Repeat turnover meets stable chromosomes: repetitive DNA sequences mark speciation and gene pool boundaries in sugar beet and wild beets

Schmidt N, Sielemann K, Breitenbach S, Fuchs J, Pucker B, Weisshaar B, Holtgräwe D, Heitkam T (2023)
The Plant Journal 118(1): 171-190.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Schmidt, Nicola; Sielemann, KatharinaUniBi ; Breitenbach, Sarah; Fuchs, Jörg; Pucker, Boas; Weisshaar, BerndUniBi ; Holtgräwe, DanielaUniBi ; Heitkam, Tony
Abstract / Bemerkung
Sugar beet and its wild relatives share a base chromosome number of nine and similar chromosome morphologies. Yet, interspecific breeding is impeded by chromosome and sequence divergence that is still not fully understood. Since repetitive DNAs are among the fastest evolving parts of the genome, we investigated, if repeatome innovations and losses are linked to chromosomal differentiation and speciation. We traced genome and chromosome-wide evolution across 13 beet species comprising all sections of the genera Beta and Patellifolia. For this, we combined short and long read sequencing, flow cytometry, and cytogenetics to build a comprehensive framework that spans the complete scale from DNA to chromosome to genome. Genome sizes and repeat profiles reflect the separation into three gene pools with contrasting evolutionary patterns. Among all repeats, satellite DNAs harbor most genomic variability, leading to fundamentally different centromere architectures, ranging from chromosomal uniformity in Beta and Patellifolia to the formation of patchwork chromosomes in Corollinae/Nanae. We show that repetitive DNAs are causal for the genome expansions and contractions across the beet genera, providing insights into the genomic underpinnings of beet speciation. Satellite DNAs in particular vary considerably between beet genomes, leading to the evolution of distinct chromosomal setups in the three gene pools, likely contributing to the barriers in beet breeding. Thus, with their isokaryotypic chromosome sets, beet genomes present an ideal system for studying the link between repeats, genomic variability, and chromosomal differentiation and provide a theoretical fundament for understanding barriers in any crop breeding effort.
Erscheinungsjahr
2023
Zeitschriftentitel
The Plant Journal
Band
118
Ausgabe
1
Seite(n)
171-190
Page URI
https://pub.uni-bielefeld.de/record/2985152

Zitieren

Schmidt N, Sielemann K, Breitenbach S, et al. Repeat turnover meets stable chromosomes: repetitive DNA sequences mark speciation and gene pool boundaries in sugar beet and wild beets. The Plant Journal. 2023;118(1):171-190.
Schmidt, N., Sielemann, K., Breitenbach, S., Fuchs, J., Pucker, B., Weisshaar, B., Holtgräwe, D., et al. (2023). Repeat turnover meets stable chromosomes: repetitive DNA sequences mark speciation and gene pool boundaries in sugar beet and wild beets. The Plant Journal, 118(1), 171-190. https://doi.org/10.1111/tpj.16599
Schmidt, Nicola, Sielemann, Katharina, Breitenbach, Sarah, Fuchs, Jörg, Pucker, Boas, Weisshaar, Bernd, Holtgräwe, Daniela, and Heitkam, Tony. 2023. “Repeat turnover meets stable chromosomes: repetitive DNA sequences mark speciation and gene pool boundaries in sugar beet and wild beets”. The Plant Journal 118 (1): 171-190.
Schmidt, N., Sielemann, K., Breitenbach, S., Fuchs, J., Pucker, B., Weisshaar, B., Holtgräwe, D., and Heitkam, T. (2023). Repeat turnover meets stable chromosomes: repetitive DNA sequences mark speciation and gene pool boundaries in sugar beet and wild beets. The Plant Journal 118, 171-190.
Schmidt, N., et al., 2023. Repeat turnover meets stable chromosomes: repetitive DNA sequences mark speciation and gene pool boundaries in sugar beet and wild beets. The Plant Journal, 118(1), p 171-190.
N. Schmidt, et al., “Repeat turnover meets stable chromosomes: repetitive DNA sequences mark speciation and gene pool boundaries in sugar beet and wild beets”, The Plant Journal, vol. 118, 2023, pp. 171-190.
Schmidt, N., Sielemann, K., Breitenbach, S., Fuchs, J., Pucker, B., Weisshaar, B., Holtgräwe, D., Heitkam, T.: Repeat turnover meets stable chromosomes: repetitive DNA sequences mark speciation and gene pool boundaries in sugar beet and wild beets. The Plant Journal. 118, 171-190 (2023).
Schmidt, Nicola, Sielemann, Katharina, Breitenbach, Sarah, Fuchs, Jörg, Pucker, Boas, Weisshaar, Bernd, Holtgräwe, Daniela, and Heitkam, Tony. “Repeat turnover meets stable chromosomes: repetitive DNA sequences mark speciation and gene pool boundaries in sugar beet and wild beets”. The Plant Journal 118.1 (2023): 171-190.

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PMID: 38128038
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Preprint: 10.1101/2023.09.01.555723

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