Genomic variation within the maize stiff-stalk heterotic germplasm pool

Nolan Bornowski¹, Kathryn J Michel², John P Hamilton¹, Shujun Ou³, Arun S Seetharam³, Jerry Jenkins⁴, Jane Grimwood⁴, Chris Plott⁴, Shengqiang Shu⁵, Jayson Talag⁶, Megan Kennedy⁵, Hope Hundley⁵, Vasanth R Singan⁵, Kerrie Barry⁵, Chris Daum⁵, Yuko Yoshinaga⁵, Jeremy Schmutz^{4

5}, Candice N Hirsch⁷, Matthew B Hufford³, Natalia de Leon^{2

8}, Shawn M Kaeppler^{2

8

9}, C Robin Buell^{1

10}

Affiliations

¹ Dep. of Plant Biology, Michigan State Univ., 612 Wilson Road, East Lansing, MI, 48824, USA.
² Dep. of Agronomy, Univ. of Wisconsin - Madison, 1575 Linden Drive, Madison, WI, 53706, USA.
³ Dep. of Ecology, Evolution, and Organismal Biology, Iowa State Univ., 2200 Osborn Drive, Ames, IA, 50011, USA.
⁴ HudsonAlpha Institute for Biotechnology, 601 Genome Way Northwest, Huntsville, AL, 35806, USA.
⁵ U.S. Dep. of Energy Joint Genome Institute, Lawrence Berkeley National Laboratory, 1 Cyclotron Road, Berkeley, CA, 94720, USA.
⁶ Arizona Genomics Institute, School of Plant Sciences, Univ. of Arizona, 1657 E Helen Street, Tucson, AZ, 85721, USA.
⁷ Dep. of Agronomy and Plant Genetics, Univ. of Minnesota, 1991 Upper Buford Circle, Saint Paul, MN, 55108, USA.
⁸ Dep. of Energy, Great Lakes Bioenergy Research Center, Univ. of Wisconsin - Madison, 1575 Linden Drive, Madison, WI, 53706, USA.
⁹ Wisconsin Crop Innovation Center, Univ. of Wisconsin - Madison, 8520 University Green, Middleton, WI, 53562, USA.
¹⁰ Dep. of Energy, Great Lakes Bioenergy Research Center, Michigan State Univ., 612 Wilson Road, East Lansing, MI, 48824, USA.

PMID: 34275202
DOI: 10.1002/tpg2.20114

Free article

Genomic variation within the maize stiff-stalk heterotic germplasm pool

Nolan Bornowski et al. Plant Genome. 2021 Nov.

Free article

. 2021 Nov;14(3):e20114.

doi: 10.1002/tpg2.20114. Epub 2021 Jul 18.

Authors

Affiliations

¹ Dep. of Plant Biology, Michigan State Univ., 612 Wilson Road, East Lansing, MI, 48824, USA.
² Dep. of Agronomy, Univ. of Wisconsin - Madison, 1575 Linden Drive, Madison, WI, 53706, USA.
³ Dep. of Ecology, Evolution, and Organismal Biology, Iowa State Univ., 2200 Osborn Drive, Ames, IA, 50011, USA.
⁴ HudsonAlpha Institute for Biotechnology, 601 Genome Way Northwest, Huntsville, AL, 35806, USA.
⁵ U.S. Dep. of Energy Joint Genome Institute, Lawrence Berkeley National Laboratory, 1 Cyclotron Road, Berkeley, CA, 94720, USA.
⁶ Arizona Genomics Institute, School of Plant Sciences, Univ. of Arizona, 1657 E Helen Street, Tucson, AZ, 85721, USA.
⁷ Dep. of Agronomy and Plant Genetics, Univ. of Minnesota, 1991 Upper Buford Circle, Saint Paul, MN, 55108, USA.
⁸ Dep. of Energy, Great Lakes Bioenergy Research Center, Univ. of Wisconsin - Madison, 1575 Linden Drive, Madison, WI, 53706, USA.
⁹ Wisconsin Crop Innovation Center, Univ. of Wisconsin - Madison, 8520 University Green, Middleton, WI, 53562, USA.
¹⁰ Dep. of Energy, Great Lakes Bioenergy Research Center, Michigan State Univ., 612 Wilson Road, East Lansing, MI, 48824, USA.

PMID: 34275202
DOI: 10.1002/tpg2.20114

Abstract

The stiff-stalk heterotic group in Maize (Zea mays L.) is an important source of inbreds used in U.S. commercial hybrid production. Founder inbreds B14, B37, B73, and, to a lesser extent, B84, are found in the pedigrees of a majority of commercial seed parent inbred lines. We created high-quality genome assemblies of B84 and four expired Plant Variety Protection (ex-PVP) lines LH145 representing B14, NKH8431 of mixed descent, PHB47 representing B37, and PHJ40, which is a Pioneer Hi-Bred International (PHI) early stiff-stalk type. Sequence was generated using long-read sequencing achieving highly contiguous assemblies of 2.13-2.18 Gbp with N50 scaffold lengths >200 Mbp. Inbred-specific gene annotations were generated using a core five-tissue gene expression atlas, whereas transposable element (TE) annotation was conducted using de novo and homology-directed methodologies. Compared with the reference inbred B73, synteny analyses revealed extensive collinearity across the five stiff-stalk genomes, although unique components of the maize pangenome were detected. Comparison of this set of stiff-stalk inbreds with the original Iowa Stiff Stalk Synthetic breeding population revealed that these inbreds represent only a proportion of variation in the original stiff-stalk pool and there are highly conserved haplotypes in released public and ex-Plant Variety Protection inbreds. Despite the reduction in variation from the original stiff-stalk population, substantial genetic and genomic variation was identified supporting the potential for continued breeding success in this pool. The assemblies described here represent stiff-stalk inbreds that have historical and commercial relevance and provide further insight into the emerging maize pangenome.

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REFERENCES

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Genomic variation within the maize stiff-stalk heterotic germplasm pool

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Genomic variation within the maize stiff-stalk heterotic germplasm pool

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REFERENCES

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MeSH terms

Associated data

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Full Text Sources

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Research Materials

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