Humboldt-Universität zu Berlin
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AG Pflanzenphysiologie
YCF54Unpublished results provided by J. Herbst A: Phenotype of Arabidopsis thaliana transgenic line with overproduction or inactivated synthesis of YCF54. B: Overproduction and lack of YCF54 compromised the CHL27 content. C: Modified steadystate levels of MgProtoME and PChlide in YCFOE or COS line in comparison to wild type control.https://www.biologie.hu-berlin.de/de/gruppenseiten/plantphys/research/tetrapyrrole-metabolism/control-of-chlorophyll-synthesis/function-of-gun4-in-posttranslational-regulation-of-the-mg-chelatase-reaction-and-ala-synthesis-to-sustain-chlorophyll-synthesis-namely-under-varying-environmental-conditions/ycf54.jpg/viewhttps://www.biologie.hu-berlin.de/de/gruppenseiten/plantphys/research/tetrapyrrole-metabolism/control-of-chlorophyll-synthesis/function-of-gun4-in-posttranslational-regulation-of-the-mg-chelatase-reaction-and-ala-synthesis-to-sustain-chlorophyll-synthesis-namely-under-varying-environmental-conditions/ycf54.jpg/@@images/image-1200-22e560a07f3561a5f3c070e6e7ec6d7e.jpeg
Unpublished results provided by J. Herbst A: Phenotype of Arabidopsis thaliana transgenic line with overproduction or inactivated synthesis of YCF54. B: Overproduction and lack of YCF54 compromised the CHL27 content. C: Modified steadystate levels of MgProtoME and PChlide in YCFOE or COS line in comparison to wild type control.
Abb.:Unpublished results provided by Josephine Herbst
