Authors
Teper-Bamnolker, P., Steinberg, T., Shtein, C., Peer, R., Doron-Faigenboim, A., Belausov, E., Sherman, A., Eshel, D.
Abstract
Starch is the primary carbohydrate reserve in potato (Solanum tuberosum L.) tubers and a critical determinant of their industrial value. The rate of starch degradation during postharvest storage directly influences key traits such as endodormancy (ED) duration and cold-induced sweetening (CIS), which affect sprouting behavior. In this study, we used CRISPR/Cas9 genome editing to knockout StAMY23, a gene encoding -amylase involved in starch breakdown. stamy23 plants exhibited higher yield and extended tuber ED postharvest, without significantly altering CIS or starch granule content. To further reduce CIS, we knockout StAMY23 in VACUOLAR INVERTASE knockout (stvinv) backgrounds, generating stamy23/stvinv double-knockouts plants. These lines showed significantly reduced CIS, prolonged ED, and elevated starch content, along with altered starch granule content. Collectively, our findings demonstrate that simultaneous downregulation of StAMY23 and StVINV can additively enhance desirable postharvest traits, providing a promising strategy for improving potato storage quality through precision genome editing.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 11 Jun 2026.
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