"E-photosynthesis: ucelen\u00FD modelovac\u00ED p\u0159\u00EDstup k porozum\u011Bn\u00ED fluorescence chlorofylu a dal\u0161\u00EDch komplexn\u00EDch dynamick\u00FDch vlastnost\u00ED fotosynt\u00E9zy p\u0159i prom\u011Bnliv\u00E9m sv\u011Btle"@cs . "chlorophyll fluorescence emission; forced oscillations; model reduction; nonlinearity; photosystem II; system biology; system decomposition"@en . "Porozum\u011Bn\u00ED komplexn\u00ED neline\u00E1rn\u00ED dynamice fotosynt\u00E9zy p\u0159i prom\u011Bnn\u00FDch sv\u011Bteln\u00FDch podm\u00EDnk\u00E1ch vy\u017Eaduje nov\u00E9 p\u0159\u00EDstupy modelov\u00E1n\u00ED, kter\u00E1 zahrnuj\u00ED nejen prim\u00E1rn\u00ED sv\u011Bteln\u00E9 a temn\u00E9 biochemick\u00E9 reakce, ale tak\u00E9 s\u00EDt\u011B regula\u010Dn\u00EDch vazeb. Tyto po\u017Eadavky p\u0159ekra\u010Duj\u00ED mo\u017Enosti st\u00E1vaj\u00EDc\u00EDch molekul\u00E1rn\u00EDch model\u016F, kter\u00E9 jsou v\u011Bt\u0161inou redukovan\u00E9 tak, aby popsaly jednotliv\u00FD proces, dynamiku specifick\u00E9ho komplexu nebo jeho konkr\u00E9tn\u00ED dynamickou vlastnost. Navrhujeme koncept ucelen\u00E9ho modelu, kter\u00FD by reprezentoval vnit\u0159n\u011B konzistentn\u00ED framework kombinuj\u00EDc\u00ED informace z\u00EDskan\u00E9 z redukovan\u00FDch model\u016F, kter\u00E9 vedly k jeho sestaven\u00ED. Tento p\u0159ehled prozkoum\u00E1v\u00E1 p\u0159\u00EDstupy a n\u00E1stroje, kter\u00E9 ji\u017E existuj\u00ED v in\u017Een\u00FDrsk\u00FDch v\u011Bd\u00E1ch, matematice a biologii, kter\u00E9 by byly n\u00E1pomocn\u00E9 p\u0159i v\u00FDvoji ucelen\u00E9ho modelu fotosynt\u00E9zy. D\u00E1le jsme vyvinuli techniky, kter\u00FDmi je mo\u017En\u00E9 redukovat takov\u00FDto ucelen\u00FD model v modely ni\u017E\u0161\u00EDho \u0159\u00E1du, p\u0159i zachov\u00E1n\u00ED v\u00FDznamn\u00FDch dynamick\u00FDch vlastnost\u00ED."@cs . "12"^^ . . . "E-photosynthesis: a comprehensive modeling approach to understand chlorophyll fluorescence transients and other complex dynamic features of photosynthesis in fluctuating light"@en . . "420307" . . . "1" . "Rascher, U." . "\u010Cerven\u00FD, Jan" . . "RIV/68407700:21220/07:02133023!RIV08-MSM-21220___" . "223;234" . . . "Understanding of the complex, non-linear dynamics of photosynthesis in fluctuating light requires novel-modeling approaches that involve not only the primary light and dark biochemical reactions, but also networks of regulatory interactions. This requirement exceeds the capacity of the existing molecular models that are typically reduced to describe a partial process, dynamics of a specific complex or its particular dynamic feature. We propose a concept of comprehensive model that would represent an internally consistent, integral framework combining information on the reduced models that led to its construction. This review explores approaches and tools that exist in engineering, mathematics, and in other domains of biology that can be used to develop a comprehensive model of photosynthesis. Equally important, we investigated techniques by which one can rigorously reduce such a comprehensive model to models of low dimensionality, which preserve dynamic features of interest."@en . . "0166-8595" . "P(1M0567), Z(MSM6007665808)" . "E-photosynthesis: a comprehensive modeling approach to understand chlorophyll fluorescence transients and other complex dynamic features of photosynthesis in fluctuating light"@en . "Photosynthesis Research" . . "E-photosynthesis: a comprehensive modeling approach to understand chlorophyll fluorescence transients and other complex dynamic features of photosynthesis in fluctuating light" . "Understanding of the complex, non-linear dynamics of photosynthesis in fluctuating light requires novel-modeling approaches that involve not only the primary light and dark biochemical reactions, but also networks of regulatory interactions. This requirement exceeds the capacity of the existing molecular models that are typically reduced to describe a partial process, dynamics of a specific complex or its particular dynamic feature. We propose a concept of comprehensive model that would represent an internally consistent, integral framework combining information on the reduced models that led to its construction. This review explores approaches and tools that exist in engineering, mathematics, and in other domains of biology that can be used to develop a comprehensive model of photosynthesis. Equally important, we investigated techniques by which one can rigorously reduce such a comprehensive model to models of low dimensionality, which preserve dynamic features of interest." . . "E-photosynthesis: ucelen\u00FD modelovac\u00ED p\u0159\u00EDstup k porozum\u011Bn\u00ED fluorescence chlorofylu a dal\u0161\u00EDch komplexn\u00EDch dynamick\u00FDch vlastnost\u00ED fotosynt\u00E9zy p\u0159i prom\u011Bnliv\u00E9m sv\u011Btle"@cs . "21220" . "[155B2B3B25DD]" . "RIV/68407700:21220/07:02133023" . . "Schmidt, H." . "DE - Spolkov\u00E1 republika N\u011Bmecko" . . "E-photosynthesis: a comprehensive modeling approach to understand chlorophyll fluorescence transients and other complex dynamic features of photosynthesis in fluctuating light" . "4"^^ . . "Nedbal, L." . . . "1"^^ . . . . . "93" . .