REPOZYTORIUM UNIWERSYTETU
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  1. Repozytorium Uniwersytetu w Białymstoku
  2. Konferencje naukowe i edukacyjne
  3. 2019
  4. XIV Międzynarodowa Interdyscyplinarna Konferencja "Current Environmental Issues-2019", 24-26 września 2019

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    • Proszę używać tego identyfikatora do cytowań lub wstaw link do tej pozycji: http://hdl.handle.net/11320/17670
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    Pole DCWartośćJęzyk
    dc.contributor.authorTymiński, Marcin-
    dc.contributor.authorCiąćka, Katarzyna-
    dc.contributor.authorStaszek, Paweł-
    dc.contributor.authorWal, Agnieszka-
    dc.contributor.authorŻak, J.-
    dc.contributor.authorKrasuska, Urszula-
    dc.date.accessioned2024-12-02T09:05:07Z-
    dc.date.available2024-12-02T09:05:07Z-
    dc.date.issued2019-
    dc.identifier.citationModern problems and solutions in environmental protection. Post-conference monograph of Current Environmental Issues 2019, edited by Joanna Karpińska, Marek Bartoszewicz, Róża Sawczuk, Białystok 2019, s. 44-49pl
    dc.identifier.isbn978-83-7431-601-9-
    dc.identifier.urihttp://hdl.handle.net/11320/17670-
    dc.description.abstractWarm stratification stimulates apple (Malus domestica Borkh.) seeds' ageing. In our work, warm stratification was used as a treatment leading to the controlled seeds' deterioration. We examined the levels of biotin-containing proteins (indicators of seeds' viability) and ubiquitin-marked proteins in the embryonic axes of aged seeds. Alterations in the level of biotin-containing proteins depended on the duration of warm stratification. No change in the content of ubiquitinated proteins was observed.pl
    dc.description.sponsorshipThe work was supported by grant Opus 12 no. 2016/23/B/NZ9/03462 National Science Centre, Poland, given to U.K.pl
    dc.language.isoenpl
    dc.publisherUniversity of Bialystok Presspl
    dc.subjectbiotinylated proteinspl
    dc.subjectseeds ageingpl
    dc.subjectubiquitin-marked proteinspl
    dc.subjectwarm stratificationpl
    dc.titleWarm stratification of apple seeds leads to alterations in biotincon taining protein levelspl
    dc.typeBook chapterpl
    dc.rights.holder© Copyright by Uniwersytet w Białymstoku, Białystok 2019pl
    dc.description.AffiliationMarcin Tymiński - Department of Plant Physiology, Warsaw University of Life Sciences-SGGWpl
    dc.description.AffiliationKatarzyna Ciąćka - Department of Plant Physiology, Warsaw University of Life Sciences-SGGWpl
    dc.description.AffiliationPaweł Staszek - Department of Plant Physiology, Warsaw University of Life Sciences-SGGWpl
    dc.description.AffiliationAgnieszka Wal - Department of Plant Physiology, Warsaw University of Life Sciences-SGGWpl
    dc.description.AffiliationJ. Żak - Department of Plant Physiology, Warsaw University of Life Sciences-SGGWpl
    dc.description.AffiliationUrszula Krasuska - Department of Plant Physiology, Warsaw University of Life Sciences-SGGWpl
    dc.description.referencesCorbineau, F., Rudnicki, R.M., Côme, D. (1988) Induction of secondary dormancy in sunflower seeds by high temperature. Possible involvement of ethylene biosynthesis. Physiologia Plantarum, 73: 368-373.pl
    dc.description.referencesDehaye, L., Duval, M., Viguier, D., Yaxley, J., Job, D. (1997) Cloning and expression of the pea gene encoding SBP65, a seed-specific biotinylated protein. Plant Molecular Biology, 35: 605-621.pl
    dc.description.referencesDębska, K., Krasuska, U., Budnicka, K., Bogatek, R., Gniazdowska, A. (2013) Dormancy removal of apple seeds by cold stratification is associated with fluctuation in H₂0₂, NO production and protein carbonylation level. Journal of Plant PhYSiology, 170 : 480-488.pl
    dc.description.referencesDuval, M., DeRose, R.T., Job, C., Faucher, D., Douce, R., Job, D. (1994a) The major biotinyl protein from Pisum sativum seeds covalently binds biotin at a novel site. Plant Molecular Biology, 26: 265-273.pl
    dc.description.referencesDuval, M., Job, C., Alban, C., Douce, R., Job, D. (1994b) Developmental patterns of free and protein-bound biotin during maturation and germination of seeds of Pisum sativum: characterization of a novel seed-specific biotinylated protein. Biochemical Journal, 299: 141-150.pl
    dc.description.referencesKrasuska, U., Ciacka, K, Orzechowski, S., Fettke, J., Bogatek, R., Gniazdowska, A. (2016) Modification of the endogenous NO level influences apple embryos dormancy by alterations of nitrated and biotinylated protein patterns. Planta, 244: 877-891.pl
    dc.description.referencesLewak, S. (2011) Metabolic control of embryonic dormancy in apple seed: seven decades of research. Acta Physiologia Plantarum, 33: 1-24.pl
    dc.description.referencesMcDonald, M.B. (1999) Seed deterioration: physiology, repair and assessment. Seed Science and Technology, 27: 177-237.pl
    dc.description.referencesMorscher, F., Kranner, I., Arc, E., Bailly, C., Roach, T. (2015) Glutathione redox state, tocochromanols, fatty acids, antioxidant enzymes and protein carbonylation in sunflower seed embryos associated with after-ripening and ageing. Annals of Botany, 116: 669-678.pl
    dc.description.referencesPriestley, D.A. Seed aging: Implications for seed storage and persistence in the soil. Ithaca, New York: Cornell University Press, 1986.pl
    dc.description.referencesRajjou, L., Gallardo, K., Debeaujon, I., Vandekerckhove, J., Job, C., Job, D. (2004) The effect of alpha-amanitin on the Arabidopsis seed proteome highlights the distinct roles of stored and neosynthesized mRNAs during germination. Plant Physiology, 134: 1598-1613.pl
    dc.description.referencesRajjou, L., Lovigny, Y., Groot, S.P.C., Belghazi, M., Job, C., Job, D. (2008) Proteome-wide characterization of seed aging in Arabidopsis: a comparison between artificial and natural aging protocols. Plant PhYSiology, 148: 620-641.pl
    dc.description.referencesSallon, S., et al. (2008) Germination, genetics, and growth of an ancient date seed. Science, 320: 1464.pl
    dc.description.referencesSano, N., Rajjou, L., North, H.M., Debeaujon, I., Marion-Poll, A., Seo, M. (2016) Staying alive: molecular aspects of seed longevity. Plant and Cell Physiology, 57: 660-674.pl
    dc.description.referencesStuttmann, J., et al. (2009) COP9 signalosome - and 26S proteasome dependent regulation of SCFTIRl accumulation in Arabidopsis. The Journal of Biological Chemistry, 284: 7920-7930.pl
    dc.description.referencesWaIters, C., Ballesteros, D., Vertucci, V.A, (2010) Structural mechanics of seed deterioration: Standing the test of time. Plant Science, 179: 565-573.pl
    dc.description.firstpage44pl
    dc.description.lastpage49pl
    dc.identifier.citation2Modern problems and solutions in environmental protection. Post-conference monograph of Current Environmental Issues 2019, edited by Joanna Karpińska, Marek Bartoszewicz, Róża Sawczukpl
    dc.conferenceXIV Międzynarodowa Interdyscyplinarna Konferencja „Current Environmental Issues – 2019”, Białystok 24-26 września 2019 r.pl
    Występuje w kolekcji(ach):Książki / Rozdziały (WUwB)
    XIV Międzynarodowa Interdyscyplinarna Konferencja "Current Environmental Issues-2019", 24-26 września 2019

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