Meiotic recombination profiling of interspecific hybrid F1 tomato pollen by linked read sequencing

Roven Rommel Fuentes; T. Hesselink; Ronald Nieuwenhuis; L.V. Bakker; E.G.W.M. Schijlen; W. van Dooijeweert; S. Diaz Trivino; Jorn R. de Haan; G.F. Sanchez Perez; Xinyue Zhang; Paul Fransz; J.H.S.G.M. de Jong; A.D.J. van Dijk; D. de Ridder; S.A. Peters

doi:10.1111/tpj.14640

Meiotic recombination profiling of interspecific hybrid F1 tomato pollen by linked read sequencing

Roven Rommel Fuentes, T. Hesselink, Ronald Nieuwenhuis, L.V. Bakker, E.G.W.M. Schijlen, W. van Dooijeweert, S. Diaz Trivino, Jorn R. de Haan, G.F. Sanchez Perez, Xinyue Zhang, Paul Fransz, J.H.S.G.M. de Jong, A.D.J. van Dijk, D. de Ridder, S.A. Peters^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

15 Citations (Scopus)

Abstract

Genome wide screening of pooled pollen samples from a single interspecific F1 hybrid obtained from a cross between tomato, Solanum lycopersicum and its wild relative, Solanum pimpinellifolium using linked read sequencing of the haploid nuclei, allowed profiling of the crossover (CO) and gene conversion (GC) landscape. We observed a striking overlap between cold regions of CO in the male gametes and our previously established F6 recombinant inbred lines (RILs) population. COs were overrepresented in non‐coding regions in the gene promoter and 5′UTR regions of genes. Poly‐A/T and AT rich motifs were found enriched in 1 kb promoter regions flanking the CO sites. Non‐crossover associated allelic and ectopic GCs were detected in most chromosomes, confirming that besides CO, GC represents also a source for genetic diversity and genome plasticity in tomato. Furthermore, we identified processed break junctions pointing at the involvement of both homology directed and non‐homology directed repair pathways, suggesting a recombination machinery in tomato that is more complex than currently anticipated.

Original language	English
Pages (from-to)	480-492
Journal	The Plant Journal
Volume	102
Issue number	3
Early online date	9 Dec 2019
DOIs	https://doi.org/10.1111/tpj.14640
Publication status	Published - May 2020

Keywords

crossover recombination
gene conversion
recombination bin mapping
recombination cold spots
recombination hot spots
S. pimpinellifolium
tomato

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10.1111/tpj.14640

https://edepot.wur.nl/513402Licence: Taverne

MEICOM: Meiotic Control of Recombination in Crops
1/01/18 → 30/06/22
Project: EU research project
Veiligstellen van genetische diversiteit in gewassen en hun wilde varianten in ex situ collecties (WOT-03-002-064)
Kik, C. (Project Leader)
1/01/15 → 31/12/21
Project: LVVN project

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Rommel Fuentes, R., Hesselink, T., Nieuwenhuis, R., Bakker, L. V., Schijlen, E. G. W. M., van Dooijeweert, W., Diaz Trivino, S., de Haan, J. R., Sanchez Perez, G. F., Zhang, X., Fransz, P., de Jong, J. H. S. G. M., van Dijk, A. D. J., de Ridder, D., & Peters, S. A. (2020). Meiotic recombination profiling of interspecific hybrid F1 tomato pollen by linked read sequencing. The Plant Journal, 102(3), 480-492. https://doi.org/10.1111/tpj.14640

@article{838eba2926aa4af88e6097efeaf662bc,

title = "Meiotic recombination profiling of interspecific hybrid F1 tomato pollen by linked read sequencing",

abstract = "Genome wide screening of pooled pollen samples from a single interspecific F1 hybrid obtained from a cross between tomato, Solanum lycopersicum and its wild relative, Solanum pimpinellifolium using linked read sequencing of the haploid nuclei, allowed profiling of the crossover (CO) and gene conversion (GC) landscape. We observed a striking overlap between cold regions of CO in the male gametes and our previously established F6 recombinant inbred lines (RILs) population. COs were overrepresented in non‐coding regions in the gene promoter and 5′UTR regions of genes. Poly‐A/T and AT rich motifs were found enriched in 1 kb promoter regions flanking the CO sites. Non‐crossover associated allelic and ectopic GCs were detected in most chromosomes, confirming that besides CO, GC represents also a source for genetic diversity and genome plasticity in tomato. Furthermore, we identified processed break junctions pointing at the involvement of both homology directed and non‐homology directed repair pathways, suggesting a recombination machinery in tomato that is more complex than currently anticipated.",

keywords = "crossover recombination, gene conversion, recombination bin mapping, recombination cold spots, recombination hot spots, S. pimpinellifolium, tomato",

author = "{Rommel Fuentes}, Roven and T. Hesselink and Ronald Nieuwenhuis and L.V. Bakker and E.G.W.M. Schijlen and {van Dooijeweert}, W. and {Diaz Trivino}, S. and {de Haan}, {Jorn R.} and {Sanchez Perez}, G.F. and Xinyue Zhang and Paul Fransz and {de Jong}, J.H.S.G.M. and {van Dijk}, A.D.J. and {de Ridder}, D. and S.A. Peters",

year = "2020",

month = may,

doi = "10.1111/tpj.14640",

language = "English",

volume = "102",

pages = "480--492",

journal = "The Plant Journal",

issn = "0960-7412",

publisher = "Wiley",

number = "3",

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Rommel Fuentes, R, Hesselink, T , Nieuwenhuis, R, Bakker, LV, Schijlen, EGWM , van Dooijeweert, W, Diaz Trivino, S, de Haan, JR, Sanchez Perez, GF, Zhang, X, Fransz, P, de Jong, JHSGM , van Dijk, ADJ , de Ridder, D & Peters, SA 2020, 'Meiotic recombination profiling of interspecific hybrid F1 tomato pollen by linked read sequencing', The Plant Journal, vol. 102, no. 3, pp. 480-492. https://doi.org/10.1111/tpj.14640

TY - JOUR

T1 - Meiotic recombination profiling of interspecific hybrid F1 tomato pollen by linked read sequencing

AU - Rommel Fuentes, Roven

AU - Hesselink, T.

AU - Nieuwenhuis, Ronald

AU - Bakker, L.V.

AU - Schijlen, E.G.W.M.

AU - van Dooijeweert, W.

AU - Diaz Trivino, S.

AU - de Haan, Jorn R.

AU - Sanchez Perez, G.F.

AU - Zhang, Xinyue

AU - Fransz, Paul

AU - de Jong, J.H.S.G.M.

AU - van Dijk, A.D.J.

AU - de Ridder, D.

AU - Peters, S.A.

PY - 2020/5

Y1 - 2020/5

N2 - Genome wide screening of pooled pollen samples from a single interspecific F1 hybrid obtained from a cross between tomato, Solanum lycopersicum and its wild relative, Solanum pimpinellifolium using linked read sequencing of the haploid nuclei, allowed profiling of the crossover (CO) and gene conversion (GC) landscape. We observed a striking overlap between cold regions of CO in the male gametes and our previously established F6 recombinant inbred lines (RILs) population. COs were overrepresented in non‐coding regions in the gene promoter and 5′UTR regions of genes. Poly‐A/T and AT rich motifs were found enriched in 1 kb promoter regions flanking the CO sites. Non‐crossover associated allelic and ectopic GCs were detected in most chromosomes, confirming that besides CO, GC represents also a source for genetic diversity and genome plasticity in tomato. Furthermore, we identified processed break junctions pointing at the involvement of both homology directed and non‐homology directed repair pathways, suggesting a recombination machinery in tomato that is more complex than currently anticipated.

AB - Genome wide screening of pooled pollen samples from a single interspecific F1 hybrid obtained from a cross between tomato, Solanum lycopersicum and its wild relative, Solanum pimpinellifolium using linked read sequencing of the haploid nuclei, allowed profiling of the crossover (CO) and gene conversion (GC) landscape. We observed a striking overlap between cold regions of CO in the male gametes and our previously established F6 recombinant inbred lines (RILs) population. COs were overrepresented in non‐coding regions in the gene promoter and 5′UTR regions of genes. Poly‐A/T and AT rich motifs were found enriched in 1 kb promoter regions flanking the CO sites. Non‐crossover associated allelic and ectopic GCs were detected in most chromosomes, confirming that besides CO, GC represents also a source for genetic diversity and genome plasticity in tomato. Furthermore, we identified processed break junctions pointing at the involvement of both homology directed and non‐homology directed repair pathways, suggesting a recombination machinery in tomato that is more complex than currently anticipated.

KW - crossover recombination

KW - gene conversion

KW - recombination bin mapping

KW - recombination cold spots

KW - recombination hot spots

KW - S. pimpinellifolium

KW - tomato

U2 - 10.1111/tpj.14640

DO - 10.1111/tpj.14640

M3 - Article

SN - 0960-7412

VL - 102

SP - 480

EP - 492

JO - The Plant Journal

JF - The Plant Journal

IS - 3

ER -

Meiotic recombination profiling of interspecific hybrid F1 tomato pollen by linked read sequencing

Abstract

Keywords

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Projects

MEICOM: Meiotic Control of Recombination in Crops

Veiligstellen van genetische diversiteit in gewassen en hun wilde varianten in ex situ collecties (WOT-03-002-064)

Cite this