Aegilops tauschii genome assembly Aet v5.0 features greater sequence contiguity and improved annotation

Le Wang; Tingting Zhu; Juan C. Rodriguez; Karin R. Deal; Jorge Dubcovsky; Patrick E. McGuire; Thomas Lux; Manuel Spannagl; Klaus F.X. Mayer; Patricia Baldrich; Blake C. Meyers; Naxin Huo; Yong Q. Gu; Hongye Zhou; Katrien M. Devos; Jeffrey L. Bennetzen; Turgay Unver; Hikmet Budak; Patrick J. Gulick; Gabor Galiba; Balázs Kalapos; David R. Nelson; Pingchuan Li; Frank M. You; Ming Cheng Luo; Jan Dvorak

doi:10.1093/g3journal/jkab325

Aegilops tauschii genome assembly Aet v5.0 features greater sequence contiguity and improved annotation

Le Wang, Tingting Zhu, Juan C. Rodriguez, Karin R. Deal, Jorge Dubcovsky, Patrick E. McGuire, Thomas Lux, Manuel Spannagl, Klaus F.X. Mayer, Patricia Baldrich, Blake C. Meyers, Naxin Huo, Yong Q. Gu, Hongye Zhou, Katrien M. Devos, Jeffrey L. Bennetzen, Turgay Unver, Hikmet Budak, Patrick J. Gulick, Gabor GalibaBalázs Kalapos, David R. Nelson, Pingchuan Li, Frank M. You, Ming Cheng Luo, Jan Dvorak

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32 Scopus citations

Abstract

Aegilops tauschii is the donor of the D subgenome of hexaploid wheat and an important genetic resource. The reference-quality genome sequence Aet v4.0 for Ae. tauschii acc. AL8/78 was therefore an important milestone for wheat biology and breeding. Further advances in sequencing acc. AL8/78 and release of the Aet v5.0 sequence assembly are reported here. Two new optical maps were constructed and used in the revision of pseudomolecules. Gaps were closed with Pacific Biosciences long-read contigs, decreasing the gap number by 38,899. Transposable elements and protein-coding genes were reannotated. The number of annotated high-confidence genes was reduced from 39,635 in Aet v4.0 to 32,885 in Aet v5.0. A total of 2245 biologically important genes, including those affecting plant phenology, grain quality, and tolerance of abiotic stresses in wheat, was manually annotated and disease-resistance genes were annotated by a dedicated pipeline. Disease-resistance genes encoding nucleotide-binding site domains, receptor-like protein kinases, and receptor-like proteins were preferentially located in distal chromosome regions, whereas those encoding transmembrane coiled-coil proteins were dispersed more evenly along the chromosomes. Discovery, annotation, and expression analyses of microRNA (miRNA) precursors, mature miRNAs, and phasiRNAs are reported, including miRNA target genes. Other small RNAs, such as hc-siRNAs and tRFs, were characterized. These advances enhance the utility of the Ae. tauschii genome sequence for wheat genetics, biotechnology, and breeding.

Original language	English
Article number	jkab325
Journal	G3: Genes, Genomes, Genetics
Volume	11
Issue number	12
DOIs	https://doi.org/10.1093/g3journal/jkab325
State	Published - Dec 2021

Keywords

Disease resistance
Hc-siRNA
MiRNA
Optical map
Pacific biosciences
PhasiRNA
TRF
TRNA
Transposable elements

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10.1093/g3journal/jkab325

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Wang, L., Zhu, T., Rodriguez, J. C., Deal, K. R., Dubcovsky, J., McGuire, P. E., Lux, T., Spannagl, M., Mayer, K. F. X., Baldrich, P., Meyers, B. C., Huo, N., Gu, Y. Q., Zhou, H., Devos, K. M., Bennetzen, J. L., Unver, T., Budak, H., Gulick, P. J., ... Dvorak, J. (2021). Aegilops tauschii genome assembly Aet v5.0 features greater sequence contiguity and improved annotation. G3: Genes, Genomes, Genetics, 11(12), Article jkab325. https://doi.org/10.1093/g3journal/jkab325

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title = "Aegilops tauschii genome assembly Aet v5.0 features greater sequence contiguity and improved annotation",

abstract = "Aegilops tauschii is the donor of the D subgenome of hexaploid wheat and an important genetic resource. The reference-quality genome sequence Aet v4.0 for Ae. tauschii acc. AL8/78 was therefore an important milestone for wheat biology and breeding. Further advances in sequencing acc. AL8/78 and release of the Aet v5.0 sequence assembly are reported here. Two new optical maps were constructed and used in the revision of pseudomolecules. Gaps were closed with Pacific Biosciences long-read contigs, decreasing the gap number by 38,899. Transposable elements and protein-coding genes were reannotated. The number of annotated high-confidence genes was reduced from 39,635 in Aet v4.0 to 32,885 in Aet v5.0. A total of 2245 biologically important genes, including those affecting plant phenology, grain quality, and tolerance of abiotic stresses in wheat, was manually annotated and disease-resistance genes were annotated by a dedicated pipeline. Disease-resistance genes encoding nucleotide-binding site domains, receptor-like protein kinases, and receptor-like proteins were preferentially located in distal chromosome regions, whereas those encoding transmembrane coiled-coil proteins were dispersed more evenly along the chromosomes. Discovery, annotation, and expression analyses of microRNA (miRNA) precursors, mature miRNAs, and phasiRNAs are reported, including miRNA target genes. Other small RNAs, such as hc-siRNAs and tRFs, were characterized. These advances enhance the utility of the Ae. tauschii genome sequence for wheat genetics, biotechnology, and breeding.",

keywords = "Disease resistance, Hc-siRNA, MiRNA, Optical map, Pacific biosciences, PhasiRNA, TRF, TRNA, Transposable elements",

author = "Le Wang and Tingting Zhu and Rodriguez, {Juan C.} and Deal, {Karin R.} and Jorge Dubcovsky and McGuire, {Patrick E.} and Thomas Lux and Manuel Spannagl and Mayer, {Klaus F.X.} and Patricia Baldrich and Meyers, {Blake C.} and Naxin Huo and Gu, {Yong Q.} and Hongye Zhou and Devos, {Katrien M.} and Bennetzen, {Jeffrey L.} and Turgay Unver and Hikmet Budak and Gulick, {Patrick J.} and Gabor Galiba and Bal{\'a}zs Kalapos and Nelson, {David R.} and Pingchuan Li and You, {Frank M.} and Luo, {Ming Cheng} and Jan Dvorak",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2021.",

year = "2021",

month = dec,

doi = "10.1093/g3journal/jkab325",

language = "English",

volume = "11",

journal = "G3: Genes, Genomes, Genetics",

issn = "2160-1836",

number = "12",

}

Wang, L, Zhu, T, Rodriguez, JC, Deal, KR, Dubcovsky, J, McGuire, PE, Lux, T, Spannagl, M, Mayer, KFX, Baldrich, P, Meyers, BC, Huo, N, Gu, YQ, Zhou, H, Devos, KM, Bennetzen, JL, Unver, T, Budak, H, Gulick, PJ, Galiba, G, Kalapos, B, Nelson, DR, Li, P, You, FM, Luo, MC & Dvorak, J 2021, 'Aegilops tauschii genome assembly Aet v5.0 features greater sequence contiguity and improved annotation', G3: Genes, Genomes, Genetics, vol. 11, no. 12, jkab325. https://doi.org/10.1093/g3journal/jkab325

TY - JOUR

T1 - Aegilops tauschii genome assembly Aet v5.0 features greater sequence contiguity and improved annotation

AU - Wang, Le

AU - Zhu, Tingting

AU - Rodriguez, Juan C.

AU - Deal, Karin R.

AU - Dubcovsky, Jorge

AU - McGuire, Patrick E.

AU - Lux, Thomas

AU - Spannagl, Manuel

AU - Mayer, Klaus F.X.

AU - Baldrich, Patricia

AU - Meyers, Blake C.

AU - Huo, Naxin

AU - Gu, Yong Q.

AU - Zhou, Hongye

AU - Devos, Katrien M.

AU - Bennetzen, Jeffrey L.

AU - Unver, Turgay

AU - Budak, Hikmet

AU - Gulick, Patrick J.

AU - Galiba, Gabor

AU - Kalapos, Balázs

AU - Nelson, David R.

AU - Li, Pingchuan

AU - You, Frank M.

AU - Luo, Ming Cheng

AU - Dvorak, Jan

PY - 2021/12

Y1 - 2021/12

N2 - Aegilops tauschii is the donor of the D subgenome of hexaploid wheat and an important genetic resource. The reference-quality genome sequence Aet v4.0 for Ae. tauschii acc. AL8/78 was therefore an important milestone for wheat biology and breeding. Further advances in sequencing acc. AL8/78 and release of the Aet v5.0 sequence assembly are reported here. Two new optical maps were constructed and used in the revision of pseudomolecules. Gaps were closed with Pacific Biosciences long-read contigs, decreasing the gap number by 38,899. Transposable elements and protein-coding genes were reannotated. The number of annotated high-confidence genes was reduced from 39,635 in Aet v4.0 to 32,885 in Aet v5.0. A total of 2245 biologically important genes, including those affecting plant phenology, grain quality, and tolerance of abiotic stresses in wheat, was manually annotated and disease-resistance genes were annotated by a dedicated pipeline. Disease-resistance genes encoding nucleotide-binding site domains, receptor-like protein kinases, and receptor-like proteins were preferentially located in distal chromosome regions, whereas those encoding transmembrane coiled-coil proteins were dispersed more evenly along the chromosomes. Discovery, annotation, and expression analyses of microRNA (miRNA) precursors, mature miRNAs, and phasiRNAs are reported, including miRNA target genes. Other small RNAs, such as hc-siRNAs and tRFs, were characterized. These advances enhance the utility of the Ae. tauschii genome sequence for wheat genetics, biotechnology, and breeding.

AB - Aegilops tauschii is the donor of the D subgenome of hexaploid wheat and an important genetic resource. The reference-quality genome sequence Aet v4.0 for Ae. tauschii acc. AL8/78 was therefore an important milestone for wheat biology and breeding. Further advances in sequencing acc. AL8/78 and release of the Aet v5.0 sequence assembly are reported here. Two new optical maps were constructed and used in the revision of pseudomolecules. Gaps were closed with Pacific Biosciences long-read contigs, decreasing the gap number by 38,899. Transposable elements and protein-coding genes were reannotated. The number of annotated high-confidence genes was reduced from 39,635 in Aet v4.0 to 32,885 in Aet v5.0. A total of 2245 biologically important genes, including those affecting plant phenology, grain quality, and tolerance of abiotic stresses in wheat, was manually annotated and disease-resistance genes were annotated by a dedicated pipeline. Disease-resistance genes encoding nucleotide-binding site domains, receptor-like protein kinases, and receptor-like proteins were preferentially located in distal chromosome regions, whereas those encoding transmembrane coiled-coil proteins were dispersed more evenly along the chromosomes. Discovery, annotation, and expression analyses of microRNA (miRNA) precursors, mature miRNAs, and phasiRNAs are reported, including miRNA target genes. Other small RNAs, such as hc-siRNAs and tRFs, were characterized. These advances enhance the utility of the Ae. tauschii genome sequence for wheat genetics, biotechnology, and breeding.

KW - Disease resistance

KW - Hc-siRNA

KW - MiRNA

KW - Optical map

KW - Pacific biosciences

KW - PhasiRNA

KW - TRF

KW - TRNA

KW - Transposable elements

UR - http://www.scopus.com/inward/record.url?scp=85121113694&partnerID=8YFLogxK

U2 - 10.1093/g3journal/jkab325

DO - 10.1093/g3journal/jkab325

M3 - Article

C2 - 34515796

AN - SCOPUS:85121113694

SN - 2160-1836

VL - 11

JO - G3: Genes, Genomes, Genetics

JF - G3: Genes, Genomes, Genetics

IS - 12

M1 - jkab325

ER -

Aegilops tauschii genome assembly Aet v5.0 features greater sequence contiguity and improved annotation

Abstract

Keywords

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