The Role of a Pseudo-Response Regulator Gene in Life Cycle Adaptation and Domestication of Beet

Pin PA, Zhang W, Vogt SH, Dally N, Büttner B, Schulze-Buxloh G, Jelly NS, Chia TYP, Mutasa-Göttgens ES, Dohm JC, Himmelbauer H, et al. (2012)
Current Biology 22(12): 1095-1101.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Pin, Pierre A; Zhang, Wenying; Vogt, Sebastian H; Dally, Nadine; Büttner, Bianca; Schulze-Buxloh, Gretel; Jelly, Noémie S; Chia, Tansy Y P; Mutasa-Göttgens, Effie S; Dohm, Juliane C; Himmelbauer, Heinz; Weisshaar, BerndUniBi
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Abstract / Bemerkung
Life cycle adaptation to latitudinal and seasonal variation in photoperiod and temperature is a major determinant of evolutionary success in flowering plants. Whereas the life cycle of the dicotyledonous model species Arabidopsis thaliana is controlled by two epistatic genes, FLOWERING LOCUS C and FRIGIDA [1-3], three unrelated loci (VERNALIZATION 1-3) determine the spring and winter habits of monocotyledonous plants such as temperate cereals [4-6]. In the core eudicot species Beta vulgaris, whose lineage diverged from that leading to Arabidopsis shortly after the monocot-dicot split 140 million years ago [7, 8], the bolting locus B [9] is a master switch distinguishing annuals from biennials. Here, we isolated B and show that the pseudo-response regulator gene BOLTING TIME CONTROL 1 (BvBTC1), through regulation of the FLOWERING LOCUS T genes [10], is absolutely necessary for flowering and mediates the response to both long days and vernalization. Our results suggest that domestication of beets involved the selection of a rare partial loss-of-function BvBTC1 allele that imparts reduced sensitivity to photoperiod that is restored by vernalization, thus conferring bienniality, and illustrate how evolutionary plasticity at a key regulatory point can enable new life cycle strategies.
Erscheinungsjahr
2012
Zeitschriftentitel
Current Biology
Band
22
Ausgabe
12
Seite(n)
1095-1101
ISSN
0960-9822
Page URI
https://pub.uni-bielefeld.de/record/2498922

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Pin PA, Zhang W, Vogt SH, et al. The Role of a Pseudo-Response Regulator Gene in Life Cycle Adaptation and Domestication of Beet. Current Biology. 2012;22(12):1095-1101.
Pin, P. A., Zhang, W., Vogt, S. H., Dally, N., Büttner, B., Schulze-Buxloh, G., Jelly, N. S., et al. (2012). The Role of a Pseudo-Response Regulator Gene in Life Cycle Adaptation and Domestication of Beet. Current Biology, 22(12), 1095-1101. doi:10.1016/j.cub.2012.04.007
Pin, P. A., Zhang, W., Vogt, S. H., Dally, N., Büttner, B., Schulze-Buxloh, G., Jelly, N. S., Chia, T. Y. P., Mutasa-Göttgens, E. S., Dohm, J. C., et al. (2012). The Role of a Pseudo-Response Regulator Gene in Life Cycle Adaptation and Domestication of Beet. Current Biology 22, 1095-1101.
Pin, P.A., et al., 2012. The Role of a Pseudo-Response Regulator Gene in Life Cycle Adaptation and Domestication of Beet. Current Biology, 22(12), p 1095-1101.
P.A. Pin, et al., “The Role of a Pseudo-Response Regulator Gene in Life Cycle Adaptation and Domestication of Beet”, Current Biology, vol. 22, 2012, pp. 1095-1101.
Pin, P.A., Zhang, W., Vogt, S.H., Dally, N., Büttner, B., Schulze-Buxloh, G., Jelly, N.S., Chia, T.Y.P., Mutasa-Göttgens, E.S., Dohm, J.C., Himmelbauer, H., Weisshaar, B., Kraus, J., Gielen, J.J.L., Lommel, M., Weyens, G., Wahl, B., Schechert, A., Nilsson, O., Jung, C., Kraft, T., Müller, A.E.: The Role of a Pseudo-Response Regulator Gene in Life Cycle Adaptation and Domestication of Beet. Current Biology. 22, 1095-1101 (2012).
Pin, Pierre A, Zhang, Wenying, Vogt, Sebastian H, Dally, Nadine, Büttner, Bianca, Schulze-Buxloh, Gretel, Jelly, Noémie S, Chia, Tansy Y P, Mutasa-Göttgens, Effie S, Dohm, Juliane C, Himmelbauer, Heinz, Weisshaar, Bernd, Kraus, Josef, Gielen, Jan J L, Lommel, Murielle, Weyens, Guy, Wahl, Bettina, Schechert, Axel, Nilsson, Ove, Jung, Christian, Kraft, Thomas, and Müller, Andreas E. “The Role of a Pseudo-Response Regulator Gene in Life Cycle Adaptation and Domestication of Beet”. Current Biology 22.12 (2012): 1095-1101.

46 Zitationen in Europe PMC

Daten bereitgestellt von Europe PubMed Central.

Two CONSTANS-LIKE genes jointly control flowering time in beet.
Dally N, Eckel M, Batschauer A, Höft N, Jung C., Sci Rep 8(1), 2018
PMID: 30382124
Winter Memory throughout the Plant Kingdom: Different Paths to Flowering.
Bouché F, Woods DP, Amasino RM., Plant Physiol 173(1), 2017
PMID: 27756819
PSEUDO RESPONSE REGULATORs stabilize CONSTANS protein to promote flowering in response to day length.
Hayama R, Sarid-Krebs L, Richter R, Fernández V, Jang S, Coupland G., EMBO J 36(7), 2017
PMID: 28270524
Deciphering the complex nature of bolting time regulation in Beta vulgaris.
Tränkner C, Pfeiffer N, Kirchhoff M, Kopisch-Obuch FJ, van Dijk H, Schilhabel M, Hasler M, Emrani N., Theor Appl Genet 130(8), 2017
PMID: 28478574
Crop wild relative populations of Beta vulgaris allow direct mapping of agronomically important genes.
Capistrano-Gossmann GG, Ries D, Holtgräwe D, Minoche A, Kraft T, Frerichmann SLM, Rosleff Soerensen T, Dohm JC, González I, Schilhabel M, Varrelmann M, Tschoep H, Uphoff H, Schütze K, Borchardt D, Toerjek O, Mechelke W, Lein JC, Schechert AW, Frese L, Himmelbauer H, Weisshaar B, Kopisch-Obuch FJ., Nat Commun 8(), 2017
PMID: 28585529
Altered regulation of TERMINAL FLOWER 1 causes the unique vernalisation response in an arctic woodland strawberry accession.
Koskela EA, Kurokura T, Toivainen T, Sønsteby A, Heide OM, Sargent DJ, Isobe S, Jaakola L, Hilmarsson H, Elomaa P, Hytönen T., New Phytol 216(3), 2017
PMID: 28815698
Epigenomics and bolting tolerance in sugar beet genotypes.
Hébrard C, Peterson DG, Willems G, Delaunay A, Jesson B, Lefèbvre M, Barnes S, Maury S., J Exp Bot 67(1), 2016
PMID: 26463996
Domestication selected for deceleration of the circadian clock in cultivated tomato.
Müller NA, Wijnen CL, Srinivasan A, Ryngajllo M, Ofner I, Lin T, Ranjan A, West D, Maloof JN, Sinha NR, Huang S, Zamir D, Jiménez-Gómez JM., Nat Genet 48(1), 2016
PMID: 26569124
Improvement of Arabidopsis Biomass and Cold, Drought and Salinity Stress Tolerance by Modified Circadian Clock-Associated PSEUDO-RESPONSE REGULATORs.
Nakamichi N, Takao S, Kudo T, Kiba T, Wang Y, Kinoshita T, Sakakibara H., Plant Cell Physiol 57(5), 2016
PMID: 27012548
Identification of LATE BLOOMER2 as a CYCLING DOF FACTOR Homolog Reveals Conserved and Divergent Features of the Flowering Response to Photoperiod in Pea.
Ridge S, Sussmilch FC, Hecht V, Vander Schoor JK, Lee R, Aubert G, Burstin J, Macknight RC, Macknight RC, Weller JL., Plant Cell 28(10), 2016
PMID: 27670672
A Detailed Analysis of the BR1 Locus Suggests a New Mechanism for Bolting after Winter in Sugar Beet (Beta vulgaris L.).
Tränkner C, Lemnian IM, Emrani N, Pfeiffer N, Tiwari SP, Kopisch-Obuch FJ, Vogt SH, Müller AE, Schilhabel M, Jung C, Grosse I., Front Plant Sci 7(), 2016
PMID: 27895650
Efficient callus formation and plant regeneration are heritable characters in sugar beet (Beta vulgaris L.).
Kagami H, Taguchi K, Arakawa T, Kuroda Y, Tamagake H, Kubo T., Hereditas 153(), 2016
PMID: 28096774
Conserved function of FLOWERING LOCUS T (FT) homologues as signals for storage organ differentiation.
Navarro C, Cruz-Oró E, Prat S., Curr Opin Plant Biol 23(), 2015
PMID: 25449726
Time to flower: interplay between photoperiod and the circadian clock.
Johansson M, Staiger D., J Exp Bot 66(3), 2015
PMID: 25371508
Flowering time regulation in crops—what did we learn from Arabidopsis?
Blümel M, Dally N, Jung C., Curr Opin Biotechnol 32(), 2015
PMID: 25553537
Circadian Clock Genes Universally Control Key Agricultural Traits.
Bendix C, Marshall CM, Harmon FG., Mol Plant 8(8), 2015
PMID: 25772379
Exploiting single-molecule transcript sequencing for eukaryotic gene prediction.
Minoche AE, Dohm JC, Schneider J, Holtgräwe D, Viehöver P, Montfort M, Sörensen TR, Weisshaar B, Himmelbauer H., Genome Biol 16(), 2015
PMID: 26328666
The genome of the recently domesticated crop plant sugar beet (Beta vulgaris).
Dohm JC, Minoche AE, Holtgräwe D, Capella-Gutiérrez S, Zakrzewski F, Tafer H, Rupp O, Sörensen TR, Stracke R, Reinhardt R, Goesmann A, Kraft T, Schulz B, Stadler PF, Schmidt T, Gabaldón T, Lehrach H, Weisshaar B, Himmelbauer H., Nature 505(7484), 2014
PMID: 24352233
Interaction of photoperiod and vernalization determines flowering time of Brachypodium distachyon.
Ream TS, Woods DP, Schwartz CJ, Sanabria CP, Mahoy JA, Walters EM, Kaeppler HF, Amasino RM., Plant Physiol 164(2), 2014
PMID: 24357601
Genetic and epigenetic mechanisms underlying vernalization.
Kim DH, Sung S., Arabidopsis Book 12(), 2014
PMID: 24653667
The FLC-like gene BvFL1 is not a major regulator of vernalization response in biennial beets.
Vogt SH, Weyens G, Lefèbvre M, Bork B, Schechert A, Müller AE., Front Plant Sci 5(), 2014
PMID: 24782884
Patterns of nucleotide diversity at photoperiod related genes in Norway spruce [Picea abies (L.) Karst].
Källman T, De Mita S, Larsson H, Gyllenstrand N, Heuertz M, Parducci L, Suyama Y, Lagercrantz U, Lascoux M., PLoS One 9(5), 2014
PMID: 24810273
Genetic architecture of main effect QTL for heading date in European winter wheat.
Zanke C, Ling J, Plieske J, Kollers S, Ebmeyer E, Korzun V, Argillier O, Stiewe G, Hinze M, Beier S, Ganal MW, Röder MS., Front Plant Sci 5(), 2014
PMID: 24904613
The B2 flowering time locus of beet encodes a zinc finger transcription factor.
Dally N, Xiao K, Holtgräwe D, Jung C., Proc Natl Acad Sci U S A 111(28), 2014
PMID: 24965366
Genetic analysis of bolting after winter in sugar beet (Beta vulgaris L.).
Pfeiffer N, Tränkner C, Lemnian I, Grosse I, Müller AE, Jung C, Kopisch-Obuch FJ., Theor Appl Genet 127(11), 2014
PMID: 25212110
Identification of differentially methylated regions during vernalization revealed a role for RNA methyltransferases in bolting.
Hébrard C, Trap-Gentil MV, Lafon-Placette C, Delaunay A, Joseph C, Lefèbvre M, Barnes S, Maury S., J Exp Bot 64(2), 2013
PMID: 23307918
EcoTILLING in Beta vulgaris reveals polymorphisms in the FLC-like gene BvFL1 that are associated with annuality and winter hardiness.
Frerichmann SL, Kirchhoff M, Müller AE, Scheidig AJ, Jung C, Kopisch-Obuch FJ., BMC Plant Biol 13(), 2013
PMID: 23531083
A root chicory MADS box sequence and the Arabidopsis flowering repressor FLC share common features that suggest conserved function in vernalization and de-vernalization responses.
Périlleux C, Pieltain A, Jacquemin G, Bouché F, Detry N, D'Aloia M, Thiry L, Aljochim P, Delansnay M, Mathieu AS, Lutts S, Tocquin P., Plant J 75(3), 2013
PMID: 23581257
Adaptation to seasonality and the winter freeze.
Preston JC, Sandve SR., Front Plant Sci 4(), 2013
PMID: 23761798
The circadian clock goes genomic.
Staiger D, Shin J, Johansson M, Davis SJ., Genome Biol 14(6), 2013
PMID: 23796230
Molecular mechanisms involved in convergent crop domestication.
Lenser T, Theißen G., Trends Plant Sci 18(12), 2013
PMID: 24035234
The multifaceted roles of FLOWERING LOCUS T in plant development.
Pin PA, Nilsson O., Plant Cell Environ 35(10), 2012
PMID: 22697796
The genetic basis of flowering responses to seasonal cues.
Andrés F, Coupland G., Nat Rev Genet 13(9), 2012
PMID: 22898651

26 References

Daten bereitgestellt von Europe PubMed Central.

The FLF MADS box gene: a repressor of flowering in Arabidopsis regulated by vernalization and methylation.
Sheldon CC, Burn JE, Perez PP, Metzger J, Edwards JA, Peacock WJ, Dennis ES., Plant Cell 11(3), 1999
PMID: 10072403
Molecular analysis of FRIGIDA, a major determinant of natural variation in Arabidopsis flowering time.
Johanson U, West J, Lister C, Michaels S, Amasino R, Dean C., Science 290(5490), 2000
PMID: 11030654
Positional cloning of the wheat vernalization gene VRN1.
Yan L, Loukoianov A, Tranquilli G, Helguera M, Fahima T, Dubcovsky J., Proc. Natl. Acad. Sci. U.S.A. 100(10), 2003
PMID: 12730378
The wheat VRN2 gene is a flowering repressor down-regulated by vernalization.
Yan L, Loukoianov A, Blechl A, Tranquilli G, Ramakrishna W, SanMiguel P, Bennetzen JL, Echenique V, Dubcovsky J., Science 303(5664), 2004
PMID: 15016992
The wheat and barley vernalization gene VRN3 is an orthologue of FT.
Yan L, Fu D, Li C, Blechl A, Tranquilli G, Bonafede M, Sanchez A, Valarik M, Yasuda S, Dubcovsky J., Proc. Natl. Acad. Sci. U.S.A. 103(51), 2006
PMID: 17158798
Darwin's abominable mystery: Insights from a supertree of the angiosperms.
Davies TJ, Barraclough TG, Chase MW, Soltis PS, Soltis DE, Savolainen V., Proc. Natl. Acad. Sci. U.S.A. 101(7), 2004
PMID: 14766971
Dating the monocot-dicot divergence and the origin of core eudicots using whole chloroplast genomes
Chaw, J. Mol. Evol. 58(), 2004
A genetic factor for the annual habit in beets and linkage relationship
Abegg, J. Agric. Res. 53(), 1936
An antagonistic pair of FT homologs mediates the control of flowering time in sugar beet.
Pin PA, Benlloch R, Bonnet D, Wremerth-Weich E, Kraft T, Gielen JJ, Nilsson O., Science 330(6009), 2010
PMID: 21127254
Phylogenetic relationships between cultivated and wild species of the genus Beta revealed by DNA "fingerprinting".
Jung C, Pillen K, Frese L, Fahr S, Melchinger AE., Theor. Appl. Genet. 86(4), 1993
PMID: IND20337569
Flowering time in wild beet (Beta vulgaris ssp. maritima) along a latitudinal cline
Van, Acta Oecol. 18(), 1997
Identification of RFLP markers closely linked to the bolting gene B and their significance for the study of the annual habit in beets (Beta vulgaris L.).
Boudry P, Wieber R, Saumitou-Laprade P, Pillen K, Dijk Hvan, Jung C., Theor. Appl. Genet. 88(6/7), 1994
PMID: IND20435359
The pseudo-response regulator Ppd-H1 provides adaptation to photoperiod in barley.
Turner A, Beales J, Faure S, Dunford RP, Laurie DA., Science 310(5750), 2005
PMID: 16284181
Palaeohexaploid ancestry for Caryophyllales inferred from extensive gene-based physical and genetic mapping of the sugar beet genome (Beta vulgaris).
Dohm JC, Lange C, Holtgrawe D, Sorensen TR, Borchardt D, Schulz B, Lehrach H, Weisshaar B, Himmelbauer H., Plant J. 70(3), 2012
PMID: 22211633
The grapevine genome sequence suggests ancestral hexaploidization in major angiosperm phyla.
Jaillon O, Aury JM, Noel B, Policriti A, Clepet C, Casagrande A, Choisne N, Aubourg S, Vitulo N, Jubin C, Vezzi A, Legeai F, Hugueney P, Dasilva C, Horner D, Mica E, Jublot D, Poulain J, Bruyere C, Billault A, Segurens B, Gouyvenoux M, Ugarte E, Cattonaro F, Anthouard V, Vico V, Del Fabbro C, Alaux M, Di Gaspero G, Dumas V, Felice N, Paillard S, Juman I, Moroldo M, Scalabrin S, Canaguier A, Le Clainche I, Malacrida G, Durand E, Pesole G, Laucou V, Chatelet P, Merdinoglu D, Delledonne M, Pezzotti M, Lecharny A, Scarpelli C, Artiguenave F, Pe ME, Valle G, Morgante M, Caboche M, Adam-Blondon AF, Weissenbach J, Quetier F, Wincker P; French-Italian Public Consortium for Grapevine Genome Characterization., Nature 449(7161), 2007
PMID: 17721507
PSEUDO-RESPONSE REGULATORS 9, 7, and 5 are transcriptional repressors in the Arabidopsis circadian clock.
Nakamichi N, Kiba T, Henriques R, Mizuno T, Chua NH, Sakakibara H., Plant Cell 22(3), 2010
PMID: 20233950
Pseudo-Response Regulators (PRRs) or True Oscillator Components (TOCs).
Mizuno T, Nakamichi N., Plant Cell Physiol. 46(5), 2005
PMID: 15767264
An expanding universe of circadian networks in higher plants.
Pruneda-Paz JL, Kay SA., Trends Plant Sci. 15(5), 2010
PMID: 20382065
Coincident light and clock regulation of pseudoresponse regulator protein 37 (PRR37) controls photoperiodic flowering in sorghum.
Murphy RL, Klein RR, Morishige DT, Brady JA, Rooney WL, Miller FR, Dugas DV, Klein PE, Mullet JE., Proc. Natl. Acad. Sci. U.S.A. 108(39), 2011
PMID: 21930910
Regulation and identity of florigen: FLOWERING LOCUS T moves center stage.
Turck F, Fornara F, Coupland G., Annu Rev Plant Biol 59(), 2008
PMID: 18444908
A survey of EMS-induced biennial Beta vulgaris mutants reveals a novel bolting locus which is unlinked to the bolting gene B.
Buttner B, Abou-Elwafa SF, Zhang W, Jung C, Muller AE., Theor. Appl. Genet. 121(6), 2010
PMID: 20563790

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