VIAF

Virtual International Authority File

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Leader     00000nz a2200037n 45 0
001     WKP|Q56084653  (VIAF cluster)  (Authority/Source Record)
003     WKP
005     20241221010719.0
008     241221nneanz||abbn n and d
035 ‎‡a  (WKP)Q56084653‏
024 ‎‡a  0000-0003-0316-5348‏ ‎‡2  orcid‏
024 ‎‡a  55613752500‏ ‎‡2  scopus‏
035 ‎‡a  (OCoLC)Q56084653‏
100 0 ‎‡a  Jorge Pereira‏ ‎‡c  researcher (ORCID 0000-0003-0316-5348)‏ ‎‡9  en‏
375 ‎‡a  1‏ ‎‡2  iso5218‏
400 0 ‎‡a  Jorge Pereira‏ ‎‡c  onderzoeker‏ ‎‡9  nl‏
670 ‎‡a  Author's A fast and environment-friendly MEPSPEP/UHPLC-PDA methodology to assess 3-hydroxy-4,5-dimethyl-2(5H)-furanone in fortified wines.‏
670 ‎‡a  Author's A fast and innovative microextraction technique, μSPEed, followed by ultrahigh performance liquid chromatography for the analysis of phenolic compounds in teas‏
670 ‎‡a  Author's A micro-extraction technique using a new digitally controlled syringe combined with UHPLC for assessment of urinary biomarkers of oxidatively damaged DNA.‏
670 ‎‡a  Author's A new and fast methodology to assess oxidative damage in cardiovascular diseases risk development through eVol-MEPS-UHPLC analysis of four urinary biomarkers.‏
670 ‎‡a  Author's Breath analysis as a potential and non-invasive frontier in disease diagnosis: an overview‏
670 ‎‡a  Author's Current trends on microextraction by packed sorbent - fundamentals, application fields, innovative improvements and future applications‏
670 ‎‡a  Author's Dynamic headspace solid-phase microextraction combined with one-dimensional gas chromatography-mass spectrometry as a powerful tool to differentiate banana cultivars based on their volatile metabolite profile‏
670 ‎‡a  Author's Evaluation of volatile metabolites as markers in Lycopersicon esculentum L. cultivars discrimination by multivariate analysis of headspace solid phase microextraction and mass spectrometry data‏
670 ‎‡a  Author's Exploring the potential of needle trap microextraction combined with chromatographic and statistical data to discriminate different types of cancer based on urinary volatomic biosignature‏
670 ‎‡a  Author's Exploring the potential of NTME/GC-MS, in the establishment of urinary volatomic profiles. Lung cancer patients as case study‏
670 ‎‡a  Author's Expression of YAP4 in Saccharomyces cerevisiae under osmotic stress‏
670 ‎‡a  Author's Extracellular volatilomic alterations induced by hypoxia in breast cancer cells‏
670 ‎‡a  Author's Food Bioactive Compounds and Emerging Techniques for Their Extraction: Polyphenols as a Case Study‏
670 ‎‡a  Author's Food fingerprints - A valuable tool to monitor food authenticity and safety‏
670 ‎‡a  Author's Green Extraction Techniques as Advanced Sample Preparation Approaches in Biological, Food, and Environmental Matrices: A Review‏
670 ‎‡a  Author's Microextraction by packed sorbent: an emerging, selective and high-throughput extraction technique in bioanalysis‏
670 ‎‡a  Author's Microextraction by Packed Sorbent (MEPS) and Solid-Phase Microextraction (SPME) as Sample Preparation Procedures for the Metabolomic Profiling of Urine‏
670 ‎‡a  Author's QuEChERS - Fundamentals, relevant improvements, applications and future trends‏
670 ‎‡a  Author's Re-exploring the high-throughput potential of microextraction techniques, SPME and MEPS, as powerful strategies for medical diagnostic purposes. Innovative approaches, recent applications and future trends.‏
670 ‎‡a  Author's Screening of salivary volatiles for putative breast cancer discrimination: an exploratory study involving geographically distant populations‏
670 ‎‡a  Author's Tangerines Cultivated on Madeira Island-A High Throughput Natural Source of Bioactive Compounds‏
670 ‎‡a  Author's Unravelling the Potential of Salivary Volatile Metabolites in Oral Diseases. A Review‏
670 ‎‡a  Author's Volatilomic insight of head and neck cancer via the effects observed on saliva metabolites‏
670 ‎‡a  Author's YAP4 gene expression is induced in response to several forms of stress in Saccharomyces cerevisiae‏
670 ‎‡a  Author's Yap4 PKA- and GSK3-dependent phosphorylation affects its stability but not its nuclear localization.‏
670 ‎‡a  Author's Yeast activator proteins and stress response: an overview‏
909 ‎‡a  (scopus) 55613752500‏ ‎‡9  1‏
909 ‎‡a  (orcid) 0000000303165348‏ ‎‡9  1‏
919 ‎‡a  fastandenvironmentfriendlymepspepuhplcpdamethodologytoassess3hydroxy45dimethyl25hfuranoneinfortifiedwines‏ ‎‡A  A fast and environment-friendly MEPSPEP/UHPLC-PDA methodology to assess 3-hydroxy-4,5-dimethyl-2(5H)-furanone in fortified wines.‏ ‎‡9  1‏
919 ‎‡a  fastandinnovativemicroextractiontechniqueμspeedfollowedbyultrahighperformanceliquidchromatographyfortheanalysisofphenoliccompoundsinteas‏ ‎‡A  A fast and innovative microextraction technique, μSPEed, followed by ultrahigh performance liquid chromatography for the analysis of phenolic compounds in teas‏ ‎‡9  1‏
919 ‎‡a  microextractiontechniqueusinganewdigitallycontrolledsyringecombinedwithuhplcforassessmentofurinarybiomarkersofoxidativelydamageddna‏ ‎‡A  A micro-extraction technique using a new digitally controlled syringe combined with UHPLC for assessment of urinary biomarkers of oxidatively damaged DNA.‏ ‎‡9  1‏
919 ‎‡a  newandfastmethodologytoassessoxidativedamageincardiovasculardiseasesriskdevelopmentthroughevolmepsuhplcanalysisof4urinarybiomarkers‏ ‎‡A  A new and fast methodology to assess oxidative damage in cardiovascular diseases risk development through eVol-MEPS-UHPLC analysis of four urinary biomarkers.‏ ‎‡9  1‏
919 ‎‡a  breathanalysisasapotentialandnoninvasivefrontierindiseasediagnosisanoverview‏ ‎‡A  Breath analysis as a potential and non-invasive frontier in disease diagnosis: an overview‏ ‎‡9  1‏
919 ‎‡a  currenttrendsonmicroextractionbypackedsorbentfundamentalsapplicationfieldsinnovativeimprovementsandfutureapplications‏ ‎‡A  Current trends on microextraction by packed sorbent - fundamentals, application fields, innovative improvements and future applications‏ ‎‡9  1‏
919 ‎‡a  dynamicheadspacesolidphasemicroextractioncombinedwith1dimensionalgaschromatographymassspectrometryasapowerfultooltodifferentiatebananacultivarsbasedontheirvolatilemetaboliteprofile‏ ‎‡A  Dynamic headspace solid-phase microextraction combined with one-dimensional gas chromatography-mass spectrometry as a powerful tool to differentiate banana cultivars based on their volatile metabolite profile‏ ‎‡9  1‏
919 ‎‡a  evaluationofvolatilemetabolitesasmarkersinlycopersiconesculentum50cultivarsdiscriminationbymultivariateanalysisofheadspacesolidphasemicroextractionandmassspectrometrydata‏ ‎‡A  Evaluation of volatile metabolites as markers in Lycopersicon esculentum L. cultivars discrimination by multivariate analysis of headspace solid phase microextraction and mass spectrometry data‏ ‎‡9  1‏
919 ‎‡a  exploringthepotentialofneedletrapmicroextractioncombinedwithchromatographicandstatisticaldatatodiscriminatedifferenttypesofcancerbasedonurinaryvolatomicbiosignature‏ ‎‡A  Exploring the potential of needle trap microextraction combined with chromatographic and statistical data to discriminate different types of cancer based on urinary volatomic biosignature‏ ‎‡9  1‏
919 ‎‡a  exploringthepotentialofntmegcmsintheestablishmentofurinaryvolatomicprofileslungcancerpatientsascasestudy‏ ‎‡A  Exploring the potential of NTME/GC-MS, in the establishment of urinary volatomic profiles. Lung cancer patients as case study‏ ‎‡9  1‏
919 ‎‡a  expressionofyap4insaccharomycescerevisiaeunderosmoticstress‏ ‎‡A  Expression of YAP4 in Saccharomyces cerevisiae under osmotic stress‏ ‎‡9  1‏
919 ‎‡a  extracellularvolatilomicalterationsinducedbyhypoxiainbreastcancercells‏ ‎‡A  Extracellular volatilomic alterations induced by hypoxia in breast cancer cells‏ ‎‡9  1‏
919 ‎‡a  foodbioactivecompoundsandemergingtechniquesfortheirextractionpolyphenolsasacasestudy‏ ‎‡A  Food Bioactive Compounds and Emerging Techniques for Their Extraction: Polyphenols as a Case Study‏ ‎‡9  1‏
919 ‎‡a  foodfingerprintsavaluabletooltomonitorfoodauthenticityandsafety‏ ‎‡A  Food fingerprints - A valuable tool to monitor food authenticity and safety‏ ‎‡9  1‏
919 ‎‡a  greenextractiontechniquesasadvancedsamplepreparationapproachesinbiologicalfoodandenvironmentalmatricesareview‏ ‎‡A  Green Extraction Techniques as Advanced Sample Preparation Approaches in Biological, Food, and Environmental Matrices: A Review‏ ‎‡9  1‏
919 ‎‡a  microextractionbypackedsorbentanemergingselectiveandhighthroughputextractiontechniqueinbioanalysis‏ ‎‡A  Microextraction by packed sorbent: an emerging, selective and high-throughput extraction technique in bioanalysis‏ ‎‡9  1‏
919 ‎‡a  microextractionbypackedsorbentmepsandsolidphasemicroextractionspmeassamplepreparationproceduresforthemetabolomicprofilingofurine‏ ‎‡A  Microextraction by Packed Sorbent (MEPS) and Solid-Phase Microextraction (SPME) as Sample Preparation Procedures for the Metabolomic Profiling of Urine‏ ‎‡9  1‏
919 ‎‡a  quechersfundamentalsrelevantimprovementsapplicationsandfuturetrends‏ ‎‡A  QuEChERS - Fundamentals, relevant improvements, applications and future trends‏ ‎‡9  1‏
919 ‎‡a  reexploringthehighthroughputpotentialofmicroextractiontechniquesspmeandmepsaspowerfulstrategiesformedicaldiagnosticpurposesinnovativeapproachesrecentapplicationsandfuturetrends‏ ‎‡A  Re-exploring the high-throughput potential of microextraction techniques, SPME and MEPS, as powerful strategies for medical diagnostic purposes. Innovative approaches, recent applications and future trends.‏ ‎‡9  1‏
919 ‎‡a  screeningofsalivaryvolatilesforputativebreastcancerdiscriminationanexploratorystudyinvolvinggeographicallydistantpopulations‏ ‎‡A  Screening of salivary volatiles for putative breast cancer discrimination: an exploratory study involving geographically distant populations‏ ‎‡9  1‏
919 ‎‡a  tangerinescultivatedonmadeiraislandahighthroughputnaturalsourceofbioactivecompounds‏ ‎‡A  Tangerines Cultivated on Madeira Island-A High Throughput Natural Source of Bioactive Compounds‏ ‎‡9  1‏
919 ‎‡a  unravellingthepotentialofsalivaryvolatilemetabolitesinoraldiseasesareview‏ ‎‡A  Unravelling the Potential of Salivary Volatile Metabolites in Oral Diseases. A Review‏ ‎‡9  1‏
919 ‎‡a  volatilomicinsightofheadandneckcancerviatheeffectsobservedonsalivametabolites‏ ‎‡A  Volatilomic insight of head and neck cancer via the effects observed on saliva metabolites‏ ‎‡9  1‏
919 ‎‡a  yap4geneexpressionisinducedinresponsetoseveralformsofstressinsaccharomycescerevisiae‏ ‎‡A  YAP4 gene expression is induced in response to several forms of stress in Saccharomyces cerevisiae‏ ‎‡9  1‏
919 ‎‡a  yap4pkaandgsk3dependentphosphorylationaffectsitsstabilitybutnotitsnuclearlocalization‏ ‎‡A  Yap4 PKA- and GSK3-dependent phosphorylation affects its stability but not its nuclear localization.‏ ‎‡9  1‏
919 ‎‡a  yeastactivatorproteinsandstressresponseanoverview‏ ‎‡A  Yeast activator proteins and stress response: an overview‏ ‎‡9  1‏
946 ‎‡a  b‏ ‎‡9  1‏
996 ‎‡2  BNF|12987780
996 ‎‡2  PTBNP|243172
996 ‎‡2  BLBNB|000521535
996 ‎‡2  DNB|1343095557
996 ‎‡2  PTBNP|557734
996 ‎‡2  SUDOC|069894728
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996 ‎‡2  RERO|A027116830
996 ‎‡2  NKC|ctu2016898577
996 ‎‡2  LC|n 2007207051
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996 ‎‡2  PTBNP|1574689
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996 ‎‡2  BLBNB|000222698
996 ‎‡2  NUKAT|n 2014146693
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996 ‎‡2  DNB|1056210141
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996 ‎‡2  LC|n 95034106
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996 ‎‡2  RERO|A008977499
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996 ‎‡2  SUDOC|188120912
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996 ‎‡2  PTBNP|1306348
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996 ‎‡2  LC|n 90666285
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996 ‎‡2  NUKAT|n 2015083229
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996 ‎‡2  PTBNP|1466841
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996 ‎‡2  CAOONL|ncf10131251
996 ‎‡2  NII|DA17281673
996 ‎‡2  BLBNB|000400930
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996 ‎‡2  DNB|1057170127
996 ‎‡2  BNF|16591881
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996 ‎‡2  PTBNP|211381
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996 ‎‡2  RERO|A013834574
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996 ‎‡2  BNF|16511337
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996 ‎‡2  NUKAT|n 98011996
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996 ‎‡2  NII|DA03549224
996 ‎‡2  LC|n 80000365
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996 ‎‡2  PTBNP|1555184
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996 ‎‡2  LC|n 91031087
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996 ‎‡2  LC|n 91008285
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996 ‎‡2  PTBNP|1582559
996 ‎‡2  LC|n 92084391
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996 ‎‡2  NTA|07435051X
996 ‎‡2  ISNI|0000000068002097
996 ‎‡2  ISNI|000000006831041X
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996 ‎‡2  ISNI|0000000112717138
996 ‎‡2  PTBNP|1378355
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996 ‎‡2  ISNI|0000000069615725
996 ‎‡2  LC|nb2016015903
996 ‎‡2  BNCHL|10000000000000000281552
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996 ‎‡2  PTBNP|237108
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996 ‎‡2  LC|n 2013201123
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996 ‎‡2  LC|n 2012017089
996 ‎‡2  RERO|A011316418
996 ‎‡2  BNF|15071104
996 ‎‡2  PTBNP|1805522
996 ‎‡2  BNE|XX1542922
996 ‎‡2  PTBNP|1201404
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996 ‎‡2  SUDOC|258452390
996 ‎‡2  BNCHL|10000000000000000264113
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996 ‎‡2  PLWABN|9810563596105606
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996 ‎‡2  LC|no2017107529
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996 ‎‡2  NII|DA14676879
996 ‎‡2  PTBNP|1410707
996 ‎‡2  DNB|1056649496
996 ‎‡2  LC|n 79005458
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996 ‎‡2  RERO|A003681704
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996 ‎‡2  BNCHL|10000000000000000140116
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996 ‎‡2  BNF|12520139
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996 ‎‡2  BNC|981058510854206706
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996 ‎‡2  DNB|1069631310
996 ‎‡2  NTA|343673886
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996 ‎‡2  BNC|981058608678806706
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996 ‎‡2  PTBNP|1764784
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996 ‎‡2  PTBNP|1369577
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996 ‎‡2  CAOONL|ncf11035392
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996 ‎‡2  PTBNP|1149204
996 ‎‡2  SUDOC|240258290
996 ‎‡2  NSK|000502098
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996 ‎‡2  PTBNP|285253
997 ‎‡a  0 0 lived 0 0‏ ‎‡9  1‏