A chromosome-anchored eggplant genome sequence reveals key events in Solanaceae evolution

Lorenzo Barchi; Marco Pietrella; Luca Venturini; Andrea Minio; Laura Toppino; Alberto Acquadro; Giuseppe Andolfo; Giuseppe Aprea; Carla Avanzato; Laura Bassolino; Cinzia Comino; Alessandra Dal Molin; Alberto Ferrarini; Louise Chappell Maor; Ezio Portis; Sebastian Reyes-Chin-Wo; Riccardo Rinaldi; Tea Sala; Davide Scaglione; Prashant Sonawane; Paola Tononi; Efrat Almekias-Siegl; Elisa Zago; Maria Raffaella Ercolano; Asaph Aharoni; Massimo Delledonne; Giovanni Giuliano; Sergio Lanteri; Giuseppe Leonardo Rotino

doi:10.1038/s41598-019-47985-w

A chromosome-anchored eggplant genome sequence reveals key events in Solanaceae evolution

Lorenzo Barchi, Marco Pietrella, Luca Venturini, Andrea Minio, Laura Toppino, Alberto Acquadro, Giuseppe Andolfo, Giuseppe Aprea, Carla Avanzato, Laura Bassolino, Cinzia Comino, Alessandra Dal Molin, Alberto Ferrarini, Louise Chappell Maor, Ezio Portis, Sebastian Reyes-Chin-Wo, Riccardo Rinaldi, Tea Sala, Davide Scaglione, Prashant SonawanePaola Tononi, Efrat Almekias-Siegl, Elisa Zago, Maria Raffaella Ercolano, Asaph Aharoni, Massimo Delledonne, Giovanni Giuliano, Sergio Lanteri, Giuseppe Leonardo Rotino

Department of Plant and Environmental Sciences

Weizmann Institute of Science

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

Abstract

With approximately 450 species, spiny Solanum species constitute the largest monophyletic group in the Solanaceae family, but a high-quality genome assembly from this group is presently missing. We obtained a chromosome-anchored genome assembly of eggplant (Solanum melongena), containing 34,916 genes, confirming that the diploid gene number in the Solanaceae is around 35,000. Comparative genomic studies with tomato (S. lycopersicum), potato (S. tuberosum) and pepper (Capsicum annuum) highlighted the rapid evolution of miRNA:mRNA regulatory pairs and R-type defense genes in the Solanaceae, and provided a genomic basis for the lack of steroidal glycoalkaloid compounds in the Capsicum genus. Using parsimony methods, we reconstructed the putative chromosomal complements of the key founders of the main Solanaceae clades and the rearrangements that led to the karyotypes of extant species and their ancestors. From 10% to 15% of the genes present in the four genomes were syntenic paralogs (ohnologs) generated by the pre-γ, γ and T paleopolyploidy events, and were enriched in transcription factors. Our data suggest that the basic gene network controlling fruit ripening is conserved in different Solanaceae clades, and that climacteric fruit ripening involves a differential regulation of relatively few components of this network, including CNR and ethylene biosynthetic genes.

Original language	English
Article number	11769
Number of pages	13
Journal	Scientific Reports
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41598-019-47985-w
State	Published - 13 Aug 2019

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Barchi, L., Pietrella, M., Venturini, L., Minio, A., Toppino, L., Acquadro, A., Andolfo, G., Aprea, G., Avanzato, C., Bassolino, L., Comino, C., Dal Molin, A., Ferrarini, A., Maor, L. C., Portis, E., Reyes-Chin-Wo, S., Rinaldi, R., Sala, T., Scaglione, D., ... Rotino, G. L. (2019). A chromosome-anchored eggplant genome sequence reveals key events in Solanaceae evolution. Scientific Reports, 9(1), Article 11769. https://doi.org/10.1038/s41598-019-47985-w

@article{216febc0195f494c9009c44cbdbb5210,

title = "A chromosome-anchored eggplant genome sequence reveals key events in Solanaceae evolution",

abstract = "With approximately 450 species, spiny Solanum species constitute the largest monophyletic group in the Solanaceae family, but a high-quality genome assembly from this group is presently missing. We obtained a chromosome-anchored genome assembly of eggplant (Solanum melongena), containing 34,916 genes, confirming that the diploid gene number in the Solanaceae is around 35,000. Comparative genomic studies with tomato (S. lycopersicum), potato (S. tuberosum) and pepper (Capsicum annuum) highlighted the rapid evolution of miRNA:mRNA regulatory pairs and R-type defense genes in the Solanaceae, and provided a genomic basis for the lack of steroidal glycoalkaloid compounds in the Capsicum genus. Using parsimony methods, we reconstructed the putative chromosomal complements of the key founders of the main Solanaceae clades and the rearrangements that led to the karyotypes of extant species and their ancestors. From 10\% to 15\% of the genes present in the four genomes were syntenic paralogs (ohnologs) generated by the pre-γ, γ and T paleopolyploidy events, and were enriched in transcription factors. Our data suggest that the basic gene network controlling fruit ripening is conserved in different Solanaceae clades, and that climacteric fruit ripening involves a differential regulation of relatively few components of this network, including CNR and ethylene biosynthetic genes.",

author = "Lorenzo Barchi and Marco Pietrella and Luca Venturini and Andrea Minio and Laura Toppino and Alberto Acquadro and Giuseppe Andolfo and Giuseppe Aprea and Carla Avanzato and Laura Bassolino and Cinzia Comino and \{Dal Molin\}, Alessandra and Alberto Ferrarini and Maor, \{Louise Chappell\} and Ezio Portis and Sebastian Reyes-Chin-Wo and Riccardo Rinaldi and Tea Sala and Davide Scaglione and Prashant Sonawane and Paola Tononi and Efrat Almekias-Siegl and Elisa Zago and Ercolano, \{Maria Raffaella\} and Asaph Aharoni and Massimo Delledonne and Giovanni Giuliano and Sergio Lanteri and Rotino, \{Giuseppe Leonardo\}",

note = "This work was supported by the Italian and Israeli Ministries of Agriculture (NUTRISOL project to G.G., G.L.R. and A.Ah.), the European Community (G2P-SOL project to G.G., S.L., E.P., Lo.B., L.T. and G.L.R.), the Israel Science Foundation (ISF) personal grant to A.Ah. (ISF Grant No. 646/11) and a grant by the seed companies Vilmorin \& Cie, Enza Zaden, Rijk Zwaan Research and Development. We thank the Adelis Foundation and Tom and Sondra Rykoff Family Foundation Research for supporting the A.Ah. lab activity. A.Ah. is the incumbent of the Peter J. Cohn Professorial Chair. We would like to thank Stephane Plaisance (VIB) and the BioNano Genomics staff for generating the optical map on the Irys System. Part of the computing resources used for this work have been kindly provided by CRESCO/ENEAGRID High Performance Computing infrastructure and its staff. A.Ah., G.G., G.L.R., M.D., M.R.E. and S.L. designed experiments or supervised data generation/analysis; A.Ac., A.D.M., A.F., A.M., C.A., C.C., D.S., E.A.S., E.P., E.Z., G.An., G.Ap., La.B., Lo.B., L.C.M., L.V., L.T., M.P., M.R.E., P.S., P.T., R.R., S.R.C.W. and T.S., generated/analyzed data; G.G., Lo.B., M.P., A.M., A.F. and S.L. wrote the manuscript.",

year = "2019",

month = aug,

day = "13",

doi = "10.1038/s41598-019-47985-w",

language = "الإنجليزيّة",

volume = "9",

journal = "Scientific Reports",

issn = "2045-2322",

publisher = "Nature Publishing Group",

number = "1",

}

Barchi, L, Pietrella, M, Venturini, L, Minio, A, Toppino, L, Acquadro, A, Andolfo, G, Aprea, G, Avanzato, C, Bassolino, L, Comino, C, Dal Molin, A, Ferrarini, A, Maor, LC, Portis, E, Reyes-Chin-Wo, S, Rinaldi, R, Sala, T, Scaglione, D, Sonawane, P, Tononi, P, Almekias-Siegl, E, Zago, E, Ercolano, MR, Aharoni, A, Delledonne, M, Giuliano, G, Lanteri, S & Rotino, GL 2019, 'A chromosome-anchored eggplant genome sequence reveals key events in Solanaceae evolution', Scientific Reports, vol. 9, no. 1, 11769. https://doi.org/10.1038/s41598-019-47985-w

TY - JOUR

T1 - A chromosome-anchored eggplant genome sequence reveals key events in Solanaceae evolution

AU - Barchi, Lorenzo

AU - Pietrella, Marco

AU - Venturini, Luca

AU - Minio, Andrea

AU - Toppino, Laura

AU - Acquadro, Alberto

AU - Andolfo, Giuseppe

AU - Aprea, Giuseppe

AU - Avanzato, Carla

AU - Bassolino, Laura

AU - Comino, Cinzia

AU - Dal Molin, Alessandra

AU - Ferrarini, Alberto

AU - Maor, Louise Chappell

AU - Portis, Ezio

AU - Reyes-Chin-Wo, Sebastian

AU - Rinaldi, Riccardo

AU - Sala, Tea

AU - Scaglione, Davide

AU - Sonawane, Prashant

AU - Tononi, Paola

AU - Almekias-Siegl, Efrat

AU - Zago, Elisa

AU - Ercolano, Maria Raffaella

AU - Aharoni, Asaph

AU - Delledonne, Massimo

AU - Giuliano, Giovanni

AU - Lanteri, Sergio

AU - Rotino, Giuseppe Leonardo

N1 - This work was supported by the Italian and Israeli Ministries of Agriculture (NUTRISOL project to G.G., G.L.R. and A.Ah.), the European Community (G2P-SOL project to G.G., S.L., E.P., Lo.B., L.T. and G.L.R.), the Israel Science Foundation (ISF) personal grant to A.Ah. (ISF Grant No. 646/11) and a grant by the seed companies Vilmorin & Cie, Enza Zaden, Rijk Zwaan Research and Development. We thank the Adelis Foundation and Tom and Sondra Rykoff Family Foundation Research for supporting the A.Ah. lab activity. A.Ah. is the incumbent of the Peter J. Cohn Professorial Chair. We would like to thank Stephane Plaisance (VIB) and the BioNano Genomics staff for generating the optical map on the Irys System. Part of the computing resources used for this work have been kindly provided by CRESCO/ENEAGRID High Performance Computing infrastructure and its staff. A.Ah., G.G., G.L.R., M.D., M.R.E. and S.L. designed experiments or supervised data generation/analysis; A.Ac., A.D.M., A.F., A.M., C.A., C.C., D.S., E.A.S., E.P., E.Z., G.An., G.Ap., La.B., Lo.B., L.C.M., L.V., L.T., M.P., M.R.E., P.S., P.T., R.R., S.R.C.W. and T.S., generated/analyzed data; G.G., Lo.B., M.P., A.M., A.F. and S.L. wrote the manuscript.

PY - 2019/8/13

Y1 - 2019/8/13

N2 - With approximately 450 species, spiny Solanum species constitute the largest monophyletic group in the Solanaceae family, but a high-quality genome assembly from this group is presently missing. We obtained a chromosome-anchored genome assembly of eggplant (Solanum melongena), containing 34,916 genes, confirming that the diploid gene number in the Solanaceae is around 35,000. Comparative genomic studies with tomato (S. lycopersicum), potato (S. tuberosum) and pepper (Capsicum annuum) highlighted the rapid evolution of miRNA:mRNA regulatory pairs and R-type defense genes in the Solanaceae, and provided a genomic basis for the lack of steroidal glycoalkaloid compounds in the Capsicum genus. Using parsimony methods, we reconstructed the putative chromosomal complements of the key founders of the main Solanaceae clades and the rearrangements that led to the karyotypes of extant species and their ancestors. From 10% to 15% of the genes present in the four genomes were syntenic paralogs (ohnologs) generated by the pre-γ, γ and T paleopolyploidy events, and were enriched in transcription factors. Our data suggest that the basic gene network controlling fruit ripening is conserved in different Solanaceae clades, and that climacteric fruit ripening involves a differential regulation of relatively few components of this network, including CNR and ethylene biosynthetic genes.

AB - With approximately 450 species, spiny Solanum species constitute the largest monophyletic group in the Solanaceae family, but a high-quality genome assembly from this group is presently missing. We obtained a chromosome-anchored genome assembly of eggplant (Solanum melongena), containing 34,916 genes, confirming that the diploid gene number in the Solanaceae is around 35,000. Comparative genomic studies with tomato (S. lycopersicum), potato (S. tuberosum) and pepper (Capsicum annuum) highlighted the rapid evolution of miRNA:mRNA regulatory pairs and R-type defense genes in the Solanaceae, and provided a genomic basis for the lack of steroidal glycoalkaloid compounds in the Capsicum genus. Using parsimony methods, we reconstructed the putative chromosomal complements of the key founders of the main Solanaceae clades and the rearrangements that led to the karyotypes of extant species and their ancestors. From 10% to 15% of the genes present in the four genomes were syntenic paralogs (ohnologs) generated by the pre-γ, γ and T paleopolyploidy events, and were enriched in transcription factors. Our data suggest that the basic gene network controlling fruit ripening is conserved in different Solanaceae clades, and that climacteric fruit ripening involves a differential regulation of relatively few components of this network, including CNR and ethylene biosynthetic genes.

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U2 - 10.1038/s41598-019-47985-w

DO - 10.1038/s41598-019-47985-w

M3 - مقالة

C2 - 31409808

SN - 2045-2322

VL - 9

JO - Scientific Reports

JF - Scientific Reports

IS - 1

M1 - 11769

ER -

A chromosome-anchored eggplant genome sequence reveals key events in Solanaceae evolution

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