Overexpression of SlMBP22 in Tomato Affects Plant Growth and Enhances Tolerance to Drought Stress.

MADS-box transcription factors play crucial and diverse roles in plant growth and development, and the responses to biotic and abiotic stresses. However, the implementation of MADS-box transcription factors in regulating plant architecture and stress responses has not been fully explored in tomato. Here, we found that a novel MADS-box transcription factor, SlMBP22, participated in the control of agronomical traits, tolerance to abiotic stress, and regulation of auxin and gibberellin signalling. Transgenic plants overexpressing SlMBP22 (SlMBP22-OE) displayed pleiotropic phenotypes, including reduced plant height and leaf size, by affecting auxin and/or gibberellin signalling. SlMBP22 was induced by dehydration treatment, and SlMBP22-OE plants were more tolerant to drought stress than wild-type (WT). Furthermore, SlMBP22 overexpression plants accumulated more chlorophyll, starch and soluble sugar than WT, indicating that the darker green leaves might be attributed to increased chlorophyll levels in the transgenic plants. RNA-Seq results showed that the transcript levels of a series of genes related to chloroplast development, chlorophyll metabolism, starch and sucrose metabolism, hormone signalling, and stress responses were altered. Collectively, our data demonstrate that SlMBP22 plays an important role in both regulating tomato growth and resisting drought stress.