Einzeltreffer — DigiBib

Key Message: Major fertility restorer locus for Aegilops kotschyi cytoplasm in wheat, Rfk1, was mapped to chromosome arm 1BS. Most likely candidate gene is TraesCS1B02G197400LC, which is predicted to encode a pectinesterase/pectinesterase inhibitor. Cytoplasmic male sterility (CMS) is widely used for heterosis and hybrid seed production in wheat. Genes related to male fertility restoration in the presence of Aegilops kotschyi cytoplasm have been reported, but the fertility restoration-associated gene loci have not been investigated systematically. In this study, a BC 1 F 1 population derived from a backcross between KTP116A, its maintainer line TP116B, and its restorer line LK783 was employed to map fertility restoration by bulked segregant RNA-Seq (BSR-Seq). A major fertility allele restorer locus for Ae. kotschyi cytoplasm in wheat, Rfk1, was mapped to chromosome arm 1BS, and it was contributed by LK783. Morphological and cytological studies showed that male fertility restoration occurred mainly after the late uninucleate stage. Based on simple sequence repeat and single-nucleotide polymorphism genotyping, the gene locus was located between Xnwafu_6 and Xbarc137 on chromosome arm 1BS. To further isolate the specific region, six Kompetitive allele-specific polymerase chain reaction markers derived from BSR-Seq were developed to delimit Rfk1 within physical intervals of 26.0 Mb. After searching for differentially expressed genes within the candidate interval in the anthers and sequencing analysis, TraesCS1B02G197400LC was identified as a candidate gene for Rfk1 and it was predicted to encode a pectinesterase/pectinesterase inhibitor. Expression analysis also confirmed that it was specifically expressed in the anthers, and its expression level was higher in fertile lines compared with sterile lines. Thus, TraesCS1B02G197400LC was identified as the most likely candidate gene for Rfk1, thereby providing insights into the fertility restoration mechanism for K-type CMS in wheat.

Titel:	Identification and validation of genetic locus Rfk1 for wheat fertility restoration in the presence of Aegilops kotschyi cytoplasm.
Autor/in / Beteiligte Person:	Chen, Y ; Jia, Y ; Niu, F ; Wu, Y ; Ye, J ; Yang, X ; Zhang, L ; Song, X
Link:	Zum Volltext
Zeitschrift:	TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik, Jg. 134 (2021-03-01), Heft 3, S. 875-885
Veröffentlichung:	Berlin, New York, Springer, 2021
Medientyp:	academicJournal
ISSN:	1432-2242 (electronic)
DOI:	10.1007/s00122-020-03738-2
Schlagwort:	Aegilops physiology Chromosome Mapping Triticum genetics Cytoplasm physiology Gene Expression Regulation, Plant Genetic Loci Plant Breeding Plant Infertility Plant Proteins genetics Triticum growth & development
Sonstiges:	Nachgewiesen in: MEDLINE Sprachen: English Publication Type: Journal Article Language: English [Theor Appl Genet] 2021 Mar; Vol. 134 (3), pp. 875-885. <i>Date of Electronic Publication: </i>2021 Jan 03. MeSH Terms: Gene Expression Regulation, Plant* ; Genetic Loci* ; Plant Breeding* ; Plant Infertility* ; Cytoplasm / physiology ; Plant Proteins / genetics ; Triticum / *growth & development ; Aegilops / physiology ; Chromosome Mapping ; Triticum / genetics References: Balaji Suresh P, Srikanth B, Hemanth Kishore V, Subhakara Rao I, Vemireddy LR, Dharika N, Sundaram RM, Ramesha MS, Sambasiva Rao KRS, Viraktamath BC, Neeraja CN (2012) Fine mapping of Rf3 and Rf4 fertility restorer loci of WA-CMS of rice (Oryza sativa L.) and validation of the developed marker system for identification of restorer lines. Euphytica 187:421–435. ; Bentolila S, Alfonso AA, Hanson MR (2002) A pentatricopeptide repeat-containing gene restores fertility to cytoplasmic male-sterile plants. Pro Natl Acad Sci USA 99:10887–10892. ; Börner A, Korzun V, Polley A, Malyshev S, Melz G (1998) Genetics and molecular mapping of a male fertility restoration locus (Rfg1) in rye (Secale cereale L.). Theor Appl Genet 97:99–102. ; Bosch M, Hepler P (2005) Pectin methylesterases and pectin dynamics in pollen tubes. Plant Cell 17:3219–3226. (PMID: 163226061315365) ; Brown G, Formanova N, Jin H, Wargachuk R, Dendy C, Patil P, Laforest M, Zhang J, Cheung W, Landry B (2003) The radish Rfo restorer gene of Ogura cytoplasmic male sterility encodes a protein with multiple pentatricopeptide repeats. Plant J 35:262–272. (PMID: 12848830) ; Cao S, Guo X, Liu D, Chang X, Zhang A (2004) Preliminary gene-mapping of photoperiod-temperature sensitive genic male sterility in wheat (Triticum aestivum L.). Acta Genet Sin 31:293–298. (PMID: 15195570) ; Chai S, Yun H, Wang H, Li A, Cao P, Li D (1999) A study on fertility-restoration of CMS systems with Aegilops kotschyi or Ae. varibilis cytoplasm and 1BL-1RS chromosome in common wheat. Acta Bot Boreali-occident Sin 19:654–658. ; Chen L, Liu Y (2014) Male sterility and fertility restoration in crops. Annu Rev Plant Biol 65:579–606. ; Dong D, Li Z, Yuan F, Zhu S, Chen P, Yu W, Yang Q, Fu X, Yu X, Li B, Zhu D (2012) Inheritance and fine mapping of a restorer-of-fertility (Rf) gene for the cytoplasmic male sterility in soybean. Plant Sci 188–189:36–40. (PMID: 22525242) ; Du H, Zhu J, Su H, Huang M, Wang H, Ding S, Zhang B, Luo A, Wei S, Tian X, Xu Y (2017) Bulked Segregant RNA-seq reveals differential expression and SNPs of candidate genes associated with waterlogging tolerance in Maize. Front Plant Sci 8:1022. (PMID: 286599615470080) ; Fei H, Sawhney VK (2001) Ultrastructural characterization of male sterile33 (ms33) mutant in Arabidopsis affected in pollen desiccation and maturation. Can J Bot 79:118–129. ; Fujii S, Toriyam K (2009) Suppressed expression of retrograde-regulated male sterility restores pollen fertility in cytoplasmic male sterile rice plant. Proc Natl Acad Sci USA 106:9513–9518. (PMID: 19458265) ; Gupta PK, Balyan HS, Gahlaut V, Saripalli G, Pal B, Basnet BR, Joshi AK (2019) Hybrid wheat: past, present and future. Theor Appl Genet 132:2463–2483. (PMID: 31321476) ; Hanson MR, Bentolila S (2004) Interactions of mitochondrial and nuclear genes that affect male gametophyte development. Plant Cell 16(Suppl):S154–S169. (PMID: 26433872643387) ; Hu J, Wang K, Huang W, Liu G, Gao Y, Wang J, Huang Q, Ji Y, Qin X, Wan L, Zhu R, Li S, Yang D, Zhu Y (2012) The rice pentatricopeptide repeat protein RF5 restores fertility in Hong-Lian cytoplasmic male-sterile lines via a complex with the glycine-rich protein GRP162. Plant Cell 24:109–122. (PMID: 222472523289560) ; Itabashi E, Iwato N, Fujii S, Kazama T, Toriyama K (2011) The fertility restorer gene, Rf2, for Lead Rice-type cytoplasmic male sterility of rice encodes a mitochondrial glycine-rich protein. Plant J 65:359–367. (PMID: 21265890) ; IWGSC (2018) Shifting the limits in wheat research and breeding using a fully annotated reference genome. Science 361:7191. ; Jordan D, Mace ES, Henzell R, Klein P, Klein R (2010) Molecular mapping and candidate gene identification of the Rf2 gene for pollen fertility restoration in sorghum [Sorghum bicolor (L.) Moench]. Theor Appl Genet 120:1279–1287. (PMID: 20091293) ; Kazama T, Toriyama K (2014) A fertility restorer gene, Rf4, widely used for hybrid rice breeding encodes a pentatricopeptide repeat protein. Rice 7:28. (PMID: 262245574884050) ; Kihara H (1951) Substitution of nucleus and its effects on genome manifestations. Cytologia 16:177–193. ; Kitazaki K, Arakawa T, Matsunaga M, Yui-Kurino R, Matsuhira H, Mikami T, Kubo T (2015) Post-translational mechanisms are associated with fertility restoration of cytoplasmic male sterility in sugar beet (Beta vulgaris). Plant J 83:290–299. (PMID: 26031622) ; Klein RR, Klein PE, Mullet JE, Minx P, Rooney WL, Schertz KF (2005) Fertility restorer locus Rf1 of sorghum (Sorghum bicolor L.) encodes a pentatricopeptide repeat protein not present in the colinear region of rice chromosome 12. Theor Appl Genet 111:994–1012. (PMID: 16078015) ; Li S, Liu Z, Jia Y, Ye J, Yang X, Zhang L, Song X (2019) Analysis of metabolic pathways related to fertility restoration and identification of fertility candidate genes associated with Aegilops kotschyi cytoplasm in wheat (Triticum aestivum L.). BMC Plant Biol 19:252. (PMID: 311859036560861) ; Li W, Liu Z, Meng C, Jia Y, Song X (2019) Identification of genes related to the regulation of anther and pollen development in mu-type cytoplasmic male sterile wheat (Triticum aestivum) by transcriptome analysis. Crop Pasture Sci 70:306–317. ; Li H, Zhang G, Zhang L, Niu N (2008) Genetics analysis and SSR markers on fertility restorer gene of male sterility of wheat with Aegilops kotschyi cytoplasm. J JNWAFU 36:65–70. ; Liang FS, Wang B (2003) Heredity and gene mapping of male sterility in wheat. Yi Chuan 25:461–465. (PMID: 15639909) ; Liu F, Cui X, Horner HT, Weiner H, Schnable PS (2001) Mitochondrial aldehyde dehydrogenase activity is required for male fertility in maize. Plant Cell 13:1063–1078. (PMID: 11340182135560) ; Liu Z, Li S, Li W, Liu Q, Zhang L, Song X (2020) Comparative transcriptome analysis indicates that a core transcriptional network mediates isonuclear alloplasmic male sterility in wheat (Triticum aestivum L.). BMC Plant Biol 20:1–19. ; Liu Z, Liu P, Long F, Hong P, He Q, Yang G (2012) Fine mapping and candidate gene analysis of the nuclear restorer gene Rfp for pol CMS in rapeseed (Brassica napus L.). Theor Appl Genet 125:773–779. (PMID: 22614178) ; Liu B, Sun L, Gao Q, Zhang Y, Liu S (2000) Genetic analysis of male–sterility restoration in wheat with Ae.kotschyi cytoplasm. J Shandong Agri Univ 31:11–14. ; Liu B, Sun Q, Sun L, Gao Q, Xie C, Dou B, Ni Z, Wei Y, Zhang Y (2002) RAPD and ISSR markers of fertility restoring gene for Aegilops kotschyi cytoplasmic male sterility in wheat. Acta Bot Sin 44:446–450. ; Liu C, Zhou Q, Dong L, Wang H, Liu F, Weng J, Li X, Xie C (2016) Genetic architecture of the maize kernel row number revealed by combining QTL mapping using a high-density genetic map and bulked segregant RNA sequencing. BMC Genom 17:915. ; Livak KJ, Schmittgen TD (2001) Analysis of relative gene expression data using real-time quantitative PCR and the 2 −ΔΔCT method. Methods 25:402–408. ; Mukai Y, Tsunewaki K (1979) Basic studies on hybrid wheat breeding: VIII. a new male sterility-fertility restoration system in common wheat utilizing the cytoplasms of Aegilops kotschiyi and Ae. variabilis. Theor Appl Genet 54:153–160. (PMID: 24310337) ; Sajer O, Schirmak U, Hamrit S, Horn R (2020) Mapping of the new fertility restorer gene Rf-PET2 close to Rf1 on linkage group 13 in sunflower (Helianthus annuus L.). Genes 11:269. (PMID: 7140827) ; Song X, Qian H, Zhang L (2014) Cytogenetic analysis of cytoplasmic male sterility in wheat line KTP116A and molecular mapping of two thermo-sensitive restoration genes. Euphytica 196:129–136. ; Tsunewaki K (2015) Fine mapping of the first multi-fertility-restoring gene, Rf multi , of wheat for three Aegilops plasmons, using 1BS-1RS recombinant lines. Theor Appl Genet 128:723–732. (PMID: 25673141) ; Van Ooijen JW (2006) JoinMap 4, Software for the calculation of genetic linkage maps in experimental populations. Kyazma BV, Wageningen. ; Wang N, Liu ZY, Zhang Y, Li CY, Feng H (2017) Identification and fine mapping of a stay-green gene (Brnye1) in pakchoi (Brassica campestris L. ssp. chinensis). Theor Appl Genet 131:673–684. (PMID: 29209732) ; Wang Z, Zou Y, Li X, Zhang Q, Chen L, Wu H, Su D, Chen Y, Guo J, Da L, Long Y, Zhang Y, Liu Y (2006) Cytoplasmic male sterility of rice with boro II cytoplasm is caused by a cytotoxic peptide and is restored by two related PPR motif genes via distinct modes of mRNA silencing. Plant Cell 18:676–687. (PMID: 164891231383642) ; Xu D, Qu S, Tucker MR, Zhang D, Liang W, Shi J (2019) Ostkpr1 functions in anther cuticle development and pollen wall formation in rice. BMC Plant Biol 19:104. (PMID: 308851406421701) ; Yao Y, Zhang G, Liu H, Wang J (2002) Studies on correlation between intine and K-type cytoplasmic male sterility in wheat. Acta Bot Boreali-occident Sin 22:333–337. ; Zhan K, Cheng J, Cui D, Fan L, Xu H, Song Y (2006) Genetic analysis of fertility restoring genes for male sterile line with Ae. kotschyi cytoplasm in wheat [Triticum aestivum (L.) Thell.]. Acta Agron Sin 32:873–877. ; Zhang Z, Wang Y, Zheng Y (2006) AFLP and PCR-based markers linked to Rf3, a fertility restorer gene for S cytoplasmic male sterility in maize. Mol Genet Genom 276:162–169. ; Zhao C, Zhao G, Geng Z, Wang Z, Wang K, Liu S, Zhang H, Guo B, Geng J (2018) Physical mapping and candidate gene prediction of fertility restorer gene of cytoplasmic male sterility in cotton. BMC Genom 19:6. ; Zhou Y, He Z, Zhang G, Xia L, Chen X, Gao Y, Jing Z, Yu G (2004) Utilization of 1BL/1RS translocation in wheat breeding in China. Acta Agron Sin 30:531–535. Grant Information: 31771874 National Natural Science Foundation of China Substance Nomenclature: 0 (Plant Proteins) Entry Date(s): Date Created: 20210104 Date Completed: 20210802 Latest Revision: 20220420 Update Code: 20231215

Klicken Sie ein Format an und speichern Sie dann die Daten oder geben Sie eine Empfänger-Adresse ein und lassen Sie sich per Email zusenden.

BibTeX Citavi, JabRef, u.a.
(Literaturverwaltung)

PDF kein Volltext!
(Merkzettel, Notizen)

RIS Endnote, Citavi u.a.
(Literaturverwaltung)

MODS
(XML zur Weiterverarbeitung)

oder

Wählen Sie das für Sie passende Zitationsformat und kopieren Sie es dann in die Zwischenablage, lassen es sich per Mail zusenden oder speichern es als PDF-Datei.

Gewünschter Zitations-Stil:

oder

Bitte prüfen Sie, ob die Zitation formal korrekt ist, bevor Sie sie in einer Arbeit verwenden. Benutzen Sie gegebenenfalls den "Exportieren"-Dialog, wenn Sie ein Literaturverwaltungsprogramm verwenden und die Zitat-Angaben selbst formatieren wollen.

Identification and validation of genetic locus Rfk1 for wheat fertility restoration in the presence of Aegilops kotschyi cytoplasm.