{ "labelLang" : "hun", "responseDate" : "2024-03-29 06:12", "content" : { "otype" : "BookChapter", "mtid" : 23873286, "status" : "APPROVED", "published" : true, "unhandledTickets" : 0, "oldTimestamp" : "2014-06-14T12:59:47.000+0000", "deleted" : false, "oldId" : 13873286, "lastRefresh" : "2023-11-10T17:56:16.680+0000", "lastModified" : "2023-11-10T17:52:31.110+0000", "created" : "2014-06-14T11:11:13.000+0000", "creator" : { "otype" : "Author", "mtid" : 10035169, "link" : "/api/author/10035169", "label" : "Pacher Pál (Kardiovaszkuláris Farmakológia)", "familyName" : "Pacher", "givenName" : "Pál", "published" : true, "oldId" : 10035169, "snippet" : true }, "lastDuplumOK" : "2023-11-10T17:52:31.704+0000", "lastDuplumSearch" : "2023-11-10T17:52:31.704+0000", "core" : false, "citation" : true, "publicationPending" : false, "type" : { "otype" : "PublicationType", "mtid" : 25, "link" : "/api/publicationtype/25", "label" : "Könyvrészlet", "code" : 25, "otypeName" : "BookChapter", "listPosition" : 2, "published" : true, "oldId" : 25, "snippet" : true }, "subType" : { "otype" : "SubType", "mtid" : 10000398, "link" : "/api/subtype/10000398", "label" : "Könyvfejezet (Könyvrészlet)", "name" : "Könyvfejezet", "nameEng" : "Chapter", "docType" : { "otype" : "PublicationType", "mtid" : 25, "link" : "/api/publicationtype/25", "label" : "Könyvrészlet", "code" : 25, "otypeName" : "BookChapter", "listPosition" : 2, "published" : true, "oldId" : 25, "snippet" : true }, "listPosition" : 220, "published" : true, "oldId" : 10000398, "snippet" : true }, "category" : { "otype" : "Category", "mtid" : 1, "link" : "/api/category/1", "label" : "Tudományos", "published" : true, "oldId" : 1, "snippet" : true }, "languages" : [ { "otype" : "Language", "mtid" : 10002, "link" : "/api/language/10002", "label" : "Angol", "name" : "Angol", "nameEng" : "English", "published" : true, "oldId" : 2, "snippet" : true } ], "firstAuthor" : "Kechrid, M", "authorships" : [ { "otype" : "PersonAuthorship", "mtid" : 33526607, "link" : "/api/authorship/33526607", "label" : "Kechrid, M", "listPosition" : 1, "share" : 0.0, "first" : true, "last" : false, "familyName" : "Kechrid", "givenName" : "M", "authorTyped" : true, "editorTyped" : false, "otherTyped" : false, "type" : { "otype" : "AuthorshipType", "mtid" : 1, "link" : "/api/authorshiptype/1", "label" : "Szerző", "code" : 0, "published" : true, "oldId" : 0, "snippet" : true }, "published" : false, "oldId" : 54318609, "snippet" : true }, { "otype" : "PersonAuthorship", "mtid" : 33526608, "link" : "/api/authorship/33526608", "label" : "Mukhopadhyay, P", "listPosition" : 2, "share" : 0.0, "first" : false, "last" : true, "familyName" : "Mukhopadhyay", "givenName" : "P", "authorTyped" : true, "editorTyped" : false, "otherTyped" : false, "type" : { "otype" : "AuthorshipType", "mtid" : 1, "link" : "/api/authorshiptype/1", "label" : "Szerző", "code" : 0, "published" : true, "oldId" : 0, "snippet" : true }, "published" : false, "oldId" : 54318608, "snippet" : true } ], "title" : "Effects of microRNAs in the biological response of resveratrol", "identifiers" : [ { "otype" : "PublicationIdentifier", "mtid" : 7628395, "link" : "/api/publicationidentifier/7628395", "label" : "Scopus: 84895412255", "source" : { "otype" : "PlainSource", "mtid" : 3, "link" : "/api/publicationsource/3", "label" : "Scopus", "type" : { "otype" : "PublicationSourceType", "mtid" : 10003, "link" : "/api/publicationsourcetype/10003", "label" : "Indexelő adatbázis", "mayHaveOa" : false, "published" : true, "snippet" : true }, "name" : "Scopus", "linkPattern" : "http://www.scopus.com/record/display.url?origin=inward&eid=2-s2.0-@@@", "publiclyVisible" : true, "published" : true, "oldId" : 3, "snippet" : true }, "validState" : "IDENTICAL", "idValue" : "84895412255", "realUrl" : "http://www.scopus.com/record/display.url?origin=inward&eid=2-s2.0-84895412255", "published" : false, "oldId" : 5923995, "snippet" : true } ], "firstPage" : "297", "lastPage" : "308", "firstPageOrInternalIdForSort" : "297", "pageLength" : 12, "publishedYear" : 2013, "digital" : null, "printed" : null, "sourceYear" : 2014, "packet" : "(Pacher Pál (Kardiovaszkuláris Farma...); 2014.06.14. 13:10:20)", "foreignEdition" : true, "foreignLanguage" : true, "fullPublication" : true, "conferencePublication" : false, "nationalOrigin" : null, "missingAuthor" : false, "oaType" : "NONE", "oaCheckDate" : "2023-11-10", "oaFree" : false, "citationCount" : 0, "citationCountUnpublished" : 0, "citationCountWoOther" : 0, "independentCitCountWoOther" : 0, "doiCitationCount" : 0, "wosCitationCount" : 0, "scopusCitationCount" : 0, "independentCitationCount" : 0, "unhandledCitationCount" : 0, "citingPubCount" : 0, "independentCitingPubCount" : 0, "unhandledCitingPubCount" : 0, "citedPubCount" : 6, "citedCount" : 6, "referenceList" : "Bhat, K.P., Pezzuto, J.M., Cancer chemopreventive activity of resveratrol (2002) Ann N Y Acad Sci, 957, pp. 210-229; \n\nDas, D.K., Mukherjee, S., Ray, D., Resveratrol and red wine, healthy heart and longevity (2010) Heart Fail Rev; \n\nPetrovski, G., Gurusamy, N., Das, D.K., Resveratrol in cardiovascular health and disease (2011) Ann N Y Acad Sci, 1215, pp. 22-33; \n\nWu, J.M., Hsieh, T.C., Resveratrol: a cardioprotective substance (2011) Ann N Y Acad Sci, 1215, pp. 16-21; \n\nDolinsky, V.W., Dyck, J.R., Calorie restriction and resveratrol in cardiovascular health and disease (2011) Biochim Biophys Acta, 1812, pp. 1477-1489; \n\nBertelli, A.A., Das, D.K., Grapes, wines, resveratrol, and heart health (2009) J Cardiovasc Pharmacol, 54, pp. 468-476; \n\nDas, D.K., Maulik, N., Conversion of death signal into survival signal by redox signaling (2004) Biochemistry (Mosc), 69, pp. 10-17; \n\nMukhopadhyay, P., Mukherjee, S., Ahsan, K., Bagchi, A., Pacher, P., Das, D.K., Restoration of altered microRNA expression in the ischemic heart with resveratrol (2010) PLoS One, 5, pp. e15705; \n\nMukhopadhyay, P., Pacher, P., Das, D.K., MicroRNA signatures of resveratrol in the ischemic heart (2011) Ann N Y Acad Sci, 1215, pp. 109-116; \n\nVenter, J.C., The sequence of the human genome (2001) Science, 291, pp. 1304-1351; \n\nSiomi, H., Siomi, M.C., On the road to reading the RNA-interference code (2009) Nature, 457, pp. 396-404; \n\nKatiyar-Agarwal, S., Morgan, R., Dahlbeck, D., Borsani, O., Villegas Jr., A., Zhu, J.K., Staskawicz, B.J., Jin, H., A pathogen-inducible endogenous siRNA in plant immunity (2006) Proc Natl Acad Sci U S A, 103, pp. 18002-18007; \n\nLiu, Q., Paroo, Z., Biochemical principles of small RNA pathways (2010) Annu Rev Biochem, 79, pp. 295-319; \n\nAmbros, V., The functions of animal microRNAs (2004) Nature, 431, pp. 350-355; \n\nHammond, S.M., Dicing and slicing: the core machinery of the RNA interference pathway FEBS Lett, 2005, pp. 5822-5829; \n\nRigoutsos, I., New tricks for animal microRNAS: targeting of amino acid coding regions at conserved and nonconserved sites (2009) Cancer Res, 69, pp. 3245-3248; \n\nOrom, U.A., Nielsen, F.C., Lund, A.H., MicroRNA-10a binds the 5'UTR of ribosomal protein mRNAs and enhances their translation (2008) Mol Cell, 30, pp. 460-471; \n\nTolia, N.H., Joshua-Tor, L., Slicer and the argonautes (2007) Nat Chem Biol, 3, pp. 36-43; \n\nKai, Z.S., Pasquinelli, A.E., MicroRNA assassins: factors that regulate the disappearance of miRNAs (2010) Nat Struct Mol Biol, 17, pp. 5-10; \n\nKrol, J., Loedige, I., Filipowicz, W., The widespread regulation of microRNA biogenesis, function and decay (2010) Nat Rev Genet, 11, pp. 597-610; \n\nBail, S., Swerdel, M., Liu, H., Jiao, X., Goff, L.A., Hart, R.P., Kiledjian, M., Differential regulation of microRNA stability (2010) RNA, 16, pp. 1032-1039; \n\nBagga, S., Bracht, J., Hunter, S., Massirer, K., Holtz, J., Eachus, R., Pasquinelli, A.E., Regulation by let-7 and lin-4 miRNAs results in target mRNA degradation (2005) Cell, 122, pp. 553-563; \n\nGiraldez, A.J., Mishima, Y., Rihel, J., Grocock, R.J., Van Dongen, S., Inoue, K., Enright, A.J., Schier, A.F., Zebrafish MiR-430 promotes deadenylation and clearance of maternal mRNAs (2006) Science, 312, pp. 75-79; \n\nKorner, C.G., Wahle, E., Poly(A) tail shortening by a mammalian poly(A)-specific 3'-exoribonuclease (1997) Journal of Biological Chemistry, 272, pp. 10448-10456; \n\nBrown, C.E., Sachs, A.B., Poly(A) tail length control in Saccharomyces cerevisiae occurs by message-specific deadenylation (1998) Molecular and Cellular Biology, 18, pp. 6548-6559; \n\nTollervey, D., Genetic and biochemical analyses of yeast RNase MRP (1996) Molecular Biology Reports, 22, pp. 75-79; \n\nCollart, M.A., (2003) Gene, 313, pp. 1-16; \n\nPillai, R.S., Bhattacharyya, S.N., Artus, C.G., Zoller, T., Cougot, N., Basyuk, E., Bertrand, E., Filipowicz, W., Inhibition of translational initiation by Let-7 MicroRNA in human cells (2005) Science, 309, pp. 1573-1576; \n\nHumphreys, D.T., Westman, B.J., Martin, D.I., Preiss, T., MicroRNAs control translation initiation by inhibiting eukaryotic initiation factor 4E/cap and poly(A) tail function (2005) Proc Natl Acad Sci U S A, 102, pp. 16961-16966; \n\nOlsen, P.H., Ambros, V., The lin-4 regulatory RNA controls developmental timing in Caenorhabditis elegans by blocking LIN-14 protein synthesis after the initiation of translation (1999) Dev Biol, 216, pp. 671-680; \n\nBuchan, J.R., Parker, R., Molecular biology. The two faces of miRNA (2007) Science, 318, pp. 1877-1878; \n\nVasudevan, S., Steitz, J.A., AU-rich-element-mediated upregulation of translation by FXR1 and Argonaute 2 (2007) Cell, 128, pp. 1105-1118; \n\nVasudevan, S., Tong, Y., Steitz, J.A., Switching from repression to activation: microRNAs can up-regulate translation (2007) Science, 318, pp. 1931-1934; \n\nDas, S., Cardioprotection with palm oil tocotrienols: comparision of different isomers (2008) Am J Physiol Heart Circ Physiol, 294, pp. H970-8; \n\nSood, P., Krek, A., Zavolan, M., Macino, G., Rajewsky, N., Cell-type-specific signatures of microRNAs on target mRNA expression (2006) Proc Natl Acad Sci U S A, 103, pp. 2746-2751; \n\nZhao, Y., Dysregulation of cardiogenesis, cardiac conduction, and cell cycle in mice lacking miRNA-1-2 (2007) Cell, 129, pp. 303-317; \n\nChen, J.F., Targeted deletion of Dicer in the heart leads to dilated cardiomyopathy and heart failure (2008) Proc Natl Acad Sci U S A, 105, pp. 2111-2116; \n\nMukhopadhyay, P., CB1 cannabinoid receptors promote oxidative stress and cell death in murine models of doxorubicin-induced cardiomyopathy and in human cardiomyocytes (2010) Cardiovasc Res, 85, pp. 773-784; \n\nRaman, S.V., The hypertensive heart. An integrated understanding informed by imaging (2010) J Am Coll Cardiol, 55, pp. 91-96; \n\nJellis, C., Martin, J., Narula, J., Marwick, T.H., Assessment of nonischemic myocardial fibrosis (2010) J Am Coll Cardiol, 56, pp. 89-97; \n\nda Costa Martins, P.A., Bourajjaj, M., Gladka, M., Kortland, M., van Oort, R.J., Pinto, Y.M., Molkentin, J.D., De Windt, L.J., Conditional dicer gene deletion in the postnatal myocardium provokes spontaneous cardiac remodeling (2008) Circulation, 118, pp. 1567-1576; \n\nvan Rooij, E., Sutherland, L.B., Thatcher, J.E., DiMaio, J.M., Naseem, R.H., Marshall, W.S., Hill, J.A., Olson, E.N., Dysregulation of microRNAs after myocardial infarction reveals a role of miR-29 in cardiac fibrosis (2008) Proc Natl Acad Sci U S A, 105, pp. 13027-13032; \n\nThum, T., MicroRNA-21 contributes to myocardial disease by stimulating MAP kinase signalling in fibroblasts (2008) Nature, 456, pp. 980-984; \n\nRoy, S., MicroRNA expression in response to murine myocardial infarction: miR-21 regulates fibroblast metalloprotease-2 via phosphatase and tensin homologue (2009) Cardiovasc Res, 82, pp. 21-29; \n\nDuisters, R.F., miR-133 and miR-30 regulate connective tissue growth factor: implications for a role of microRNAs in myocardial matrix remodeling (2009) Circ Res, 104, pp. 170-8+6. , following 178; \n\nYang, B., The muscle-specific microRNA miR-1 regulates cardiac arrhythmogenic potential by targeting GJA1 and KCNJ2 (2007) Nat Med, 13, pp. 486-491; \n\nChen, J.F., Mandel, E.M., Thomson, J.M., Wu, Q., Callis, T.E., Hammond, S.M., Conlon, F.L., Wang, D.Z., The role of microRNA-1 and microRNA-133 in skeletal muscle proliferation and differentiation (2006) Nat Genet, 38, pp. 228-233; \n\nSonkoly, E., MicroRNAs: novel regulators involved in the pathogenesis of psoriasis? (2007) PLoS One, 2, pp. e610; \n\nBoldin, M.P., miR-146a is a significant brake on autoimmunity, myeloproliferation, and cancer in mice (2011) J Exp Med, 208, pp. 1189-1201; \n\nMartin, M.M., Lee, E.J., Buckenberger, J.A., Schmittgen, T.D., Elton, T.S., MicroRNA-155 regulates human angiotensin II type 1 receptor expression in fibroblasts (2006) J Biol Chem, 281, pp. 18277-18284; \n\nO'Connell, R.M., Taganov, K.D., Boldin, M.P., Cheng, G., Baltimore, D., MicroRNA-155 is induced during the macrophage inflammatory response (2007) Proc Natl Acad Sci U S A, 104, pp. 1604-1609; \n\nTili, E., Modulation of miR-155 and miR-125b levels following lipopoly saccharide/TNF-alpha stimulation and their possible roles in regulating the response to endotoxin shock (2007) J Immunol, 179, pp. 5082-5089; \n\nTili, E., Michaille, J.J., Wernicke, D., Alder, H., Costinean, S., Volinia, S., Croce, C.M., Mutator activity induced by microRNA-155 (miR-155) links inflammation and cancer (2011) Proc Natl Acad Sci U S A, 108, pp. 4908-4913; \n\nRosa, A., The interplay between the master transcription factor PU.1 and miR-424 regulates human monocyte/macrophage differentiation (2007) Proc Natl Acad Sci U S A, 104, pp. 19849-19854; \n\nPonomarev, E.D., Veremeyko, T., Barteneva, N., Krichevsky, A.M., Weiner, H.L., MicroRNA-124 promotes microglia quiescence and suppresses EAE by deactivating macrophages via the C/EBP-alpha-PU.1 pathway (2011) Nat Med, 17, pp. 64-70; \n\nFontana, L., MicroRNAs 17-5p-20a-106a control monocytopoiesis through AML1 targeting and M-CSF receptor upregulation (2007) Nat Cell Biol, 9, pp. 775-787; \n\nLu, J., MicroRNA expression profiles classify human cancers (2005) Nature, 435, pp. 834-838; \n\nSayed, D., Abdellatif, M., MicroRNAs in development and disease (2011) Physiol Rev, 91, pp. 827-887; \n\nTili, E., Michaille, J.J., Alder, H., Volinia, S., Delmas, D., Latruffe, N., Croce, C.M., Resveratrol modulates the levels of microRNAs targeting genes encoding tumor-suppressors and effectors of TGFbeta signaling pathway in SW480 cells (2010) Biochem Pharmacol, 80, pp. 2057-2065; \n\nCalin, G.A., Croce, C.M., MicroRNA signatures in human cancers (2006) Nat Rev Cancer, 6, pp. 857-866; \n\nSlaby, O., Svoboda, M., Fabian, P., Smerdova, T., Knoflickova, D., Bednarikova, M., Nenutil, R., Vyzula, R., Altered expression of miR-21, miR-31, miR-143 and miR-145 is related to clinicopathologic features of colorectal cancer (2007) Oncology, 72, pp. 397-402; \n\nAthar, M., Back, J.H., Tang, X., Kim, K.H., Kopelovich, L., Bickers, D.R., Kim, A.L., Resveratrol: a review of preclinical studies for human cancer prevention (2007) Toxicol Appl Pharmacol, 224, pp. 274-283; \n\nCsiszar, A., Smith, K., Labinskyy, N., Orosz, Z., Rivera, A., Ungvari, Z., Resveratrol attenuates TNF-alpha-induced activation of coronary arterial endothelial cells: role of NF-kappaB inhibition (2006) Am J Physiol Heart Circ Physiol, 291, pp. H1694-9; \n\nTili, E., Resveratrol decreases the levels of miR-155 by upregulating miR-663, a microRNA targeting JunB and JunD (2010) Carcinogenesis, 31, pp. 1561-1566; \n\nCascio, S., miR-20b modulates VEGF expression by targeting HIF-1 alpha and STAT3 in MCF-7 breast cancer cells (2010) J Cell Physiol, 224, pp. 242-249; \n\nGuttilla, I.K., White, B.A., Coordinate regulation of FOXO1 by miR-27a, miR-96, and miR-182 in breast cancer cells (2009) J Biol Chem, 284, pp. 23204-23216; \n\nRobich, M.P., Anti-angiogenic effect of high-dose resveratrol in a swine model of metabolic syndrome (2010) Surgery, 148, pp. 453-462; \n\nMukhopadhyay, P., Das, S., Gorbunov, N., Ahsan, M.K., Otani, H., Pacher, P., Das, D.K., Modulation of miroRNA 20b with resveratrol and longevinex is linked with their potent anti-angiogenic action in the ischemic myocardium and synergestic effects of resveratrol and gamma-tocotrienol (2011) J Cell Mol Med; \n\nSaunders, L.R., Sharma, A.D., Tawney, J., Nakagawa, M., Okita, K., Yamanaka, S., Willenbring, H., Verdin, E., miRNAs regulate SIRT1 expression during mouse embryonic stem cell differentiation and in adult mouse tissues (2010) Aging (Albany NY); \n\nRane, S., Downregulation of miR-199a derepresses hypoxia-inducible factor-1alpha and Sirtuin 1 and recapitulates hypoxia preconditioning in cardiac myocytes (2009) Circ Res, 104, pp. 879-886; \n\nAagaard, L., Rossi, J.J., RNAi therapeutics: principles, prospects and challenges (2007) Adv Drug Deliv Rev, 59, pp. 75-86; \n\nZhao, Y., Srivastava, D., A developmental view of microRNA function (2007) Trends Biochem Sci, 32, pp. 189-197", "hasCitationDuplums" : false, "userChangeableUntil" : "2014-09-12T12:59:47.000+0000", "publishDate" : "2014-06-14T12:59:47.000+0000", "directInstitutesForSort" : "", "ownerAuthorCount" : 11, "ownerInstituteCount" : 59, "directInstituteCount" : 0, "authorCount" : 2, "contributorCount" : 0, "book" : { "otype" : "Book", "mtid" : 30138810, "link" : "/api/publication/30138810", "label" : "Dominique Delmas. Resveratrol: Sources, Production and Health Benefits. (2013) ISBN:9781620819975", "core" : false, "citation" : false, "publicationPending" : false, "type" : { "otype" : "PublicationType", "mtid" : 23, "link" : "/api/publicationtype/23", "label" : "Könyv", "code" : 23, "otypeName" : "Book", "listPosition" : 3, "published" : true, "oldId" : 23, "snippet" : true }, "subType" : { "otype" : "SubType", "mtid" : 10000201, "link" : "/api/subtype/10000201", "label" : "Szakkönyv (Könyv)", "name" : "Szakkönyv", "nameEng" : "Monograph", "docType" : { "otype" : "PublicationType", "mtid" : 23, "link" : "/api/publicationtype/23", "label" : "Könyv", "code" : 23, "otypeName" : "Book", "listPosition" : 3, "published" : true, "oldId" : 23, "snippet" : true }, "listPosition" : 337, "published" : true, "oldId" : 10000201, "snippet" : true }, "category" : { "otype" : "Category", "mtid" : 1, "link" : "/api/category/1", "label" : "Tudományos", "published" : true, "oldId" : 1, "snippet" : true }, "languages" : [ { "otype" : "Language", "mtid" : 10002, "link" : "/api/language/10002", "label" : "Angol", "name" : "Angol", "nameEng" : "English", "published" : true, "oldId" : 2, "snippet" : true } ], "title" : "Resveratrol: Sources, Production and Health Benefits", "identifiers" : [ { "otype" : "PublicationIdentifier", "mtid" : 7410013, "link" : "/api/publicationidentifier/7410013", "label" : "ISBN: 9781620819975", "source" : { "otype" : "PlainSource", "mtid" : 122, "link" : "/api/publicationsource/122", "label" : "ISBN", "type" : { "otype" : "PublicationSourceType", "mtid" : 10002, "link" : "/api/publicationsourcetype/10002", "label" : "Egyéb", "mayHaveOa" : false, "published" : true, "snippet" : true }, "name" : "ISBN", "nameEng" : "ISBN", "linkPattern" : "https://www.worldcat.org/search?q=isbn%3A@@@", "publiclyVisible" : true, "published" : true, "oldId" : 122, "snippet" : true }, "idValue" : "9781620819975", "realUrl" : "https://www.worldcat.org/search?q=isbn%3A9781620819975", "published" : false, "snippet" : true } ], "publishedAt" : [ { "otype" : "City", "mtid" : 10367, "link" : "/api/city/10367", "label" : "New York, Amerikai Egyesült Államok", "partOf" : { "otype" : "Country", "mtid" : 10017, "link" : "/api/country/10017", "label" : "Amerikai Egyesült Államok", "published" : true, "oldId" : 13, "snippet" : true }, "published" : true, "oldId" : 870, "snippet" : true } ], "publishedYear" : 2013, "foreignEdition" : true, "foreignLanguage" : true, "fullPublication" : true, "conferencePublication" : false, "duplumRole" : "SUSPECT", "published" : true, "snippet" : true }, "hasQualityFactor" : false, "link" : "/api/publication/23873286", "label" : "Kechrid M et al. Effects of microRNAs in the biological response of resveratrol. (2013) Megjelent: Resveratrol: Sources, Production and Health Benefits pp. 297-308", "template" : "