| dc.contributor.advisor | Kulich, Ivan | |
| dc.creator | Sabol, Peter | |
| dc.date.accessioned | 2017-04-21T03:20:17Z | |
| dc.date.available | 2017-04-21T03:20:17Z | |
| dc.date.issued | 2010 | |
| dc.identifier.uri | http://hdl.handle.net/20.500.11956/29924 | |
| dc.description.abstract | Rastliny sú sesilné organizmy a preto sa musia vysporiadať so zmenami v ich bezprostrednom okolí. Medzi takéto zmeny patria rôzne abiotické stresy a disturbancie, ale aj biotické interakcie s inými organizmami. Mnohé biotické interakcie zahrňujú poškodzovanie rastlinných buniek hubovým alebo bakteriálnym patogénom. Rastliny navyše nemajú mobilné bunky imunitného systému. Napriek tomu si vyvinuli iné mechanizmy na potlačenie infekcie. Aktivovanie komponentov sekretorickej dráhy pri napadnutí patogénom predstavuje kľúčový krok obrannej odpovede. Hubové patogény, ako napr. skupina powdery mildews, obvykle penetrujú bunkovú stenu rastlinnej bunky a tak získavajú prístup k živinám poskytovaným protoplastom a zároveň dodávajú virulentné faktory. Patogénne baktérie sa naopak množia v extracelulárnych priestoroch. V obidvoch prípadoch však bola pozorovaná spoločná odpoveď, a to tvorba obrannej papily. V nedávnej dobe boli opísané SNARE proteíny zúčastňujúce sa na obrannej odpovedi súvisiacej s tvorbou papily. Konkrétny záujem je venovaný PEN1 a SNAP33 syntaxínom cytoplazmatickej membrány. Akumulácia týchto proteínov v papile bola potvrdená na základe pozorovaní pomocou transmisnej elektrónovej a fluorescenčnej mikroskopie. Zároveň bol navrhnutý mechanizmus akumulácie PEN1 a SNAP33 syntaxínov v papile... | cs_CZ |
| dc.description.abstract | Plants are sessile organisms that have to cope with the changes of their ambient environment. These changes include abiotic disturbances and stresses as well as biotic interactions with other organisms. In many of the biotic interactions, plant cells are hurt or damaged by various bacterial and fungal pathogens. Moreover, plants lack mobile immune cells, which would otherwise render them susceptible to most of these pathogens. Plants have, however, developed other mechanisms for suppressing the infection. Activating the components of the secretory pathway during resistance response is crucial step for suppressing the penetration and growth of pathogens. Fungal pathogens, such as powdery mildews, usually attempt to penetrate the cell wall in order to gain the access to protoplast providing nutrients and to exchange their virulence factors. On the other hand, pathogenic bacteria inhabit extracellular spaces of plant tissues. In both cases, however, the deposition of papilla into the plant cell wall was observed. Papilla thus seems to be the common defence mechanism. There is an increasing evidence confirming the indispensable role of polarized secretion in formation of papilla. Recently, SNARE proteins participating in papilla-associated defence have been described. PEN1 and SNAP33 syntaxins are of... | en_US |
| dc.language | Slovenčina | cs_CZ |
| dc.language.iso | sk_SK | |
| dc.publisher | Univerzita Karlova, Přírodovědecká fakulta | cs_CZ |
| dc.subject | pathogen | en_US |
| dc.subject | resistance response | en_US |
| dc.subject | polarized secretion | en_US |
| dc.subject | exocyst | en_US |
| dc.subject | papilla | en_US |
| dc.subject | patogén | cs_CZ |
| dc.subject | obranná odpoveď | cs_CZ |
| dc.subject | polarizovaná sekrécia | cs_CZ |
| dc.subject | exocyst | cs_CZ |
| dc.subject | papila | cs_CZ |
| dc.title | Sekretorická dráha rostlin v obraně před patogeny | sk_SK |
| dc.type | bakalářská práce | cs_CZ |
| dcterms.created | 2010 | |
| dcterms.dateAccepted | 2010-06-10 | |
| dc.description.department | Department of Experimental Plant Biology | en_US |
| dc.description.department | Katedra experimentální biologie rostlin | cs_CZ |
| dc.description.faculty | Faculty of Science | en_US |
| dc.description.faculty | Přírodovědecká fakulta | cs_CZ |
| dc.identifier.repId | 80014 | |
| dc.title.translated | Secretory pathway of plants in pathogene defence | en_US |
| dc.title.translated | Sekretorická dráha rostlin v obraně před patogeny | cs_CZ |
| dc.contributor.referee | Burketová, Lenka | |
| dc.identifier.aleph | 001275736 | |
| thesis.degree.name | Bc. | |
| thesis.degree.level | bakalářské | cs_CZ |
| thesis.degree.discipline | Biologie | cs_CZ |
| thesis.degree.discipline | Biology | en_US |
| thesis.degree.program | Biologie | cs_CZ |
| thesis.degree.program | Biology | en_US |
| uk.thesis.type | bakalářská práce | cs_CZ |
| uk.taxonomy.organization-cs | Přírodovědecká fakulta::Katedra experimentální biologie rostlin | cs_CZ |
| uk.taxonomy.organization-en | Faculty of Science::Department of Experimental Plant Biology | en_US |
| uk.faculty-name.cs | Přírodovědecká fakulta | cs_CZ |
| uk.faculty-name.en | Faculty of Science | en_US |
| uk.faculty-abbr.cs | PřF | cs_CZ |
| uk.degree-discipline.cs | Biologie | cs_CZ |
| uk.degree-discipline.en | Biology | en_US |
| uk.degree-program.cs | Biologie | cs_CZ |
| uk.degree-program.en | Biology | en_US |
| thesis.grade.cs | Výborně | cs_CZ |
| thesis.grade.en | Excellent | en_US |
| uk.abstract.cs | Rastliny sú sesilné organizmy a preto sa musia vysporiadať so zmenami v ich bezprostrednom okolí. Medzi takéto zmeny patria rôzne abiotické stresy a disturbancie, ale aj biotické interakcie s inými organizmami. Mnohé biotické interakcie zahrňujú poškodzovanie rastlinných buniek hubovým alebo bakteriálnym patogénom. Rastliny navyše nemajú mobilné bunky imunitného systému. Napriek tomu si vyvinuli iné mechanizmy na potlačenie infekcie. Aktivovanie komponentov sekretorickej dráhy pri napadnutí patogénom predstavuje kľúčový krok obrannej odpovede. Hubové patogény, ako napr. skupina powdery mildews, obvykle penetrujú bunkovú stenu rastlinnej bunky a tak získavajú prístup k živinám poskytovaným protoplastom a zároveň dodávajú virulentné faktory. Patogénne baktérie sa naopak množia v extracelulárnych priestoroch. V obidvoch prípadoch však bola pozorovaná spoločná odpoveď, a to tvorba obrannej papily. V nedávnej dobe boli opísané SNARE proteíny zúčastňujúce sa na obrannej odpovedi súvisiacej s tvorbou papily. Konkrétny záujem je venovaný PEN1 a SNAP33 syntaxínom cytoplazmatickej membrány. Akumulácia týchto proteínov v papile bola potvrdená na základe pozorovaní pomocou transmisnej elektrónovej a fluorescenčnej mikroskopie. Zároveň bol navrhnutý mechanizmus akumulácie PEN1 a SNAP33 syntaxínov v papile... | cs_CZ |
| uk.abstract.en | Plants are sessile organisms that have to cope with the changes of their ambient environment. These changes include abiotic disturbances and stresses as well as biotic interactions with other organisms. In many of the biotic interactions, plant cells are hurt or damaged by various bacterial and fungal pathogens. Moreover, plants lack mobile immune cells, which would otherwise render them susceptible to most of these pathogens. Plants have, however, developed other mechanisms for suppressing the infection. Activating the components of the secretory pathway during resistance response is crucial step for suppressing the penetration and growth of pathogens. Fungal pathogens, such as powdery mildews, usually attempt to penetrate the cell wall in order to gain the access to protoplast providing nutrients and to exchange their virulence factors. On the other hand, pathogenic bacteria inhabit extracellular spaces of plant tissues. In both cases, however, the deposition of papilla into the plant cell wall was observed. Papilla thus seems to be the common defence mechanism. There is an increasing evidence confirming the indispensable role of polarized secretion in formation of papilla. Recently, SNARE proteins participating in papilla-associated defence have been described. PEN1 and SNAP33 syntaxins are of... | en_US |
| uk.file-availability | V | |
| uk.publication.place | Praha | cs_CZ |
| uk.grantor | Univerzita Karlova, Přírodovědecká fakulta, Katedra experimentální biologie rostlin | cs_CZ |
| dc.identifier.lisID | 990012757360106986 | |
