Chromosome-scale pearl millet genomes reveal CLAMT1b as key determinant of strigolactone pattern and Striga susceptibility

Hendrik N.J. Kuijer; Jian You Wang; Salim Bougouffa; Michael Abrouk; Muhammad Jamil; Roberto Incitti; Intikhab Alam; Aparna Balakrishna; Derry Alvarez; Cristina Votta; Guan Ting Erica Chen; Claudio Martínez; Andrea Zuccolo; Lamis Berqdar; Salim Sioud; Valentina Fiorilli; Angel R. de Lera; Luisa Lanfranco; Takashi Gojobori; Rod A. Wing; Simon G. Krattinger; Xin Gao; Salim Al-Babili

doi:10.1038/s41467-024-51189-w

Chromosome-scale pearl millet genomes reveal CLAMT1b as key determinant of strigolactone pattern and Striga susceptibility

Hendrik N.J. Kuijer
, Jian You Wang
, Salim Bougouffa
, Michael Abrouk
, Muhammad Jamil
, Roberto Incitti
, Intikhab Alam
, Aparna Balakrishna
, Derry Alvarez
, Cristina Votta
, Guan Ting Erica Chen
, Claudio Martínez
, Andrea Zuccolo
, Lamis Berqdar
, Salim Sioud
, Valentina Fiorilli
, Angel R. de Lera
, Luisa Lanfranco
, Takashi Gojobori
, Rod A. Wing

Simon G. Krattinger, Xin Gao, Salim Al-Babili

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

12 Scopus citations

Abstract

The yield of pearl millet, a resilient cereal crop crucial for African food security, is severely impacted by the root parasitic weed Striga hermonthica, which requires host-released hormones, called strigolactones (SLs), for seed germination. Herein, we identify four SLs present in the Striga-susceptible line SOSAT-C88-P10 (P10) but absent in the resistant 29Aw (Aw). We generate chromosome-scale genome assemblies, including four gapless chromosomes for each line. The Striga-resistant Aw lacks a 0.7 Mb genome segment containing two putative CARLACTONOIC ACID METHYLTRANSFERASE1 (CLAMT1) genes, which may contribute to SL biosynthesis. Functional assays show that P10CLAMT1b produces the SL-biosynthesis intermediate methyl carlactonoate (MeCLA) and that MeCLA is the precursor of P10-specific SLs. Screening a diverse pearl millet panel confirms the pivotal role of the CLAMT1 section for SL diversity and Striga susceptibility. Our results reveal a reason for Striga susceptibility in pearl millet and pave the way for generating resistant lines through marker-assisted breeding or direct genetic modification.

Original language	English (US)
Article number	6906
Journal	Nature communications
Volume	15
Issue number	1
DOIs	https://doi.org/10.1038/s41467-024-51189-w
State	Published - Dec 2024
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Kuijer, H. N. J., Wang, J. Y., Bougouffa, S., Abrouk, M., Jamil, M., Incitti, R., Alam, I., Balakrishna, A., Alvarez, D., Votta, C., Chen, G. T. E., Martínez, C., Zuccolo, A., Berqdar, L., Sioud, S., Fiorilli, V., de Lera, A. R., Lanfranco, L., Gojobori, T., ... Al-Babili, S. (2024). Chromosome-scale pearl millet genomes reveal CLAMT1b as key determinant of strigolactone pattern and Striga susceptibility. Nature communications, 15(1), Article 6906. https://doi.org/10.1038/s41467-024-51189-w

Kuijer, HNJ, Wang, JY, Bougouffa, S, Abrouk, M, Jamil, M, Incitti, R, Alam, I, Balakrishna, A, Alvarez, D, Votta, C, Chen, GTE, Martínez, C, Zuccolo, A, Berqdar, L, Sioud, S, Fiorilli, V, de Lera, AR, Lanfranco, L, Gojobori, T, Wing, RA, Krattinger, SG, Gao, X & Al-Babili, S 2024, 'Chromosome-scale pearl millet genomes reveal CLAMT1b as key determinant of strigolactone pattern and Striga susceptibility', Nature communications, vol. 15, no. 1, 6906. https://doi.org/10.1038/s41467-024-51189-w

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title = "Chromosome-scale pearl millet genomes reveal CLAMT1b as key determinant of strigolactone pattern and Striga susceptibility",

abstract = "The yield of pearl millet, a resilient cereal crop crucial for African food security, is severely impacted by the root parasitic weed Striga hermonthica, which requires host-released hormones, called strigolactones (SLs), for seed germination. Herein, we identify four SLs present in the Striga-susceptible line SOSAT-C88-P10 (P10) but absent in the resistant 29Aw (Aw). We generate chromosome-scale genome assemblies, including four gapless chromosomes for each line. The Striga-resistant Aw lacks a 0.7 Mb genome segment containing two putative CARLACTONOIC ACID METHYLTRANSFERASE1 (CLAMT1) genes, which may contribute to SL biosynthesis. Functional assays show that P10CLAMT1b produces the SL-biosynthesis intermediate methyl carlactonoate (MeCLA) and that MeCLA is the precursor of P10-specific SLs. Screening a diverse pearl millet panel confirms the pivotal role of the CLAMT1 section for SL diversity and Striga susceptibility. Our results reveal a reason for Striga susceptibility in pearl millet and pave the way for generating resistant lines through marker-assisted breeding or direct genetic modification.",

author = "Kuijer, \{Hendrik N.J.\} and Wang, \{Jian You\} and Salim Bougouffa and Michael Abrouk and Muhammad Jamil and Roberto Incitti and Intikhab Alam and Aparna Balakrishna and Derry Alvarez and Cristina Votta and Chen, \{Guan Ting Erica\} and Claudio Mart{\'i}nez and Andrea Zuccolo and Lamis Berqdar and Salim Sioud and Valentina Fiorilli and \{de Lera\}, \{Angel R.\} and Luisa Lanfranco and Takashi Gojobori and Wing, \{Rod A.\} and Krattinger, \{Simon G.\} and Xin Gao and Salim Al-Babili",

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year = "2024",

month = dec,

doi = "10.1038/s41467-024-51189-w",

language = "English (US)",

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AU - Kuijer, Hendrik N.J.

AU - Wang, Jian You

AU - Bougouffa, Salim

AU - Abrouk, Michael

AU - Jamil, Muhammad

AU - Incitti, Roberto

AU - Alam, Intikhab

AU - Balakrishna, Aparna

AU - Alvarez, Derry

AU - Votta, Cristina

AU - Chen, Guan Ting Erica

AU - Martínez, Claudio

AU - Zuccolo, Andrea

AU - Berqdar, Lamis

AU - Sioud, Salim

AU - Fiorilli, Valentina

AU - de Lera, Angel R.

AU - Lanfranco, Luisa

AU - Gojobori, Takashi

AU - Wing, Rod A.

AU - Krattinger, Simon G.

AU - Gao, Xin

AU - Al-Babili, Salim

PY - 2024/12

Y1 - 2024/12

N2 - The yield of pearl millet, a resilient cereal crop crucial for African food security, is severely impacted by the root parasitic weed Striga hermonthica, which requires host-released hormones, called strigolactones (SLs), for seed germination. Herein, we identify four SLs present in the Striga-susceptible line SOSAT-C88-P10 (P10) but absent in the resistant 29Aw (Aw). We generate chromosome-scale genome assemblies, including four gapless chromosomes for each line. The Striga-resistant Aw lacks a 0.7 Mb genome segment containing two putative CARLACTONOIC ACID METHYLTRANSFERASE1 (CLAMT1) genes, which may contribute to SL biosynthesis. Functional assays show that P10CLAMT1b produces the SL-biosynthesis intermediate methyl carlactonoate (MeCLA) and that MeCLA is the precursor of P10-specific SLs. Screening a diverse pearl millet panel confirms the pivotal role of the CLAMT1 section for SL diversity and Striga susceptibility. Our results reveal a reason for Striga susceptibility in pearl millet and pave the way for generating resistant lines through marker-assisted breeding or direct genetic modification.

AB - The yield of pearl millet, a resilient cereal crop crucial for African food security, is severely impacted by the root parasitic weed Striga hermonthica, which requires host-released hormones, called strigolactones (SLs), for seed germination. Herein, we identify four SLs present in the Striga-susceptible line SOSAT-C88-P10 (P10) but absent in the resistant 29Aw (Aw). We generate chromosome-scale genome assemblies, including four gapless chromosomes for each line. The Striga-resistant Aw lacks a 0.7 Mb genome segment containing two putative CARLACTONOIC ACID METHYLTRANSFERASE1 (CLAMT1) genes, which may contribute to SL biosynthesis. Functional assays show that P10CLAMT1b produces the SL-biosynthesis intermediate methyl carlactonoate (MeCLA) and that MeCLA is the precursor of P10-specific SLs. Screening a diverse pearl millet panel confirms the pivotal role of the CLAMT1 section for SL diversity and Striga susceptibility. Our results reveal a reason for Striga susceptibility in pearl millet and pave the way for generating resistant lines through marker-assisted breeding or direct genetic modification.

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Chromosome-scale pearl millet genomes reveal CLAMT1b as key determinant of strigolactone pattern and Striga susceptibility

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