"Mikroskopick\u00E9 sledov\u00E1n\u00ED kinetiky fluorescence u jednotliv\u00FDch bun\u011Bk Pylaiella litoralis (Phaeophyceae) kter\u00E9 infikovalo Chytridium polysiphoniae (Chytridiomycota)"@cs . . . "0967-0262" . "9"^^ . "Single-cell chlorophyll fluorescence kinetic microscopy of Pylaiella littoralis (Phaeophyceae) infected by Chytridium polysiphoniae (Chytridiomycota)" . "Single-cell chlorophyll fluorescence kinetic microscopy of Pylaiella littoralis (Phaeophyceae) infected by Chytridium polysiphoniae (Chytridiomycota)"@en . . . "GB - Spojen\u00E9 kr\u00E1lovstv\u00ED Velk\u00E9 Brit\u00E1nie a Severn\u00EDho Irska" . "photosystem II; fluorescence kinetic microscopy; pylaiella littoralis"@en . "K\u00FCpper, H." . "41" . "395;403" . . . . . . "Single-cell chlorophyll fluorescence kinetic microscopy of Pylaiella littoralis (Phaeophyceae) infected by Chytridium polysiphoniae (Chytridiomycota)"@en . "\u0160etl\u00EDk, Ivan" . "Z(AV0Z50200510)" . "1"^^ . "4"^^ . "RIV/61388971:_____/06:00099737" . "Gachon, C. M. M." . "Kupper, F. C." . "4" . "Chlorophyll fluorescence imaging is a non-invasive method to monitor the metabolic state of photosynthetic organisms. We used spatially resolved (imaging) microscopic measurements of chlorophyll fluorescence kinetics to follow the fate of individual cells of the filamentous brown alga Pylaiella littoralis infected by the biotrophic parasite Chytridium polysiphoniae (Chytridiomycota). These measurements showed strong differences between individual parameters of the inhibition of photosynthesis, revealing important details about the mechanism of damage. The dark-adapted photochemistry of photosystem II itself (measured as Fv/Fm, where Fv0,25Fm_F0) remained unaffected until a very late stage of damage to the cell, while the light-adapted efficiency of PSII electron transport decreased earlier. A particularly complex pattern was found for the changes in nonphotochemical quenching (NPQ)"@en . "Mikroskopick\u00FDm zobrazov\u00E1n\u00EDm kinetiky fluorescence chlorofylu v bu\u0148k\u00E1ch vl\u00E1knit\u00E9 hn\u011Bd\u00E9 \u0159asy Pylaiella littoralis se studovaly zm\u011Bny ve fotosyntetick\u00E9m apar\u00E1tu p\u0159i infekci parasitem Chytridium polysiphoniae. V\u00FDsledky ukazuj\u00ED, \u017Ee infekce m\u00E1 vliv na regulaci fotosynt\u00E9zy; v prv\u00E9 f\u00E1zi infekce fotosynt\u00E9zu stimuluje, v druh\u00E9 f\u00E1zi v\u0161echny fotosyntetick\u00E9 parametry klesaj\u00ED. Fluorescen\u010Dn\u00ED parametry m\u011B\u0159en\u00E9 na bu\u0148k\u00E1ch adaptovan\u00FDch na tmu klesaly a\u017E v posledn\u00EDch stadi\u00EDch po\u0161kozen\u00ED bu\u0148ky"@cs . "European Journal of Phycology" . "499498" . . "Single-cell chlorophyll fluorescence kinetic microscopy of Pylaiella littoralis (Phaeophyceae) infected by Chytridium polysiphoniae (Chytridiomycota)" . . . . "Chlorophyll fluorescence imaging is a non-invasive method to monitor the metabolic state of photosynthetic organisms. We used spatially resolved (imaging) microscopic measurements of chlorophyll fluorescence kinetics to follow the fate of individual cells of the filamentous brown alga Pylaiella littoralis infected by the biotrophic parasite Chytridium polysiphoniae (Chytridiomycota). These measurements showed strong differences between individual parameters of the inhibition of photosynthesis, revealing important details about the mechanism of damage. The dark-adapted photochemistry of photosystem II itself (measured as Fv/Fm, where Fv0,25Fm_F0) remained unaffected until a very late stage of damage to the cell, while the light-adapted efficiency of PSII electron transport decreased earlier. A particularly complex pattern was found for the changes in nonphotochemical quenching (NPQ)" . . "[D085FE2674CE]" . "Mikroskopick\u00E9 sledov\u00E1n\u00ED kinetiky fluorescence u jednotliv\u00FDch bun\u011Bk Pylaiella litoralis (Phaeophyceae) kter\u00E9 infikovalo Chytridium polysiphoniae (Chytridiomycota)"@cs . "RIV/61388971:_____/06:00099737!RIV08-AV0-61388971" . .