How fruit developmental biology makes use of flow cytometry approaches

Cytometry Part A

Volumn 85, Issue 2, 2014, Pages 115-125

  Pirrello, Julien ^a   Bourdon, Matthieu ^a,b   Cheniclet, Catherine ^a,c   Bourge, Mickaël ^d   Brown, Spencer C ^d   Renaudin, Jean Pierre ^b   Frangne, Nathalie ^b   Chevalier, Christian ^a  

^a Univ Bordeaux   (France)

^b UNIVERSITÉ DE BORDEAUX   (France)

^c University of Bordeaux   (France)

^d CNRS   (France)

Author keywords

Endopolyploidy; Endoreduplication; Fruit development; Karyoplasmic homeostasis; Tomato; Transcription

Indexed keywords

VEGETABLE PROTEIN;

ARTICLE; CELL DIVISION; CELL NUCLEUS; CELL SIZE; CHROMATIN; CYTOLOGY; CYTOPLASM; DEVELOPMENTAL BIOLOGY; ENDOREDUPLICATION; FLOW CYTOMETRY; FRUIT; FRUIT DEVELOPMENT; GENE EXPRESSION REGULATION; GENETICS; KARYOPLASMIC HOMEOSTASIS; METABOLISM; POLYPLOIDY; TOMATO; TRANSCRIPTION; ULTRASTRUCTURE;

ENDOPOLYPLOIDY; ENDOREDUPLICATION; FRUIT DEVELOPMENT; KARYOPLASMIC HOMEOSTASIS; TOMATO; TRANSCRIPTION;

CELL DIVISION; CELL NUCLEUS; CELL SIZE; CHROMATIN; CYTOPLASM; DEVELOPMENTAL BIOLOGY; ENDOREDUPLICATION; FLOW CYTOMETRY; FRUIT; GENE EXPRESSION REGULATION, DEVELOPMENTAL; GENE EXPRESSION REGULATION, PLANT; LYCOPERSICON ESCULENTUM; PLANT PROTEINS; POLYPLOIDY;

EID: 84892670873     PISSN: 15524922     EISSN: 15524930     Source Type: Journal    
DOI: 10.1002/cyto.a.22417     Document Type: Article

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