Two redundant paralogs of MAR1-BINDING FILAMENT PROTEIN affect B-type granule initiation in wheat

Starch synthesis in wheat endosperm involves the initiation of large A-type starch granules during early grain development, followed by small B-type granules in later grain development. It is established that MAR-BINDING FILAMENT-LIKE PROTEIN 1 (MFP1) plays an important role in granule initiation in Arabidopsis chloroplasts, but how it influences A- and B-type initiations in wheat amyloplasts is not known. We discovered that due to a gene duplication in cereals, wheat contains two MFP1 paralogs, MFP1.1 and MFP1.2, which are both expressed in the developing endosperm. We generated a series of durum wheat mutants defective in all homoeologs of either MFP1.1 or MFP1.2, or both. While starch granule size distributions and granule morphology of mfp1.1 and mfp1.2 mutants were identical to those of the wild-type, the mfp1.1 mfp1.2 mutants had fewer, but larger B-type granules - suggesting that the two paralogs play redundant roles in B-type granule initiation. Consistent with this, both paralogs interacted with B-GRANULE CONTENT 1 (BGC1), a key protein required for proper B-type granule initiation in wheat, and both paralogs could partially complement defects in starch initiation in the Arabidopsis mfp1 mutant. Our work demonstrates that MFP1 is required for establishing correct starch granule number in non-photosynthetic amyloplasts, but its role in wheat is limited to B-type granule initiation. One-sentence summaryWheat has two MFP1 paralogs that interact with the granule initiation protein, BGC1 and influence B-type granule initiation in non-photosynthetic amyloplasts of endosperm.