. . . "Flow cytometry and cell sorting in plant biotechology" . . "[BEF039248E9E]" . . . "Flow cytometry and cell sorting in plant biotechology"@en . . . . . . "291;322" . . "Oxford University Press" . "Flow cytometry and cell sorting in plant biotechology"@en . "Flow cytometry; cell sorting; plant biotechnology"@en . . . . "2"^^ . "Pr\u016Ftokov\u00E1 cytometrie a t\u0159\u00EDd\u011Bn\u00ED bun\u011Bk v rostlinn\u00E9 biotechnologii"@cs . "Barto\u0161, Jan" . . "RIV/61389030:_____/05:00081533" . "3"^^ . "Pr\u016Ftokov\u00E1 cytometrie a t\u0159\u00EDd\u011Bn\u00ED byly aplikov\u00E1ny p\u0159i \u0159e\u0161en\u00ED cel\u00E9ho spektra probl\u00E9m\u016F rostlinn\u00FDch biotechnologi\u00ED a genomiky. Mo\u017Enosti aplikace pr\u016Ftokov\u00E9 cytometrie byly zna\u010Dn\u011B roz\u0161\u00ED\u0159eny v\u00FDvojem metod pro expresi spont\u00E1nn\u011B fluorescen\u010Dn\u00EDch marker\u016F v transgenn\u00EDch organismech. Z nich zelen\u00FD fluorescen\u010Dn\u00ED protein (GFP) a jeho deriv\u00E1ty jsou nejzn\u00E1m\u011Bj\u0161\u00ED a nejd\u016Fle\u017Eit\u011Bj\u0161\u00ED. Metody anal\u00FDzy a t\u0159\u00EDd\u011Bn\u00ED pr\u016Ftokovou cytometri\u00ED byly rovn\u011B\u017E vyvinuty pro bun\u011B\u010Dn\u00E9 organely, v\u010Detn\u011B jader, mitochondri\u00ED a chloroplast\u016F a vyu\u017E\u00EDvaj\u00ED vlastn\u00ED fluorescence (chloroplasty), in vivo expresi GFP, nebo barven\u00ED fluorescen\u010Dn\u00EDmi barvivy."@cs . "Dole\u017Eel, Jaroslav" . "Flow Cytometry for Biotechnology" . "Galbraith, D. W." . . "32"^^ . . "Pr\u016Ftokov\u00E1 cytometrie a t\u0159\u00EDd\u011Bn\u00ED bun\u011Bk v rostlinn\u00E9 biotechnologii"@cs . "P(GA204/04/1207), P(GA521/03/0595), P(GA521/04/0607), Z(AV0Z50380511)" . "RIV/61389030:_____/05:00081533!RIV07-AV0-61389030" . "Flow cytometry and cell sorting has been applied to a wide variety of different problems in plant biotechnology and genomics. Applications of flow cytometry and sorting have been particularly boosted by the development of methods for expression of intrinsically fluorescent markers within transgenic organisms, of which the Green Fluorescent Protein and its derivatives, are the most popular and important. Flow cytometric analysis and sorting applications have also been developed for use with subcellular organelles, including nuclei, mitochondria, and chloroplasts, based either on intrinsic fluorescence (chloroplasts), in vivo GFP expression and targeting, or staining with particular fluorochromes."@en . . . "0-19-515234-4" . "Flow cytometry and cell sorting has been applied to a wide variety of different problems in plant biotechnology and genomics. Applications of flow cytometry and sorting have been particularly boosted by the development of methods for expression of intrinsically fluorescent markers within transgenic organisms, of which the Green Fluorescent Protein and its derivatives, are the most popular and important. Flow cytometric analysis and sorting applications have also been developed for use with subcellular organelles, including nuclei, mitochondria, and chloroplasts, based either on intrinsic fluorescence (chloroplasts), in vivo GFP expression and targeting, or staining with particular fluorochromes." . "Oxford" . "521816" . "Flow cytometry and cell sorting in plant biotechology" .