Nitrogen metabolism and remobilization during senescence

doi:10.1093/jexbot/53.370.927

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Journal of Experimental Botany, Vol. 53, No. 370, pp. 927-937, April 15, 2002
© 2002 Oxford University Press

Original Papers

Nitrogen metabolism and remobilization during senescence

Stefan Hörtensteiner and Urs Feller¹

Institute of Plant Sciences, University of Bern, Altenbergrain 21, CH-3013 Bern, Switzerland

Senescence is a highly organized and well-regulated process.As much as 75% of total cellular nitrogen may be located inmesophyll chloroplasts of C₃-plants. Proteolysis of chloroplastproteins begins in an early phase of senescence and the liberatedamino acids can be exported to growing parts of the plant (e.g.maturing fruits). Rubisco and other stromal enzymes can be degradedin isolated chloroplasts, implying the involvement of plastidialpeptide hydrolases. Whether or not ATP is required and if stromalproteins are modified (e.g. by reactive oxygen species) priorto their degradation are questions still under debate. Severalproteins, in particular cysteine proteases, have been demonstratedto be specifically expressed during senescence. Their contributionto the general degradation of chloroplast proteins is unclear.The accumulation in intact cells of peptide fragments and inhibitorstudies suggest that multiple degradation pathways may existfor stromal proteins and that vacuolar endopeptidases mightalso be involved under certain conditions. The breakdown ofchlorophyll-binding proteins associated with the thylakoid membraneis less well investigated. The degradation of these proteinsrequires the simultaneous catabolism of chlorophylls. The breakdownof chlorophylls has been elucidated during the last decade.Interestingly, nitrogen present in chlorophyll is not exportedfrom senescencing leaves, but remains within the cells in theform of linear tetrapyrrolic catabolites that accumulate inthe vacuole. The degradation pathways for chlorophylls and chloroplastproteins are partially interconnected.

Key words: Chlorophyll catabolism, chloroplast, compartmentation, membrane integrity, protein degradation, vacuole.

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