Sucrose synthases are not involved in starch synthesis in Arabidopsis leaves

Many plants accumulate transitory starch reserves in their leaves during the day to buffer their carbohydrate supply against fluctuating light conditions, and to provide carbon and energy for survival at night. It is universally accepted that transitory starch is synthesized from ADP-glucose (ADPG) in the chloroplasts. However, the consensus that ADPG is made in the chloroplasts by ADPG pyrophosphorylase has been challenged by a controversial proposal that ADPG is made primarily in the cytosol, probably by sucrose synthase (SUS), and then imported into the chloroplasts. To resolve this long-standing controversy, we critically re-examined the experimental evidence that appears to conflict with the consensus pathway. We show that when precautions are taken to avoid artefactual changes during leaf sampling, Arabidopsis thaliana mutants that lack SUS activity in mesophyll cells (quadruple sus1234) or have no SUS activity (sextuple sus123456) have wild-type levels of ADPG and starch, while ADPG is 20 times lower in the pgm and adg1 mutants that are blocked in the consensus chloroplastic pathway of starch synthesis. We conclude that the ADPG needed for starch synthesis in leaves is synthesized primarily by ADPG pyrophosphorylase in the chloroplasts. Mutant analysis shows that sucrose synthase makes no substantial contribution to transitory starch synthesis in Arabidopsis leaves, resolving a 20-year-old controversy about one of the most important pathways of photosynthetic metabolism.

Automated summary

Through re-examination of experimental data, the study shows that starch synthesis in leaves primarily relies on ADPG pyrophosphorylase in chloroplasts, while sucrose synthase in the cytosol makes no substantial contribution to transitory starch synthesis in Arabidopsis leaves. This finding resolves a long-standing controversy in photosynthetic metabolism.