , A.B. 2013 . The use of data mining techniques to discover knowledge from animal and food data: Examples related to the cattle industry . Trends Food Sci. Technol. , 29 : 151 – 157 .
  • Casado , B. , Affolter , M. and Kussmann , M. 2009 . OMICS-rooted studies of milk proteins, oligosaccharides and lipids . J. Proteomics , 73 : 196 – 208 .
  • Antignac , J.P. , Courant , F. , Pinel , G. , Bichon , E. , Monteau , F. , Elliott , C. and Le Bizec , B. 2011 . Mass spectrometry-based metabolomics applied to the chemical safety of food . Trends Anal. Chem. , 30 : 292 – 301 .
  • Herrero , M. , Simó , C. , Garcia-Cañas , V. , Ibáñez , E. and Cifuenes , A. 2012 . Foodomics: MS-based strategies in modern food science and nutrition . Mass Spectrom. Rev. , 31 : 49 – 69 .
  • Fadiel , A. , Anidi , I. and Eichenbaum , K.D. 2005 . Farm animal genomics and informatics: An update . Nucleic Acids Res. , 33 : 6308 – 6318 .
  • Roncada , P. , Piras , C. , Soggiu , A. , Turk , R. , Urbani , A. and Bonizzi , L. 2012 . Farm animal milk proteomics . J. Proteomics , 75 : 4259 – 4274 .
  • Mills , S. , Ross , R.P. , Hill , C. , Fitzgerald , G.F. and Stanton , C. 2011 . Milk intelligence: Mining for bioactive substances associated in human health . Int. Dairy J. , 21 : 377 – 401 .
  • Decker , E.A. and Park , Y. 2010 . Healthier meat products as functional foods . Meat Sci. , 86 : 49 – 55 .
  • Sosnicki , A.A. and Newman , S. 2010 . The support of meat value chains by genetic technologies . Meat Sci. , 86 : 129 – 137 .
  • Wild , D.J. 2009 . Grand challenges for cheminformatics . J. Cheminf. , 1 Article 1
  • Searls , D.B. 2010 . The roots of bioinformatics . PLoS Comput. Biol. , 6 Article e1000809
  • Doolittle , R.F. 2010 . The roots of bioinformatics in protein evolution . PLoS Comput. Biol. , 6 Article e1000875
  • Hogeweg , P. 2011 . The roots of bioinformatics in theoretical biology . PLoS Comput. Biol. , 7 Article e1002021
  • Menschaert , G. , Vandekerckhove , T.T.M. , Baggerman , G. , Schoofs , L. , Luyten , W. and Criekinge , W.V. 2010 . Peptidomics coming of age: A review of contributions from a bioinformatics angle . J. Proteome Res. , 9 : 2051 – 2061 .
  • Panchaud , A. , Affolter , M. and Kussmann , M. 2012 . Mass spectrometry for nutritional peptidomics: How to analyze food bioactives and their health effects . J. Proteomics , 75 : 3546 – 3559 .
  • Soares , R. , Franco , C. , Pires , E. , Ventosa , M. , Palhinhasa , R. , Kocia , K. , de Almeida , A.M. and Varela Coelho , A. 2012 . Mass spectrometry and animal science: Protein identification strategies and particularities of farm animal species . J. Proteomics , 75 : 4190 – 4206 .
  • Di Stefano , V. , Avellone , G. , Bongiorno , D. , Cunsolo , V. , Muccilli , V. , Sforza , S. , Dossena , A. , Drahos , L. and Vékey , K. 2012 . Applications of liquid chromatography-mass spectrometry for food analysis . J. Chromatogr. A , 1259 : 74 – 85 .
  • Martínez-Mayorga , K. and Medina-Franco , J.L. 2009 . Chemoinformatics—Applications in food chemistry . Adv. Food Nutr. Res. , 58 : 33 – 56 .
  • Jelić , D. , Toth , D. and Verbanac , D. 2003 . Macromolecular databases—A background of bioinformatics. Food Technol . Biotechnol. , 41 : 269 – 286 .
  • Darewicz , M. , Dziuba , B. , Minkiewicz , P. and Dziuba , J. 2011 . The preventive potential of milk and colostrum proteins and protein fragments . Food Rev. Int. , 27 : 357 – 388 .
  • Leinonen , R. , Akhtar , R. , Birney , E. , Bower , L. , Cerdeno-Tárraga , A. , Cheng , Y. , Cleland , I. , Faruque , N. , Goodgame , N. , Gibson , R. , Hoad , G. , Jang , M. , Pakseresht , N. , Plaister , S. , Radhakrishnan , R. , Reddy , K. , Sobhany , S. , Ten Hoopen , P. , Vaughan , R. , Zalunin , V. and Cochrane , G. 2011 . The European Nucleotide Archive . Nucleic Acids Res. , 39 : D28 – D31 .
  • Amid , C. , Birney , E. , Bower , L. , Cerdeno-Tárraga , A. , Cheng , Y. , Cleland , I. , Faruque , N. , Gibson , R. , Goodgame , N. , Hunter , C. , Jang , M. , Leinonen , R. , Liu , X. , Oisel , A. , Pakseresht , N. , Plaister , S. , Radhakrishnan , R. , Reddy , K. , Riviere , S. , Rossello , M. , Senf , A. , Smirnov , D. , Ten Hoopen , P. , Vaughan , D. , Vaughan , R. , Zalunin , V. and Cochrane , G. 2012 . Major submissions tool developments at the European Nucleotide Archive . Nucleic Acids Res. , 40 : D43 – D47 .
  • Benson , D.A. , Karsch-Mizrachi , I. , Clark , K. , Lipman , D.J. , Ostell , J. and Sayers , E.W. 2012 . GenBank . Nucleic Acids Res. , 40 : D48 – D53 .
  • The UniProt Consortium Reorganizing the protein space at the Universal Protein Resource (UniProt) . 2012 . Nucleic Acids Res. , 40 : D71 – D75 .
  • Sayers , E.W. , Barrett , T. , Benson , D.A. , Bolton , E. , Bryant , S.E. , Canesel , K. , Chetvernin , V. , Church , D.M. , DiCuccio , M. , Federhen , S. , Feolo , M. , Fingerman , I.M. , Geer , L.Y. , Helmberg , W. , Kapustin , Y. , Krasnov , S. , Landsman , D. , Lipman , D.J. , Lu , Z. , Madden , T.L. , Madej , T. , Maglott , D.R. , Marchler-Bauer , A. , Miller , V. , Karsch-Mizrachi , I. , Ostell , J. , Panchenko , A. , Phan , L. , Pruitt , K.D. , Schuler , G.D. , Sequeira , E. , Sherry , S.T. , Shumway , M. , Sirotkin , K. , Slotta , D. , Souvorov , A. , Starchenko , G. , Tatusova , T.A. , Wagner , L. , Wang , Y. , Wilbur , W.J. , Yaschenko , E. and Ye , J. 2012 . Database resources of the National Center for Biotechnology Information . Nucleic Acids Res. , 40 : D13 – D25 .
  • Rose , P.W. , Beran , B. , Bi , C. , Bluhm , W.F. , Dimitropoulos , D. , Goodsell , D.S. , Prlić , A. , Quesada , M. , Quinn , G.B. , Westbrook , J.D. , Young , Y. , Yukich , B. , Zardecki , C. , Berman , H.M. and Bourne , P.E. 2011 . The RCSB Protein Data Bank: Redesigned web site and web services . Nucleic Acids Res. , 39 : D392 – D401 .
  • Velankar , S. , Alhroub , Y. , Best , C. , Caboche , S. , Conroy , M.J. , Dana , J.M. , Fernandez Montecelo , M.A. , van Ginkel , G. , Golovin , A. , Gore , S.P. , Gutmanas , A. , Haslam , P. , Hendrickx , P.M.S. , Heuson , E. , Hirshberg , M. , John , M. , Lagerstedt , I. , Mir , S. , Newman , L.E. , Oldfield , T.J. , Patwardhan , A. , Rinaldi , L. , Sahni , G. , Sanz-García , E. , Sen , S. , Slowley , R. , Suarez-Uruena , A. , Swaminathan , G.J. , Symmons , M.F. , Vranken , W.F. , Wainwright , M. and Kleywegt , G.J. 2012 . PDBe: Protein Data Bank in Europe . Nucleic Acids Res. , 40 : D445 – D452 .
  • Kinjo , A.R. , Suzuki , H. , Yamashita , R. , Ikegawa , Y. , Kudou , T. , Igarashi , R. , Kengaku , Y. , Cho , H. , Standley , D.M. , Nakagawa , A. and Nakamura , H. 2012 . Protein Data Bank Japan (PDBj): Maintaining a structural data archive and resource description framework format . Nucleic Acids Res. , 40 : D453 – D460 .
  • Minkiewicz , P. , Dziuba , J. , Iwaniak , A. , Dziuba , M. and Darewicz , M. 2008 . BIOPEP database and other programs for processing bioactive peptide sequences . J. AOAC Int. , 91 : 965 – 980 .
  • Zamyatnin , A.A. , Borchikov , A.S. , Vladimirov , M.G. and Voronina , O.L. 2006 . The EROP-Moscow oligopeptide database . Nucleic Acids Res. , 34 : D261 – D266 .
  • Shtatland , T. , Guettler , D. , Kossodo , M. , Pivovarov , M. and Weissleder , R. 2007 . PepBank—A database of peptides based on sequence text mining and public peptide data sources . BMC Bioinf. , 8, Article 280
  • Duchrow , T. , Shtatland , T. , Guettler , D. , Pivovarov , M. , Kramer , S. and Weissleder , R. 2009 . Enhancing navigation in biomedical databases by community voting and database-driven text classification . BMC Bioinf. , 10 Article 317
  • Mari , A. , Scala , E. , Palazzo , P. , Ridolfi , S. , Zennaro , D. and Carabella , G. 2006 . Bioinformatics applied to allergy: Allergen databases, from collecting sequence information to data integration . The Allergome platform as a model. Cell. Immunol. , 244 : 97 – 100 .
  • Mari , A. , Rasi , C. , Palazzo , P. and Scala , E. 2009 . Allergen databases: Current status and perspectives. Curr . Allergy Asthma Rep. , 9 : 376 – 383 .
  • Minkiewicz , P. , Dziuba , J. and Gładkowska-Balewicz , I. 2011 . Update of the list of allergenic proteins from milk based on local amino acid sequence identity with known epitopes from bovine milk proteins—A short report . Pol. J. Food Nutr. Sci. , 61 : 153 – 158 .
  • Kim , Y. , Sette , A. and Peters , B. 2011 . Applications for T-cell epitope queries and tools in the Immune Epitope Database and Analysis Resource . J. Immunol. Methods , 374 : 62 – 69 .
  • Kim , Y. , Ponomarenko , J. , Zhu , Z. , Tamang , D. , Wang , P. , Greenbaum , J. , Lundegaard , C. , Sette , A. , Lund , O. , Bourne , P.E. , Nielsen , M. and Peters , B. 2012 . Immune epitope database analysis resource . Nucleic Acids Res. , 40 : W525 – W530 .
  • Scheer , M. , Grote , A. , Chang , A. , Schomburg , I. , Munaretto , C. , Rother , M. , Söhngen , C. , Stelzer , M. , Thiele , J. and Schomburg , D. 2011 . BRENDA, the enzyme information system in 2011 . Nucleic Acids Res. , 39 : D670 – D676 .
  • Rawlings , N.D. , Barrett , A.J. and Bateman , A. 2012 . MEROPS: The database of proteolytic enzymes, their substrates and inhibitors . Nucleic Acids Res. , 40 : D343 – D350 .
  • Taguchi , R. , Nishijima , M. and Shimizu , T. 2007 . Basic analytical systems for lipidomics by mass spectrometry in Japan . Methods Enzymol. , 432 : 185 – 211 .
  • Sud , M. , Fahy , E. , Cotter , D. , Brown , A. , Dennis , E.A. , Glass , C.K. , Merrill , A.H. , Murphy , R.C. , Raetz , C.R.H. , Russell , D.W. and Subramaniam , S. 2007 . LMSD: LIPID MAPS structure database . Nucleic Acids Res. , 35 : D527 – D532 .
  • Fahy , E. , Subramaniam , S. , Murphy , R. , Nishijima , M. , Raetz , C. , Shimizu , T. , Spener , F. , van Meer , G. , Wakelam , M. and Dennis , E.A. 2009 . Update of the LIPID MAPS comprehensive classification system for lipids . J. Lipid Res. , 50 : S9 – S14 .
  • Ranzinger , R. , Herget , S. , von der Lieth , C.W. and Frank , M. 2011 . GlycomeDB-a unified database for carbohydrate structures . Nucleic Acids Res. , 39 : D373 – D376 .
  • Wiener , A. , Shudler , M. , Levit , A. and Niv , M.Y. 2012 . BitterDB: A database of bitter compounds . Nucleic Acids Res. , 40 : D413 – D419 .
  • Dunkel , M. , Schmidt , U. , Struck , S. , Berger , L. , Gruening , B. , Hossbach , J. , Jaeger , I.S. , Effmert , U. , Piechulla , B. , Eriksson , R. , Knudsen , J. and Preissner , R. 2009 . SuperScent—A database of flavors and scents . Nucleic Acids Res. , 37 : D291 – D294 .
  • Ahmed , J. , Preissner , S. , Dunkel , M. , Worth , C.L. , Eckert , A. and Preissner , R. 2011 . SuperSweet-a resource on natural and artificial sweetening agents . Nucleic Acids Res. , 39 : D377 – D382 .
  • Schmidt , U. , Struci , S. , Gruening , B. , Hossach , J. , Jaeger , I.S. , Parol , R. , Lindequist , U. , Teuscher , E. and Preissner , R. 2009 . SuperToxic: Comprehensive database of toxic compounds . Nucleic Acids Res. , 37 : D295 – D299 .
  • Degtyarenko , K. , De Matos , P. , Ennis , M. , Hastings , J. , Zbinden , M. , McNaught , A. , Alcántara , R. , Darsow , M. , Guedj , M. and Ashburner , M. 2008 . ChEBI: A database and ontology for chemical entities of biological interest . Nucleic Acids Res. , 36 : D344 – D350 .
  • de Matos , P. , Alcántara , R. , Dekker , A. , Ennis , M. , Hastings , J. , Haug , K. , Spiteri , I. , Turner , S. and Steinbeck , C. 2010 . Chemical entities of biological interest: An update . Nucleic Acids Res. , 38 : D249 – D254 .
  • Masciocchi , J. , Frau , G. , Fanton , M. , Sturlese , M. , Floris , M. , Pireddu , L. , Palla , P. , Cedrati , F. , Rodriguez-Tomé , P. and Moro , S. 2009 . MMsINC: A large-scale chemoinformatics database . Nucleic Acids Res. , 37 : D284 – D290 .
  • Bolton , E.E. , Wang , Y. , Thiessen , P.A. and Bryant , S.H. 2008 . PubChem: Integrated platform of small molecules and biological activities. Annu . Rep. Comput. Chem. , 4 : 217 – 241 .
  • Gaudet , P. , Bairoch , A. , Field , D. , Sansone , S.-A. , Taylor , C. , Attwood , T.K. , Bateman , A. , Blake , J.A. , Bult , C.J. , Cherry , J.M. , Chisholm , R.L. , Cochrane , G. , Cook , C.E. , Eppig , J.T. , Galperin , M.Y. , Gentleman , R. , Goble , C.A. , Gojobori , T. , Hancock , J.M. , Howe , D.G. , Imanishi , T. , Kelso , J. , Landsman , D. , Lewis , S.E. , Karsch-Mizrachi , I. , Orchard , S. , Ouelette , B.F.F. , Ranganathan , S. , Richardson , L. , Rocca-Serra , P. , Schofield , P.N. , Smedley , D. , Southan , C. , Tan , T.W. , Tatusova , T. , Whetzel , P.L. , White , O. and Yamasaki , C. 2011 . Towards BioDBcore: A community-defined information specification for biological database . Database , Article baq027
  • Guberman , J.M. , Ai , J. , Arnaiz , O. , Baran , J. , Blake , A. , Baldock , R. , Chelala , C. , Croft , D. , Cros , A. , Cutts , R.J. , Di Génova , A. , Forbes , S. , Fujisawa , T. , Gadaleta , E. , Goodstein , D.M. , Gundem , G. , Haggarty , B. , Haider , S. , Hall , M. , Harris , T. , Haw , R. , Hu , S. , Hubbard , S. , Hsu , J. , Iyer , V. , Jones , P. , Katayama , T. , Kinsella , R. , Kong , L. , Lawson , D. , Liang , Y. , Lopez-Bigas , N. , Luo , J. , Lush , M. , Mason , J. , Moreews , F. , Ndegwa , N. , Oakley , D. , Perez-Llamas , C. , Primig , M. , Rivkin , E. , Rosanoff , S. , Shepherd , R. , Simon , R. , Skarnes , B. , Smedley , B. , Sperling , L. , Spooner , W. , Stevenson , P. , Stone , K. , Teague , J. , Wang , J. , Wang , J. , Whitty , B. , Wong , D.T. , Wong-Erasmus , M. , Yao , L. , Youens-Clark , K. , Yung , C. , Zhang , J. and Kasprzyk , A. 2011 . BioMart Central Portal: An open database network for biological community . Database , Article bar041
  • Bolser , D.M. , Chibon , P.Y. , Palopoli , N. , Gong , S. , Jacob , D. , Dominguez Del Angel , V. , Swan , D. , Bassi , S. , González , V. , Suravajhala , P. , Hwang , S. , Romano , P. , Edwards , R. , Bishop , B. , Eargle , J. , Shtatland , T. , Provart , N.J. , Clements , D. , Renfro , D.P. , Bhak , D. and Bhak , J. 2012 . MetaBase—The wiki-database of biological databases . Nucleic Acids Res. , 40 : D1250 – D1254 .
  • McEntyre, J.; Ostell, J.; Eds. The NCBI Handbook; National Center for Biotechnology Information: Bethesda, MD, 2002 http://www.ncbi.nlm.nih.gov/books/NBK21101/ (http://www.ncbi.nlm.nih.gov/books/NBK21101/) (Accessed: 30 November 2012 ).
  • Zimin , A.V. , Delcher , A.L. , Florea , L. , Kelley , D.R. , Schatz , M.C. , Puiu , D. , Hanrahan , F. , Pertea , G. , Van Tassell , C.P. , Sonstegard , T.S. , Marçais , G. , Roberts , M. , Subramanian , P. , Yorke , J.A. and Salzberg , S.L. 2009 . A whole-genome assembly of the domestic cow, Bos taurus . Genome Biol. , 10 Article R42
  • Childers , C.P. , Reese , J.T. , Sundaram , J.P. , Vile , D.C. , Dickens , C.M. , Childs , K.L. , Salih , H. , Bennett , A.K. , Hagen , D.E. , Adelson , D.L. and Elsik , C.G. 2011 . Bovine Genome Database: Integrated tools for genome annotation and discovery . Nucleic Acids Res. , 39 : D830 – D834 .
  • Hunter , S. , Jones , P. , Mitchell , A. , Apweiler , R. , Attwood , T.K. , Bateman , A. , Bernard , T. , Binns , D. , Bork , P. , Burge , S. , de Castro , E. , Coggill , P. , Corbett , M. , Das , U. , Daugherty , L. , Duquenne , L. , Finn , R.D. , Fraser , M. , Gough , J. , Haft , D. , Hulo , N. , Kahn , D. , Kelly , E. , Letunic , I. , Lonsdale , D. , Lopez , R. , Madera , M. , Maslen , J. , McAnulla , C. , McDowall , J. , McMenamin , C. , Mi , H. , Mutowo-Muellenet , P. , Mulder , N. , Natale , D. , Orengo , C. , Pesseat , S , Punta , M. , Quinn , A.F. , Rivoire , C. , Sangrador-Vegas , A. , Selengut , J.D. , Sigrist , C.J.A. , Scheremetjew , M. , Tate , J. , Thimmajanarthanan , M. , Thomas , P.D. , Wu , C.H. , Yeats , C. and Yong , S.Y. 2012 . InterPro in 2011: New developments in the family and domain prediction database . Nucleic Acids Res. , 40 : D306 – D312 .
  • Barrett , T. , Clark , K. , Gevorgyan , R. , Gorelenkov , V. , Gribov , E. , Karsch-Mizrachi , I. , Imelman , M. , Pruitt , K.D. , Resenchuk , S. , Tatusova , T. , Yaschenko , E. and Ostell , J. 2011 . BioProject and BioSample databases at NCBI: Facilitating capture and organization of metadata . Nucleic Acids Res. , 40 : D57 – D63 .
  • Lu , Z. 2011 . PubMed and beyond: A Survey of Web tools for searching biomedical literature . Database , Article baq036
  • Altschul , S.F. , Madden , T.L. , Schäffer , A.A. , Zhang , J. , Zhang , Z. , Miller , W. and Lipman , D.J. 1997 . Gapped BLAST and PSI-BLAST: A new generation of protein database search programs . Nucleic Acids Res. , 25 : 3389 – 3402 .
  • Karsch-Mizrachi , I. , Nakamura , Y. and Cochrane , G. 2012 . The international nucleotide sequence database collaboration . Nucleic Acids Res. , 40 : D33 – D37 .
  • Kodama , Y. , Shumway , M. and Leinonen , R. 2012 . The Sequence Read Archive: Explosive growth of sequencing data . Nucleic Acids Res. , 40 : D54 – D56 .
  • Klopfleisch , R. and Gruber , A.D. 2012 . Transcriptome and proteome research in veterinary science: What is possible and what questions can be asked? . Sci. World J. , Article 254962
  • Gasteiger , E. , Hoogland , C. , Gattiker , A. , Duvaud , S. , Wilkins , M.R. , Appel , R.D. and Bairoch , A. 2005 . “ Protein identification and analysis tools on the ExPASy server ” . In The Proteomics Protocols Handbook , Edited by: Walker , J.M. 571 – 607 . Totowa , NJ : Humana Press .
  • Artimo , P. , Jonnalagedda , M. , Arnold , K. , Baratin , D. , Csardi , G. , de Castro , E. , Duvaud , S. , Flegel , V , Fortier , A. , Gasteiger , E. , Grosdidier , A. , Hernandez , C. , Ioannidis , V. , Kuznetsov , D. , Liechti , R. , Moretti , S. , Mostaguir , K. , Redaschi , N. , Rossier , G. , Xenarios , I. and Stockinger , H. 2012 . GExPASy: SIB bioinformatics resource portal . Nucleic Acids Res. , 40 : W597 – W603 .
  • Pearson , W.R. 2000 . Flexible sequence similarity searching with the FASTA3 program package . Methods Mol. Biol. , 132 : 185 – 219 .
  • Federhen , S. 2012 . The NCBI Taxonomy database . Nucleic Acids Res. , 40 : D136 – D143 .
  • Tan , J. , Kuchibhatla , D. , Sirota , F.L. , Sherman , W.A. , Gattermayer , T. , Kwoh , C.Y. , Eisenhaber , F. , Schneider , G. and Maurer-Stroh , S. 2012 . Tachyon search speeds up retrieval of similar sequences by several orders of magnitude . Bioinformatics , 28 : 1645 – 1646 .
  • Andreeva , A. , Howorth , D. , Chandonia , J.M. , Brenner , S.E. , Hubbard , T.J.P. , Chothia , C. and Murzin , A.G. 2008 . Data growth and its impact on the SCOP database . New developments. Nucleic Acids Res. , 36 : D419 – D425 .
  • Ulrich , E.L. , Akutsu , H. , Doreleijers , J.F. , Harano , Y. , Ioannidis , Y.E. , Lin , J. , Livny , M. , Mading , S. , Maziuk , D. , Miller , Z. , Nakatani , E. , Schulte , C.F. , Tolmie , D.E. , Wenger , K.R. , Yao , H. and Markley , J.L. 2008 . BioMagResBank . Nucleic Acids Res. , 36 : D402 – D408 .
  • Arnold , K. , Bordoli , L. , Kopp , J. and Schwede , T. 2006 . The SWISS-MODEL Workspace: A web-based environment for protein structure homology modelling . Bioinformatics , 22 : 195 – 201 .
  • Jaroszewski , L. , Li , Z. , Cai , X. , Weber , C. and Godzik , A. 2011 . FFAS Server: Novel features and applications . Nucleic Acids Res. , 39 : W38 – W44 .
  • Collier , J.H. , Lesk , A.M. , Garcia de la Banda , M. and Konagurthu , A.S. 2012 . Super: A web server to rapidly screen superposable oligopeptide fragments from the Protein Data Bank . Nucleic Acids Res. , 40 : W334 – W339 .
  • Singh , H. , Chauhan , J.S. and Gromiha , M.M. 2012 . Open Source Drug Discovery Consortium; Raghava, G.P.S. ccPDB: Compilation and creation of data sets from Protein Data Bank . Nucleic Acids Res. , 40 : D486 – D489 .
  • Wang , G. 2007 . Tool developments for structure-function studies of host defense peptides . Protein Pept. Lett. , 14 : 57 – 69 .
  • Carrasco-Castilla , J. , Hernández-Álvarez , A.J. , Jiménez-Martínez , C. , Gutiérrez-López , G.F. and Dávila-Ortiz , G. 2012 . Use of proteomics and peptidomics methods in food bioactive peptide science and engineering . Food Eng. Rev. , 4 : 224 – 243 .
  • Smith , T. F. and Waterman , M.S. 1981 . Identification of common molecular subsequences . J. Mol. Biol. , 147 : 195 – 197 .
  • Iwaniak , A. and Dziuba , J. 2009 . Analysis of domains in selected plant and animal food proteins—Precursors of biologically active peptides . Food Sci. Technol. Int. , 15 : 179 – 191 .
  • Minkiewicz , P. , Dziuba , J. and Michalska , J. 2011 . Bovine meat proteins as potential precursors of biologically active peptides—A computational study based on the BIOPEP database . Food Sci. Technol. Int. , 17 : 39 – 45 .
  • Kunda , P. , Benavente , F. , Catalá-Clariana , S. , Giménez , E. , Barbosa , J. and Sanz-Nebot , V. 2012 . Identification of bioactive peptides in a functional yogurt by micro liquid chromatography time-of-flight mass spectrometry assisted by retention time prediction . J. Chromatogr. A , 1229 : 121 – 128 .
  • Mooney , C. , Haslam , N.J. , Pollastri , G. and Shields , D.C. 2012 . Towards the improved discovery and design of functional peptides: Common features of diverse classes permit generalized prediction of bioactivity . PLoS ONE , 7, Article e45012
  • Zamyatnin , A.A. and Voronina , O.L. 2012 . Food protein fragments are regulatory oligopeptides . Biochemistry (Moscow) , 77 : 502 – 510 .
  • Borchers , A. , Teuber , S.S. , Keen , C.L. and Gershwin , M.E. 2010 . Food safety . Clin. Rev. Allergy Immunol. , 39 : 95 – 141 .
  • Korber , B. , LaBute , M. and Yusim , K. 2006 . Immunoinformatics comes of age . PLoS Comput. Biol. , 2 : 484 – 492 .
  • Tong , J.C. and Ren , E.C. 2009 . Immunoinformatics: Current trends and future directions. Drug Discov . Today , 14 : 684 – 689 .
  • Tomar , N. and De , R.K. 2010 . Immunoinformatics: An integrated scenario . Immunology , 131 : 153 – 168 .
  • Salimi , N. , Fleri , W. , Peters , B. and Sette , A. 2010 . Design and utilization ot epitope-based databases and predictive tools . Immunogenetics , 62 : 185 – 196 .
  • Minkiewicz , P. , Dziuba , J. , Darewicz , M. , Bucholska , J. and Mogut , D. 2012 . Evaluation of in silico prediction possibility of potential epitope sequences using experimental data concerning allergenic food proteins summarized in BIOPEP database . Pol. J. Food Nutr. Sci. , 62 : 151 – 157 .
  • Zambrowicz , A. , Timmer , M. , Polanowski , A. , Lubec , G. and Trziszka , T. 2013 . Manufacturing of peptides exhibiting biological activity . Amino Acids , 44 : 315 – 320 .
  • Shan , L. , Martin , T. , Sollid , L.M. , Gray , G.M. and Khosla , C. 2004 . Comparative biochemical analysis of three bacterial prolyl endopeptidases: Implications for coeliac sprue . Biochem. J. , 383 : 311 – 318 .
  • McDonald , A.G. and Boyce , S . 2009 . Tipton K.F. ExplorEnz: The primary source of the IUBMB enzyme list . Nucleic Acids Res. , 37 : D593 – D597 .
  • Fahy , E. , Cotter , D. , Sud , M. and Subramaniam , S. 2011 . Lipid classification, structures and tools. Biochim. Biophys. Acta Mol. Cell . Biol. Lipids , 1811 : 637 – 647 .
  • Robinson , L.N. , Artpradit , C. , Raman , R. , Shriver , Z.H. , Ruchirawat , M. and Sasisekharan , R. 2012 . Harnessing glycomics technologies: Integrating structure with function for glycan characterization . Electrophoresis , 33 : 797 – 814 .
  • Aoki-Kinoshita , K.F. 2008 . An introduction to bioinformatics for glycomics research . PLoS Comput. Biol. , 4 Article e1000075
  • Doubet , S. , Bock , K. , Smith , D. and Darvill , A. 1989 . Albersheim, P. The complex carbohydrate structure database . Trends Biochem Sci. , 14 : 475 – 477 .
  • Bohne-Lang , A. , Lang , E. , Forster , T. and von der Lieth , C.W. 2001 . LINUCS: Linear notation for unique description of carbohydrate sequences . Carbohydr. Res. , 336 : 1 – 11 .
  • Banin , E. , Neuberger , Y. , Altshuler , Y. , Halevi , A. , Inbar , O. , Nir , D. and Dukler , A. 2002 . A novel Linear Code® nomenclature for complex carbohydrates . Trends Glycosci. Glycotechnol. , 14 : 127 – 137 .
  • Herget , S. , Ranzinger , R. , Maass , K. and von der Lieth , C.W. 2008 . GlycoCT—A unifying sequence format for carbohydrates . Carbohydr. Res. , 343 : 2162 – 2171 .
  • Ceroni , A. , Dell , A. and Haslam , S.M. 2007 . The GlycanBuilder: A fast, intuitive and flexible software tool for building and displaying glycan structures . Source Code Biol. Med. , 2, Article 3
  • Werz , D.B. , Ranzinger , R. , Herget , S. , Adibekian , A. , von der Lieth , C.W. and Seeberger , P.H. 2007 . Exploring the structural diversity of mammalian carbohydrates (“glycospace”) by statistical databank analysis . ACS Chem. Biol. , 2 : 685 – 691 .
  • Martínez-Mayorga , K. , Peppard , T.L. , Yongye , A.B. , Santos , R. , Giulianotti , M. and Medina-Franco , J.L. 2011 . Characterization of a comprehensive flavor database . J. Chemom. , 25 : 550 – 560 .
  • Weininger , D. 1988 . SMILES, a chemical language and information system. 1. Introduction to methodology and encoding rules . J. Chem. Inf. Comput. Sci. , 28 : 31 – 36 .
  • Weininger , D. , Weininger , A. and Weininger , J.L. 1989 . SMILES. 2. Algorithm for generation of unique SMILES notation . J. Chem. Inf. Comput. Sci. , 29 : 97 – 101 .
  • Weininger , D. 1990 . SMILES. 3. Depict. Graphical depiction of chemical structures . J. Chem. Inf. Comput. Sci. , 30 : 237 – 243 .
  • Bone , R.G.A. , Firth , M.A. and Sykes , R.A. 1999 . SMILES extensions for pattern matching and molecular transformations: Applications in chemoinformatics . J. Chem. Inf. Comput. Sci. , 39 : 846 – 860 .
  • Judson , R. 2010 . Public databases supporting computational toxicology . J. Toxicol. Environ. Health B Crit. Rev. , 13 : 218 – 231 .
  • Maddah , F. , Soeria-Atmadja , D. , Malm , P. , Gustafsson , M.G. and Hammerling , U. 2011 . Interrogating health-related public databases from a food toxicology perspective: Computational analysis of scoring data . Food Chemical Toxicol. , 49 : 2830 – 2840 .
  • Rijnbeek , M. and Steinbeck , C. 2009 . OrChem—An open source chemistry search engine for Oracle® . J. Cheminf. , 1, Article 17
  • Li , Q. , Cheng , T. , Wang , Y. and Bryant , S.H. 2010 . PubChem as a public resource for drug discovery . Drug Discov. Today , 15 : 1052 – 1057 .
  • Rosania , G.R. , Crippen , G. , Woolf , P. , States , D. and Shedden , K. 2007 . A cheminformatic toolkit for mining biomedical knowledge . Pharm. Res. , 24 : 1791 – 1802 .
  • Chen , B. , Wild , D.J. and Guha , R. 2009 . PubChem as a source of polypharmacology . J. Chem. Inf. Model. , 49 : 2044 – 2055 .
  • Chen , B. and Wild , D.J. 2010 . PubChem BioAssays as a data source for predictive models . J. Mol. Graphics Model. , 28 : 420 – 426 .
  • Green , F.M. , Gilmore , I.S. and Seah , M.P. 2011 . Mass spectrometry and informatics: Distribution of molecules in the PubChem database and general requirements for mass accuracy in surface analysis . Anal. Chem. , 83 : 3239 – 3243 .
  • Baxevanis , A.D. 2011 . The importance of biological databases in biological discovery . Curr. Protocols Bioinf. , Chapter 1:Unit 1.1
  • Norris , R. , Casey , F. , FitzGerald , R.J. , Shields , D.C. and Mooney , C. 2012 . Predictive modeling of angiotensin-converting enzyme inhibitory dipeptides . Food Chem. , 133 : 1349 – 1354 .
  • Sagardia , I. , Roa-Ureta , R.H. and Bald , C.A. 2013 . New QSAR model, for angiotensin I-converting enzyme inhibitory oligopeptides . Food Chem. , 136 : 1370 – 1376 .
  • Di Bernardini , R. , Mullen , A.M. , Bolton , D. , Kerry , J. , O'Neill , E. and Hayes , M. 2012 . Assessment of the angiotensin-I-converting enzyme (ACE-I) inhibitory and antioxidant activities of hydrolysates of bovine brisket sarcoplasmic proteins produced by papain and characterisation of associated bioactive peptidic fractions . Meat Sci. , 90 : 226 – 235 .
  • Tulipano , G. , Sibilia , V. , Caroli , A.M. and Cocchi , D. 2011 . Whey proteins as source of dipeptidyl dipeptidase IV (dipeptidyl peptidase-4) inhibitors . Peptides , 32 : 835 – 838 .
  • Thewissen , B.G. , Pauly , A. , Celus , I. , Brijs , K. and Delcour , J.A. 2011 . Inhibition of angiotensin I-converting enzyme by wheat gliadin hydrolysates . Food Chem. , 127 : 1653 – 1658 .
  • Boulesteix , A.-L. 2010 . Over-optimism in bioinformatics research . Bioinformatics , 26 : 437 – 439 .
  • Hammami , R. , Zouhir , A. , Nagmouchi , K. , Ben Hamida , J. and Fliss , I. 2008 . SciDBMaker: New software for computer-aided design of specialized biological databases . BMC Bioinf. , 9 Article 121
  • Reisinger , F. and Martens , L. 2009 . Database on demand—An online tool for the custom generation of FASTA-formatted sequence databases . Proteomics , 9 : 4421 – 4424 .
  • Wren , J.D. and Bateman , A. 2008 . Databases, data tombs and dust in the wind . Bioinformatics , 24 : 2127 – 2128 .
  • Finn , R.D. , Gardner , P. and Bateman , A. 2012 . Making your database available through Wikipedia: The pros and cons . Nucleic Acids Res. , 40 : D9 – D12 .
  • Latendresse , M. and Karp , P.D. 2010 . An advanced web query interface for biological databases . Database , Article baq006
  • Imanishi , T. and Nakaoka , H. 2009 . Hyperlink Management System and ID Converter System: Enabling maintenance-free hyperlinks among major biological databases . Nucleic Acids Res. , 37 : W17 – W22 .
  • Griss , J. , Côte , R.G. , Gerner , C. , Hermjakob , H. and Vizcaíno , J.A. 2011 . Published and perished? The influence of the searched protein database on the long-term storage of proteomics data . Mol. Cell. Proteomics , Article 0.1074/mcp.M111.008490–1
  • Sitzmann , M. , Filippov , I.V. and Nicklaus , M.C. 2008 . Internet resources integrating many small molecular databases . SAR QSAR Environ. Res. , 19 : 1 – 9 .
  • Cummings , M.P. and Temple , G.G. 2010 . Broader incorporation of bioinformatics in education: Opportunities and challenges . Brief. Bioinf. , 11 : 537 – 543 .
  • Jungck , J.R. , Donovan , S.S. , Weisstein , A.E. , Khiripet , N. and Everse , S.J. 2010 . Bioinformatics education dissemination with an evolutionary problem solving perspective . Brief. Bioinf. , 11 : 570 – 581 .
  • Schneider , M.V. , Watson , J. , Attwood , T. , Rother , K. , Budd , A. , McDowall , J. , Via , A. , Fernandes , P. , Nyronen , T. , Blicher , T. , Jones , P. , Blatter , M. , de Las Rivas , J. , Judge , D.P. , van der Gool , W. and Brooksbank , C. 2010 . Bioinformatics training: A review of challenges, actions and support requirements . Brief. Bioinf. , 11 : 544 – 551 .
  • O'Boyle , N.M. 2012 . Towards a Universal SMILES representation—A standard method to generate canonical SMILES based on the InChI . J. Cheminf. , 4, Article 22
  • Clark , A.M. 2010 . Basic primitives for molecular diagram sketching . J. Cheminf. , 2, Article 8
  • O'Boyle , N.M. , Guha , R. , Willighagen , E.L. , Adams , S.E. , Alvarsson , J. , Bradley , J.-C. , Filippov , I.V. , Hanson , R.M. , Hanwell , M.D. , Hutchison , G.R. , James , C.A. , Jeliazkova , N. , Lang , A.S. , Langner , K.M. , Lonie , D.C. , Lowe , D.M. , Pansanel , J. , Pavlov , D. , Spjuth , O. , Steinbeck , C. , Tenderholt , A.L. , Theisen , K.J. and Murray-Rust , P. 2011 . Open data, open source and open standards in chemistry: The Blue Obelisk five years on . J. Cheminf. , 3, Article 37
  • Wild , D.J. and Wiggins , G.D. 2006 . Challenges for chemoinformatics education in drug discovery. Drug Discov . Today , 11 : 436 – 439 .

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