Subtelomeric assembly of a multi-gene pathway for antimicrobial defense compounds in cereals

Li, Y.; Leveau, A.; Zhao, Q.; Martin, A.; Wegel, E.; Orme, A.; Karafiátová, Miroslava; Vrána, Jan; Steuernagel, B.; Joynson, R.; Louveau, T.; Stephenson, M. J.; Fan, D.; Zhou, C.; Tian, Q.; Polturak, G.; Casson, R.; Hill, L.; Moore, G.; Melton, R.; Hall, M.; Wulff, B. B. H.; Doležel, Jaroslav; Langdon, T.G.; Han, B.; Osbourn, A.

doi:https://dx.doi.org/10.1038/s41467-021-22920-8

Number of the records: 1

Subtelomeric assembly of a multi-gene pathway for antimicrobial defense compounds in cereals

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SYSNO ASEP	0546298
Document Type	J - Journal Article
R&D Document Type	Journal Article
Subsidiary J	Článek ve WOS
Title	Subtelomeric assembly of a multi-gene pathway for antimicrobial defense compounds in cereals
Author(s)	Li, Y. (CN) Leveau, A. (GB) Zhao, Q. (US) Martin, A. (DE) Wegel, E. (GB) Orme, A. (GB) Karafiátová, Miroslava (UEB-Q)_{RID, ORCID} Vrána, Jan (UEB-Q)_{RID, ORCID} Steuernagel, B. (GB) Joynson, R. (GB) Louveau, T. (GB) Stephenson, M. J. (GB) Fan, D. (CN) Zhou, C. (CN) Tian, Q. (CN) Polturak, G. (GB) Casson, R. (GB) Hill, L. (GB) Moore, G. (GB) Melton, R. (GB) Hall, M. (GB) Wulff, B. B. H. (GB) Doležel, Jaroslav (UEB-Q)_{RID, ORCID} Langdon, T.G. (GB) Han, B. (US) Osbourn, A. (GB)
Number of authors	44
Article number	2563
Source Title	Nature Communications. - : Nature Publishing Group - ISSN 2041-1723 Roč. 12, č. 1 (2021)
Number of pages	13 s.
Language	eng - English
Country	GB - United Kingdom
Keywords	In Situ Hybridization ; Fluorescence ; Repetitive Sequences
OECD category	Biochemistry and molecular biology
R&D Projects	EF16_019/0000827 GA MŠMT - Ministry of Education, Youth and Sports (MEYS)
Method of publishing	Open access
Institutional support	UEB-Q - RVO:61389030
UT WOS	000656449400002
EID SCOPUS	85105527354
DOI	https://doi.org/10.1038/s41467-021-22920-8
Annotation	Non-random gene organization in eukaryotes plays a significant role in genome evolution. Here, we investigate the origin of a biosynthetic gene cluster for production of defence compounds in oat—the avenacin cluster. We elucidate the structure and organisation of this 12-gene cluster, characterise the last two missing pathway steps, and reconstitute the entire pathway in tobacco by transient expression. We show that the cluster has formed de novo since the divergence of oats in a subtelomeric region of the genome that lacks homology with other grasses, and that gene order is approximately colinear with the biosynthetic pathway. We speculate that the positioning of the late pathway genes furthest away from the telomere may mitigate against a ‘self-poisoning’ scenario in which toxic intermediates accumulate as a result of telomeric gene deletions. Our investigations reveal a striking example of adaptive evolution underpinned by remarkable genome plasticity.
Workplace	Institute of Experimental Botany
Contact	David Klier, knihovna@ueb.cas.cz, Tel.: 220 390 469
Year of Publishing	2022
Electronic address	http://doi.org/10.1038/s41467-021-22920-8

Number of the records: 1