Frontiers in Plant Science (Mar 2016)

Maternal haploids are preferentially induced by CENH3-tailswap transgenic complementation in maize

  • Timothy eKelliher,
  • Dakota eStarr,
  • Wenling eWang,
  • Jamie eMcCuiston,
  • Heng eZhong,
  • Michael L. Nuccio,
  • Barry eMartin

DOI
https://doi.org/10.3389/fpls.2016.00414
Journal volume & issue
Vol. 7

Abstract

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Doubled haploid plants are invaluable breeding tools but many crop species are recalcitrant to available haploid induction techniques. To test if haploid inducer lines can be engineered into crops, CENH3 -/- and CENH3:RNAi lines were complemented by AcGREEN-tailswap-CENH3 or AcGREEN-CENH3 transgenes. Haploid induction rates were determined following testcrosses to wild-type plants after independently controlling for inducer parent sex and transgene zygosity. CENH3 fusion proteins were localized to centromeres and did not cause vegetative defects or male sterility. CENH3:RNAi lines did not demonstrate consistent knockdown and rarely produced haploids. In contrast, many of the complemented CENH3 -/- lines produced haploids at low frequencies. The rate of gynogenic haploid induction reached a maximum of 3.6% in several hemizygous individuals when backcrossed as males. These results demonstrate that CENH3-tailswap transgenes can be used to engineer in vivo haploid induction systems into maize plants.

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