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  1. 1
    Academic Journal

    Wheat antimicrobial peptides

    Συγγραφείς: Ya. A. Andreev, L. L. Utkina, T. I. Odintsova, Tatyana V. Korostyleva, Anna A. Slavokhotova, Ts. A. Egorov, V. A. Pukhal’ski, E. A. Istomina

    Πηγή: Вавиловский журнал генетики и селекции, Vol 16, Iss 1, Pp 107-115 (2014)

    Θεματικοί όροι: 0301 basic medicine, 2. Zero hunger, 0303 health sciences, QH426-470, 3. Good health, triticum kiharae dorof. et migusch, antimicrobial peptides, 03 medical and health sciences, wheat, Genetics, plant immunity, regulation of gene expression, 3′- and 5′-rасе method, amino acid sequencing

    Σύνδεσμος πρόσβασης: https://doaj.org/article/a48795a27ea94f1c804ff74e46a4a64c
    http://onlinelibrary.wiley.com/doi/10.1002/9780470196502.ch5/summary
    https://link.springer.com/article/10.1134/S2079059713010103
    https://link.springer.com/content/pdf/10.1134%2FS2079059713010103.pdf

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  2. 2
    Academic Journal

    WHEAT ANTIMICROBIAL PEPTIDES

    Συγγραφείς: T. I. Odintsova, T. V. Korostyleva, L. L. Utkina, Ya. A. Andreev, A. A. Slavokhotova, E. A. Istomina, V. A. Pukhal’skii, T. A. Egorov

    Πηγή: Вавиловский журнал генетики и селекции, Vol 16, Iss 1, Pp 107-115 (2014)

    Θεματικοί όροι: wheat, triticum kiharae dorof. et migusch., antimicrobial peptides, amino acid sequencing, 3′- and 5′-rасе method, plant immunity, regulation of gene expression, Genetics, QH426-470

    Περιγραφή αρχείου: electronic resource

    Relation: https://vavilov.elpub.ru/jour/article/view/29; https://doaj.org/toc/2500-3259

    Σύνδεσμος πρόσβασης: https://doaj.org/article/a48795a27ea94f1c804ff74e46a4a64c

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  3. 3
    Academic Journal

    WHEAT ANTIMICROBIAL PEPTIDES ; АНТИМИКРОБНЫЕ ПЕПТИДЫ ПШЕНИЦЫ

    Συγγραφείς: T. I. Odintsova, T. V. Korostyleva, L. L. Utkina, Ya. A. Andreev, A. A. Slavokhotova, E. A. Istomina, V. A. Pukhal’skii, T. A. Egorov, Т. И. Одинцова, Т. В. Коростылева, Л. Л. Уткина, Я. А. Андреев, А. А. Славохотова, Е. А. Истомина, В. А. Пухальский, Ц. А. Егоров

    Συνεισφορές: гранты РФФИ № 09-04-00250-а и 11-04-00190-а, программа Президиума РАН «Генофонды и генетическое разнообразие», Госконтракт Минобрнауки № 16.512.11.2156

    Πηγή: Vavilov Journal of Genetics and Breeding; Том 16, № 1 (2012); 107-115 ; Вавиловский журнал генетики и селекции; Том 16, № 1 (2012); 107-115 ; 2500-3259

    Θεματικοί όροι: регуляция экспрессии генов, Triticum kiharae Dorof. et Migusch, antimicrobial peptides, amino acid sequencing, 3′- and 5′-RАСЕ method, plant immunity, regulation of gene expression, антимикробные пептиды, секвенирование аминокислотных последовательностей, 3′- и 5′-RАСЕ, иммунитет растений

    Περιγραφή αρχείου: application/pdf

    Relation: https://vavilov.elpub.ru/jour/article/view/29/27; Ajesh K., Sreejith K. Peptide antibiotics: an alternative and antimicrobial strategy to circumvent fungal infections // Peptides. 2009. V. 30. P. 999–1006.; Benko-Iseppon A.M., Galdino S.L., Calsa T. Jr. et al. Overview on plant antimicrobial peptides // Curr. Protein Pept. Sci. 2010. V. 11. P. 181–188.; Broekaert W.F., Cammue B.P.A., De Bolle M.F.C. et al. Antimicrobial peptides from plants // Crit. Rev. Plant Sci. 1997. V. 16. P. 297–323.; Bulet P., Hetru C., Dimarcq J.L., Hoffmann D. Antimicrobial peptides in insects, structure and function // Dev. Comp. Immunol. 1999. V. 23. Nо 4/5. P. 329–44.; Castro M.S., Fontes W. Plant defense and antimicrobial peptides // Protein Pept. 2005. V. 12. P. 13–18.; da Rocha Pitta M.G., da Rocha Pitta M.G., Galdino S.L. Development of novel therapeutic drugs in humans from plant antimicrobial peptides // Curr. Protein Pept. Sci. 2010. V. 11. P. 236–247.; Dubovskii P.V., Vassilevski A.A., Slavokhotova A.A. et al. Solution structure of a defense peptide from wheat with a 10-cysteine motif // Biochem. Biophys. Res. Commun. 2011. V. 411. Nо 1. Р. 14–18.; Egorov T.A., Odintsova T.I., Pukhalsky V.A., Grishin E.V. Diversity of wheat antimicrobial peptides // Peptides. 2005. V. 26. P. 2064–2073.; Gao G.H., Liu W., Dai J.X. et al. Solution structure of PAFP-S: a new knottin-type antifungal peptide from the seeds of Phytolacca americana // Biochemistry. 2001. V. 40. P. 10973–10978.; Garcia-Olmedo F., Molina A., Alamillo J.M., Rodriguez-Palenzuela P. Plant defense peptides // Biopolymers (Peptide Sci.). 1998. V. 47. P. 479–491.; Garcia-Olmedo F., Rodriguez-Palenzuela P., Molina A. et al. Antibiotic activities of peptides, hydrogen peroxide and peroxynitrite in plant defence // FEBS Letters. 2001. V. 498. P. 219–222.; Farrokhi N., Whitelegge J.P., Brusslan J.A. Plant peptides and peptidomics // Plant Biotechnol. J. 2008. V. 6. P. 105–134.; Huang R-H., Xiang Y., Liu X-Z. et al. Two novel antifungal peptides distinct with a fi ve-disulfi de motif from the bark of Eucommia ulmoides Oliv // FEBS Lett. 2002. V. 521. P. 87–90.; Kido E.A., Pandolfi V., Houllou-Kido L.M. et al. Plant antimicrobial peptides: an overview of SuperSAGE transcriptional profi le and a functional review // Curr. Protein Pept. Sci. 2010. V. 11. P. 220–230.; Koike M., Okamoto T., Tsuda S., Imai R. A novel plant defensin-like gene of winter wheat is specifi cally induced during cold acclimation // Biochem. Biophys. Res. Commun. 2002. V. 298. P. 46–53.; Lobo D.S., Pereira I.B., Fragel-Madeira L. et al. Antifungal Pisum sativum defensin 1 interacts with Neurospora crassa cyclin F related to the cell cycle // Biochemistry. 2007. V. 46. P. 987–996.; Manners J.M. Hidden weapons of microbial destruction in plant genomes // Genome Biol. 2007. V. 8. P. 225–234.; Nolde S.B., Vassilevski A.A., Rogozhin E.A. et al. Disulfi destabilized helical hairpin structure of a novel antifungal peptide EcAMP1 from seeds of barnyard grass (Echinochloa crus-galli) // J. Biol. Chem. 2011. V. 286. Nо 28. Р. 25145–25153.; Odintsova T.I., Egorov Ts.A., Musolyamov A.Kh. et al. Seed defensins from T. kiharae and related species: genome localization of defensin-encoding genes // Biochimie. 2007. V. 89. P. 605–612.; Odintsova T.I., Vassilevski A.A., Slavokhotova A.A. et al. A novel antifungal hevein-type peptide from Triticum kiharae seeds with a unique 10-cysteine motif // FEBS J. 2009. V. 276. P. 4266–4275.; Padovan L., Scocchi M., Tossi A. Structural aspects of plant antimicrobial peptides // Curr. Protein Pept. Sci. 2010. V. 11. P. 210–219.; Sels J., Mathys J., De Coninck B.M. et al. Plant pathogenesis-related (PR) proteins: a focus on PR peptides // Plant Physiol. Biochem. 2008. V. 46. P. 941–950.; Tavares L.S., de Santos M., Viccini L.F. et al. Biotechnological potential of antimicrobial peptides from fl owers // Peptides. 2008. V. 29. P. 1842–1851.; Van den Bergh K.P.B., Proost P., Van Damme J. et al. Five disulfi de bridges stabilize a hevein-type antimicrobial peptide from the bark of spindle tree (Euonymus europaeus L.) // FEBS Letters. 2002. V. 530. P. 181–185.; Van der Weerden N.L., Lay F.T., Anderson M.A. The plant defensin, NaD1, enters the cytoplasm of Fusarium oxysporum hyphae // J. Biol. Chem. 2008. V. 283. P. 14445–14452.; Vasil I.K. Molecular genetic improvement of cereals: transgenic wheat (Triticum aestivum L.) // Plant Cell Rep. 2007. V. 26. P. 1133–1154.; https://vavilov.elpub.ru/jour/article/view/29

    Διαθεσιμότητα: https://vavilov.elpub.ru/jour/article/view/29

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