BcAP3, a MADS box gene, controls stamen development and male sterility in Pak-choi (Brassica rapa ssp. chinensis).

Abstract

Stamen development is an important developmental process controlled by multiple internal and external factors. Developmental abnormalities of stamens can disrupt the structure and function of anthers, and then result in male sterility. As well known, APETELA 3 (AP3) has a clear function in regulating stamen development, which may impact in male sterility. However, the mechanisms of stamen development and male sterility controlled by AP3 are still not very clear, particular in Pak-choi (Brassica rapa ssp. chinensis). In this work, BcAP3 encoded a protein containing a MADS-box domain, which was a homolog of AtAP3, was identified in Pak-choi. Sequence alignments and phylogenetic analysis indicated that BcAP3 was highly similar to AtAP3. BcAP3 was shown to be localized to the nucleus and exhibited the potential of transcription factor. The transcript of BcAP3 was only expressed in flowers of Pak-choi, indicating that it may act in flower development. Overexpression of BcAP3 in Arabidopsis resulted in developmental abnormalities of anther wall and low vigor pollen, which were associated with the phenotype of male sterility. Expression levels of NST1 and NST2, involved in secondary wall thickening in anther walls, were significantly higher in the BcAP3-transgenic plants than in control plants, suggesting that BcAP3 may affect anther wall development by regulating NST1 and NST2. Taken together, our study demonstrated that BcAP3 could play an essential role in stamen development and male sterility.