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Abstract Cytosine base editors (CBEs) are promising tools for precise genome editing in plants. It is important to investigate potential off-target effects of an efficient CBE at the genome and transcriptome levels in a major crop. Based on comparison of five cytidine deaminases and two different promoters for expressing sgRNAs, we tested a highly efficient A3A/Y130F-BE3 system for efficient C-to-T base editing in tomato (Solanum lycopersicum). We then conducted whole-genome sequencing (WGS) of four base-edited tomato plants, three GFP-expressing control plants, and two wild-type (WT) plants. The sequencing depths ranged from 25X to 49X with read mapping rates above 97%. No sgRNA-dependent off-target mutations were detected. Our data show an average of ∼1000 single nucleotide variations (SNVs) and ∼100 insertions and deletions (indels) per GFP control plant. Base-edited plants had on average elevated levels of SNVs (∼1250) and indels (∼300) per plant. On average, about 200 more C-to-T (G-to-A) mutations were found in a base-edited plant than a GFP control plant, suggesting some level of sgRNA-independent off-target effects, though the difference is not statistically significant. We also conducted RNA sequencing (RNA-seq) of the same four base-edited plants and three GFP control plants. An average of ∼200 RNA SNVs was discovered per plant for either base-edited or GFP control plants. Furthermore, no specific enrichment of C-to-U mutations can be found in the base-edited plants. Hence, we cannot find any evidence for bona fide off-target mutations by A3A/Y130F-BE3 at the transcriptome level.