Frontiers in Plant Science (May 2017)

New Genetic Insights into Pearl Millet Diversity As Revealed by Characterization of Early- and Late-Flowering Landraces from Senegal

  • Oumar Diack,
  • Oumar Diack,
  • Ndjido A. Kane,
  • Ndjido A. Kane,
  • Cecile Berthouly-Salazar,
  • Cecile Berthouly-Salazar,
  • Mame C. Gueye,
  • Baye M. Diop,
  • Amadou Fofana,
  • Ousmane Sy,
  • Hamidou Tall,
  • Leila Zekraoui,
  • Leila Zekraoui,
  • Marie Piquet,
  • Marie Piquet,
  • Marie Couderc,
  • Marie Couderc,
  • Yves Vigouroux,
  • Yves Vigouroux,
  • Diaga Diouf,
  • Diaga Diouf,
  • Adeline Barnaud,
  • Adeline Barnaud

DOI
https://doi.org/10.3389/fpls.2017.00818
Journal volume & issue
Vol. 8

Abstract

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Pearl millet (Pennisetum glaucum (L.) R. Br.) is a staple food and a drought-tolerant cereal well adapted to Sub-Saharan Africa agro-ecosystems. An important diversity of pearl millet landraces has been widely conserved by farmers and therefore could help copping with climate changes and contribute to future food security. Hence, characterizing its genetic diversity and population structure can contribute to better assist breeding programs for a sustainable agricultural productivity enhancement. Toward this goal, a comprehensive panel of 404 accessions were used that correspond to 12 improved varieties, 306 early flowering and 86 late-flowering cultivated landraces from Senegal. Twelve highly polymorphic SSR markers were used to study diversity and population structure. Two genes, PgMADS11 and PgPHYC, were genotyped to assess their association to flowering phenotypic difference in landraces. Results indicate a large diversity and untapped potential of Senegalese pearl millet germplasm as well as a genetic differentiation between early- and late-flowering landraces. Further, a fine-scale genetic difference of PgPHYC and PgMADS11 (SNP and indel, respectively) and co-variation of their alleles with flowering time were found among landraces. These findings highlight new genetic insights of pearl millet useful to define heterotic populations for breeding, genomic association panel, or crosses for trait-specific mapping.

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