Abstract
Whole-genome duplication (polyploidy) occurs frequently and repeatedly within species of plants. According to the source of the genomes giving origin to a polyploid plant species, these are classified into allopolyploid (when two or more genomes are combined through either intraspecific or interspecific hybridization) and autopolyploid (when a single genome becomes duplicated). According to the time period in which polyploidy occurred plant species are classified as paleopolyploid (ancient polyploids), mesopolyploid (less ancient polyploids), and neopolyploid (recent polyploids). Many plant species appearing as diploid are actually paleopolyploids (ancient polyploids) derived from at least one event of whole-genome duplication followed by a process known as diploidization, which consists in massive gene loss and genomic reorganization (diploidized paleopolyploids). Many polyploid species of plants have been shown to present morphological and physiological characteristics making them further attractive for industry than their lower ploidy level counterparts. Polyploidy is a fundamental but relatively underexplored biological process. With the aim of understanding the factors involved in the formation of polyploid plant species, many studies have been carried out on synthetic polyploidy obtained by mitotic inhibitors and hybridization. However, the rapid progress of genetic engineering techniques makes genetic modification (GM) to become a feasible strategy for obtaining polyploid plants. In this review we discuss advances made about factors known to influence plant polyploidy and we suggest that in a future, this knowledge could be used for generating polyploids in vitro by GM and for crop improvement.
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References
Acosta JAT, Fowke LC, Wang H (2011) Analyses of phylogeny, evolution, conserved sequences and genome-wide expression of the ICK/KRP family of plant CDK inhibitors. Ann Bot 107:1141–1157
Adachi S, Minamisawa K, Okushima Y, Inagaki S, Yoshiyama K, Kondou Y, Kaminuma E, Kawashima M, Toyoda T, Matsui M, Kurihara D, Matsunaga S, Umeda M (2011) Programmed induction of endoreduplication by DNA double-strand breaks in Arabidopsis. Proc Natl Acad Sci USA 108:10004–10009
Agashe B, Prasad CK, Siddiqi I (2002) Identification and analysis of DYAD: a gene required for meiotic chromosome organization and female meiotic progression in Arabidopsis. Development 129:3935–3943
Ahmad I, Hussain T, Nafees M, Maryam JM, Ashraf I, Fakhar-u-Zaman M, Iqbal M, Rafay M, Ruby T, Ali L (2013) Morphological dissimilarity between tetraploid and diploid watermelon (Citrullus lanatus Thunb). World Appl Sci J 21:858–861
Allario T, Brumos J, Colmero-Flores JM, Tadeo F, Froelicher Y, Talon M, Navarro L, Ollitrault P, Morillon R (2011) Large changes in anatomy and physiology between diploid Rangur lime (Citrus limonia) and its autotetraploid are not associated with large changes in leaf gene expression. J Exp Bot 62:2507–2519
Allario T, Brumos J, Colmenero-Flores JM, Iglesias DJ, Pina JA, Navarro L, Talon M, Ollitrault P, Morillon R (2013) Tetraploid Rangpur lime rootstock increases drought tolerance via enhanced constitutive root abscisic acid production. Plant Cell Environ 36:856–868
Amiri S, Kazemitabaar S, Ranjbar G, Azadbakht M (2010) The effect of trifluralin and colchicine treatments on morphological characteristics of jimsonweed (Datura Stramonium L.). Trakia J Sci 8:47–61
An F, Fan J, Li J, Li QX, Li K, Zhu W, Wen F, Carvalho LJCB, Chen S (2014) Comparison of leaf proteomes of cassava (Manihot esculenta Crantz) cultivar NZ199 diploid and autotetraploid genotypes. PLoS One. doi:10.1371/journal.pone.0085991
Andreuzza S, Siddiqi I (2008) Spindle positioning, meiotic nonreduction, and polyploidy in plants. PLoS Genet 4:e1000272
Ascough GD, Van Staden J, Erwin JE (2008) Effectiveness of colchicine and oryzalin at inducing polyploidy in Watsonia lepida NE Brown. HortScience 43:2248–2251
Aversano R, Ercolano MR, Caruso I, Fasano C, Rosellini D, Carputo D (2012) Molecular tools for exploring polyploid genomes in plants. Int J Mol Sci 13:10316–10335
Bao Z, Hua J (2014) Interaction of CPR5 with cell cycle regulators UVI4 and OSD1 in Arabidopsis. PLoS One 9:e100347
Barrows G, Sexton S, Zilberman D (2014) Agricultural biotechnology: the promise and prospects of genetically modified crops. J Econ Perspect 28:99–120
Bastiaanssen HJM, van den Berg PMMM, Lindhout P, Jacobsen E, Ramanna MS (1998) Postmeiotic restitution in 2n-egg formation of diploid potato. Heredity 81:20–27
Berckmans B, Lammens T, Van Den Daele H, Magyar Z, Bögre L, De Veylder L (2011) Light-dependent regulation of DEL1 is determined by the antagonistic action of E2Fb and E2Fc. Plant Physiol 157:1440–1451
Bertin N (2005) Analysis of the tomato fruit growth response to temperature and plant fruit load in relation to cell division, cell expansion and DNA endoreduplication. Ann Bot 95:439–447
Bevan MW, Uauy C (2013) Genomics reveals new landscapes for crop improvement. Genome Biol 14:206–217
Bezooijen CF, van Leeuw-Israel FR, de Hollander CF (1973) On the role of hepatic cell ploidy in changes in liver function with age and following partial hepatectomy. Mech Ageing Dev 1:351–356
Biradar DP, Rayburn AL, Bullock DG (1993) Endopolyploidy in diploid and tetraploid maize (Zea mays L.). Ann Bot 71:417–421
Bisbis B, Delmas F, Joube’s J, Sicard A, Hernould M, Inze D, Mouras A, Chevalier C (2006) Cyclin-dependent kinase (CDK) inhibitors regulate the CDK-cyclin complex activities in endoreduplicating cells of developing tomato fruit. J Biol Chem 281:7374–7383
Bishop GJ, Koncz C (2002) Brassinosteroids and plant steroid hormone signaling. Plant Cell 14:97–110
Blanc G, Hokamp K, Wolfe KH (2003) A recent polyploidy superimposed on older large-scale duplications in the Arabidopsis genome. Genome Res 13:137–144
Blilou I, Xu J, Wildwater M, Willemsen V, Paponov I, Friml J, Heidstra R, Aida M, Palme K, Scheres B (2005) The PIN auxin efflux facilitator network controls growth and patterning in Arabidopsis roots. Nature 433:39–44
Borowska-Wykręt D, Elsner J, De Veylder L, Kwiatkowska D (2013) Defects in leaf epidermis of Arabidopsis thaliana plants with CDKA;1 activity reduced in the shoot apical meristem. Protoplasma 250:955–961
Boruc J, Mylle E, Duda M, De Clercq R, Rombauts S, Geelen D, Hilson P, Inzé D, Van Damme D, Russinova E (2010) Systematic localization of the Arabidopsis core cell cycle proteins reveals novel cell division complexes. Plant Physiol 152:553–565
Brochmann C, Brysting AK, Alsos IG, Borgen L, Grundt HH, Scheen AC, Elven R (2004) Polyploid in artic plants. Biol J Linnean Soc 82:521–536
Brownfield L, Kohler C (2011) Unreduced gamete formation in plants: mechanisms and prospects. J Exp Bot 62:1659–1668
Bulankova P, Akimcheva S, Fellner N, Riha K (2013) Identification of Arabidopsis meiotic cyclins reveals functional diversification among plant cyclin genes. PLoS Genet 9:e1003508
Cardi T (1998) Multivariate analysis of variation among Solanum commersonii (+) S. tuberosum somatic hybrids with different ploidy levels. Euphytica 99:35–41
Cebolla A, Vinardell JM, Kiss E, Olah B, Roudier F, Kondorosi A, Kondorosi E (1999) The mitotic inhibidor ccs52 is required for endoreduplication and ploidy dependent cell enlargement in plants. EMBO J 18:4476–4484
Chang L, Ma H, Xue H-W (2009) Functional conservation of the meiotic genes SDS and RCK in male meiosis in the monocot rice. Cell Res 19:768–782
Chen Z (2010) Molecular mechanisms of polyploidy and hybrid vigor. Trends Plant Sci 15:57–71
Chen LP, Wang YJ, Zhao M (2006) In vitro induction and characterization of tetraploid Lychnis senno Siebold et Zucc. HortScience 41:759–761
Cheng ZH, Zhou XJ, Khan MA, Su L, Meng HW (2012) In vitro induction of tetraploid garlic with trifluralin. Genet Mol Res 11:2620–2628
Churchman ML, Brown ML, Kat N, Kir KV, Hulskamp M, Inzé D, De Veyler L, Walter JD, Zheng Z, Oppenheimer DG, Gwin T, Churchman J, Larkin JC (2006) SIAMESE, a plant-specific cell cycle regulator, controls endoreplication onset in Arabidopsis thaliana. Plant Cell 18:3145–3157
Colasanti J, Tyers M, Sundaresan V (1991) Isolation and characterization of cDNA clones encoding a functional p34cdc2 homologue from Zea mays. Proc Natl Acad Sci USA 88:3377–3381
Comai L (2005) The advantages and disadvantages of being polyploidy. Nat Rev Genet 6:836–846
Correa-Bordes J, Nurse P (1995) p25 rum1 orders S-phase and mitosis by acting as an inhibitor of the p34cdc2 mitotic kinase. Cell 83:1001–1009
Coudreuse D, Nurse P (2010) Driving the cell cycle with a minimal CDK control network. Nature 468:1074–1079
Coyne J, Orr H (2004) Speciation. Sinauer Associates Inc, Sunderland
Cromer L, Heyman J, Touati S, Harashima H, Araou E, Girard C, Horlow C, Wassmann K, Schnittger A, De Veylder L, Mercier R (2012) OSD1 promotes meiotic progression via APC/C inhibition and forms a regulatory network with TDM and CYCA1;2/TAM. PLoS Genet 8:e1002865
Cross SM, Sanchez CA, Morgan CA, Schimke MK, Ramel S, Ldzerda RL, Raskind WH, Reid BJ (1995) A p53-dependent mouse spindle checkpoint. Science 267:1353–1356
Cruz-Ramírez A, Díaz-Triviño S, Blilou I et al (2012) A bistable circuit involving SCARECROW-RETINOBLASTOMA integrates cues to inform asymmetric stem cell division. Cell 150:1002–1015
Curtin SJ, Voytas DF, Stupar RM (2012) Genome engineering of crops with designer nucleases. Plant Genome 5:42–50
d’Amato F (1984) Role of polyploidy in reproductive organs and tissues. In: Johri BM (ed) Embryology of angiosperms. Springer, Berlin, pp 519–566
d’Erfurth I, Jolivet S, Froger N, Catrice O, Novatchkova M, Simon M, Jenczewski E, Mercier R (2008) Mutations in AtPS1 (Arabidopsis thaliana Parallel Spindle 1) lead to the production of diploid pollen grains. PLoS Genet 4:e1000274
d’Erfurth I, Jolivet S, Froger N, Catrice O, Novatchkova M, Mercier R (2009) Turning meiosis into mitosis. PLoS Biol 7:e1000124
d’Erfurth I, Cromer L, Jolivet S, Girard C, Horlow C, Sun Y, To JPC, Berchowitz L, Copenhaver GP, Mercier R (2010) The CYCLIN-A CYCA1;2/TAM is required for the meiosis I to meiosis II transition and cooperates with OSD1 for the prophase to first meiotic division transition. PLoS Genet 6:e1000989
Dan H, Imaseki H, Wasteneys GO, Kazama H (2003) Ethylene stimulates endoreduplication but inhibits cytokinesis in cucumber hypocotyl epidermis. Plant Physiol 133:1726–1731
Dante RA, Sabelli PA, Nguyen HN, Leiva-Neto JT, Tao Y, Lowe KS, Hoerster GJ, Gordon-Kamm WJ, Jung R, Larkins BA (2014) Cyclin-dependent kinase complexes in developing maize endosperm: evidence for differential expression and functional specialization. Planta 239:493–509
Davey MW, Gudimella R, Harikrishna JA, Sin LW, Khalid N, Keulemans J (2013) A draft Musa balbisiana genome sequence for molecular genetics in polyploid, inter-and intra-specific Musa hybrids. BMC Genom 14:683–703
Day A, Goldschmidt-Clermont M (2011) The chloroplast transformation toolbox: selectable markers and marker removal. Plant Biotechnol J 9:540–553
De Jong M, Mariani C, Vriezen WH (2009) The role of auxin and gibberellin in tomato fruit set. J Exp Bot 60:1523–1532
De Smet I, White DJ, Bengough AC et al (2012) Analyzing lateral root development: how to move forward. Plant Cell 24:15–20
De Storme N, Geelen D (2013) Sexual polyploidization in plants—cytological mechanisms and molecular regulation. New Phytol 198:670–684
De Veylder L, Beeckman T, Inzé D (2007) The ins and outs of the plant cell cycle. Nat Rev Mol Cell Biol 8:655–665
Deng B, Du W, Liu C, Sun W, Tian S, Dong H (2012) Antioxidant response to drought, cold and nutrient stress in two ploidy levels of tobacco plants: low resource requirement confers polytolerance in polyploids? Plant Growth Regul 66:37–47
Dewitte W, Scofield S, Alcasabas AA, Maughan SC, Menges M, Braun N, Collins C, Nieuwland J, Prinsen E, Sundaresan V, Murray JAH (2007) Arabidopsis CYCD3 D-type cyclins link cell proliferation and endocycles and are rate-limiting for cytokinin responses. Proc Natl Acad Sci USA 104:14537–14542
Dhooghe E, Denis S, Eeckhaut T, Reheul D, Van Labeke MC (2009) In vitro induction of tetraploids in ornamental Ranunculus. Euphytica 168:33–40
Dick FA, Rubin SM (2013) Molecular mechanisms underlying RB protein function. Nat Rev Mol Cell Biol 14:297–306
Dissmeyer N, Nowack MK, Pusch S, Stals H, Inzé D, Grini PE, Schnittger A (2007) T-loop phosphorylation of Arabidopsis CDKA 1 is required for its function and can be partially substituted be an aspartate residue. Plant Cell 19:972–985
Doonan JH, Kitsios G (2009) Functional evolution of cyclin-dependent kinases. Mol Biotechnol 42:14–29
Dowrick GJ (1966) Breeding systems in tetraploid Rubus species. Genet Res 7:245–253
Dudareva N, Klempien A, Muhlemann JK, Kaplan I (2013) Biosynthesis, function and metabolic engineering of plant volatile organic compounds. New Phytol 198:16–32
Dudits D, Cserháti M, Miskolczi P, Horváth GV (2007) The growing family of plant cyclin-dependent kinases with multiple functions in cellular and developmental regulation. In: Inzé D (ed) Cell cycle control and plant development. Blackwell, Oxford, pp 1–30
Dunn BL, Lindstrom JT (2007) Oryzalin-induced chromosome doubling in Buddleja to facilitate interspecific hybridization. HortScience 42:1326–1328
Eeckhaut TGR, Werbrouck SPO, Leus LWH, Van Bockstaele EJ, Debergh PC (2004) Chemically induced polyploidization in Spathiphyllum wallisii Regel through somatic embryogenesis. Plant Cell Tissue Organ Cult 78:241–246
El-Morsy SI, Dorra MDM, El-Hady EAA, Hiaba AAA, Mohamed AY (2009) Comparative studies on Diploid and Tetraploid levels of Nicotiana alata. Acad J Plant Sci 2:182–188
El-Naby ZMA, Mohamed NA, Radwan KH, El-Khishin DA (2012) Colchicine induction of polyploidy in Egyptian clover genotypes. J Am Sci 8:221–227
Elyazid DMA, El-Shereif AR (2014) In vitro induction of polyploidy in Citrus reticulata Blanco. Am J Plant Sci 5:1679
Endo M, Mikami M, Toki S (2014) Multi-gene knockout utilizing off-target mutations of the CRISPR/Cas9 system in rice. Plant Cell. doi:10.1093/pcp/pcu154
Erfle H, Ventzki R, Voss H et al (2000) Sequence and analysis of chromosome 3 of the plant Arabidopsis thaliana. Nature 408:820–822
Feiler HS, Jacobs TW (1990) Cell division in higher plants: a cdc2 gene, its 34-kDa product, and histone H1 kinase activity in pea. Proc Natl Acad Sci 87:5397–5401
Feng Z, Zhang B, Ding W, Liu X, Yang D-L, Wei P, Cao F, Zhu S, Zhang F, Mao Y, Zhu J-K (2013) Efficient genome editing in plants using a CRISPR/Cas system. Cell Res 23:1229–1232
Ferreira P, Hemerly A, De Almeida Engler J, Bergounioux C, Burssens S, Van Montagu M, Engler G, Inzé D (1994) Three discrete classes of Arabidopsis cyclins are expressed during different intervals of the cell cycle. Proc Natl Acad Sci USA 91:11313–11317
Fernández A, Neffa VGS (2004) Genomic relationships between Turnera krapovickasii (2x, 4x) and T. ulmifolia (6x) (Turneraceae, Turnera). Caryologia 57:45–51
Finch RA, Bennett MD (1979) Action of triploid infucer (tri) on meiosis in barley (Hordeum vulgare L.). Heredity 43:87–93
Fobert PR, Gaudin V, Lunness P, Coen ES, Doonan JH (1996) Distinct classes of cdc2-related genes are differentially expressed during the cell division cycle in plants. Plant Cell 8:1465–1476
Francis D (2011) A commentary on the G2/M transition of the plant cell cycle. Ann Bot 107:1065–1070
Freeman D, Riou-Khamlichi C, Oakenfull EA, Murray JAH (2003) Isolation, characterization and expression of cyclin and cyclin-dependent kinase genes in Jerusalem artichoke (Helianthus tuberosus L.). J Exp Bot 54:303–308
Fulop K, Pettkó-Szandtner A, Magyar Z, Miskolczi P, Kondorosi E, Dudits D, Bakó L (2005) The Medicago CDKC;1-CYCLINT;1 kinase complex phosphorylates the carboxy-terminal domain of RNA polymerase II and promotes transcription. Plant J 42:810–820
Galitski T, Saldanha AJ, Styles CA, Lander ES, Fink GR (1999) Ploidy regulation of gene expression. Science 285:251–254
Gaut BS (2001) Patterns of chromosomal duplication in maize and their implications for comparative maps of the grasses. Genome Res 11:55–66
Gendreau E, Traas J, Desnos T, Grandjean O, Caboche M, Hofte H (1997) Cellular basis of hypocotyl growth in Arabidopsis thaliana. Plant Physiol 114:295–305
Gendreau E, Orbovic V, Höfte H, Traas J (1999) Gibberellin and ethylene control endoreduplication levels in the Arabidopsis thaliana hypocotyl. Planta 209:513–516
Gepts P (2002) A comparison between crop domestication, classical plant breeding, and genetic engineering. Crop Sci 42:1780–1790
Grafi G, Larkins BA (1995) Endoreduplication in maize endosperm: involvement of M phase-promoting factor inhibition and induction of S phase-related kinases. Science 269:1263–1264
Granier C, Inzé D, Tardieu F (2000) Spatial distribution of cell division rate can be deduced from that of p34 cdc2 kinase activity in maize leaves grown at contrasting temperaturas and soil water conditions. Plant Physiol 124:1393–1402
Greer E, Martín AC, Pendle A, Colas I, Jones AME, Moore G, Shaw P (2012) The Ph1 locus suppresses Cdk2-type activity during premeiosis and meiosis in wheat. Plant Cell 24:152–162
Guerra D, Wittmann MTS, Schwarz SF, de Souza PVD, Gonzatto MP, Weiler RL (2014) Comparison between diploid and tetraploid citrus rootstocks: morphological characterization and growth evaluation. Bragantia 73:1–7
Guo J, Kwon HK, Wang MH (2010) Characterization of three a-type cyclin genes in tomato (Solanum lycopersicum) treated with auxins. J Korean Soc Appl Biol Chem 53:266–274
Gutiérrez R, Quiroz-Figueroa F, Vázquez-Ramos JM (2005) Maize cyclin D2 expression, associated kinase activity and effect of phytohormones during germination. Plant Cell Physiol 46:166–173
Hahn MA, van Kleunen M, Müller-Schärer H (2012) Increased phenotypic plasticity to climate may have boosted the invasion success of polyploid Centaurea stoebe. PLoS One 7:e50284. doi:10.1371/journal.pone.0050284
Hajheidari M, Farrona S, Huettel B, Koncz Z, Koncz C (2012) CDKF;1 and CDKD protein kinases regulate phosphorylation of serine residues in the C-terminal domain of Arabidopsis RNA polymerase II. Plant Cell 24:1626–1642
Hamill SD, Smith MK, Dodd WA (1992) In vitro induction of banana autotetraploids by colchicine treatment of micropropagated diploids. Aust J Bot 40:887–896
Hao GY, Lucero ME, Sanderson SC, Zacharias EH, Holbrook NM (2013) Polyploidy enhances the occupation of heterogeneous environments through hydraulic related trade-offs in Atriplex canescens (Chenopodiaceae). New Phytol 197:970–978
Hashimoto J, Hirabayashi T, Hayano Y, Hata S, Ohashi Y, Suzuka I, Utsugi T, Toh EA, Kikuchi Y (1992) Isolation and characterization of cDNA clones encoding cdc2 homologues from Oryza sativa: a functional homologue and cognate variants. Mol Gen Genet 233:10–16
Hasnain R, Jaskani MJ, Mumtazkhun M, Malik TA (2003) In vitro induction of polyploids in watermelon and estimation based on DNA content. Int J Agric Biol 3:298–302
Hata S, Kouchi H, Suzuka I, Ishii T (1991) Isolation and characterization of cDNA clones for plant cyclins. EMBO J 10:2681–2688
Hemerly A, de Engler JA, Bergounioux C, Van Montagu M, Engler G, Inzé D, Ferreira P (1995) Dominant negative mutants of the Cdc2 kinase uncouple cell division from iterative plant development. EMBO J 14:3925–3936
Hirt H, Páy A, Györgyey J, Bakó L, Németh K, Bögre L, Schweyen RJ, Heberle-Bors E, Dudits D (1991) Complementation of a yeast cell cycle mutant by an alfalfa cDNA encoding a protein kinase homologous to p34cdc2. Proc Natl Acad Sci USA 88:1636–1640
Hou H, Atlihan N, Lu ZX (2014) New biotechnology enhances the application of cisgenesis in plant breeding. Front Plant Sci 5:1–5
Hsieh WL, Wolniak SM (1998) Isolation and characterization of a functional A-type cyclin from maize. Plant Mol Biol 37:121–129
Imai KK, Ohashi Y, Tsuge T, Yoshizumi T, Matsui M, Oka A, Aoyama T (2006) The A-type cyclin CYCA2;3 Is a key regulator of ploidy levels in Arabidopsis endoreduplication. Plant Cell 18:382–396
Ishida T, Adachi S, Yoshimura M, Shimizu K, Umeda M, Sugimoto K (2010) Auxin modulates the transition from the mitotic cycle to the endocycle in Arabidopsis. Development 137:63–71
Ito M, Marie-Claire C, Sakabe M, Ohno T, Hata S, Kouchi H, Hashimoto J, Fukuda H, Komamine A, Watanabe A (1997) Cell-cycle-regulated transcription of A- and B-type plant cyclin genes in synchronous cultures. Plant J 11:983–992
Iwata E, Ikeda S, Matsunaga S, Kurata M, Yoshioka Y, Criqui M-C, Genschik P, Ito M (2011) GIGAS CELL1, a novel negative regulator of the anaphase-promoting complex/cyclosome, is required for proper mitotic progression and cell fate determination in Arabidopsis. Plant Cell 23:4382–4393
Jang JC, Fujioka S, Tasaka M, Seto H, Takatsuto S, Ishii A, Aida M, Yoshida S, Sheen J (2000) A critical role of sterols in embryonic patterning and meristem programming revealed by the fackel mutants of Arabidopsis thaliana. Genes Dev 14:1485–1497
Jasinski S, Perennes C, Bergounioux C, Glab N (2002) Comparative molecular and functional analyses of the tobacco cyclin-dependent kinase inhibitor NtKIS1a and its spliced variant NtKIS1b1. Plant Physiol 130:1871–1882
Jin H, Cominelli E, Bailey P, Parr A, Mehrtens F, Jones J, Tonelli C, Weisshaar B, Martin C (2000) Transcriptional repression by AtMYB4 controls production of UV-protecting sunscreens in Arabidopsis. EMBO J 19:6150–6161
Joppa LR, Williams ND, Maan SS (1987) The cromosonal location of a gene (msg) affecting megasporogenesis in durum wheat. Genome 29:578–581
Joubès J, Phan TH, Just D, Rothan C, Bergounioux C, Raymond P, Chevalier C (1999) Molecular and biochemical characterization of the involvement of cyclin-dependent kinase A during the early development of tomato fruit. Plant Physiol 121:857–869
Joubès J, Walsh D, Raymond P, Chevalier C (2000) Molecular characterization of the expression of distinct classes of cyclins during the early development of tomato fruit. Planta 211:430–439
Kermani MJ, Sarasan V, Roberts AV, Yokoya K, Wentworth J, Sieber VK (2003) Oryzalin-induced chromosome doubling in Rosa and its effect on plant morphology and pollen viability. Theor Appl Genet 107:1195–1200
Kidou S-I, Umeda M, Uchimiya H (1994) Nucleotide sequence of rice (Oryza sativa L.) cDNA homologous to cdc2 gene. Mitocondrial DNA 5:125–129
Kochert G, Stalker HT, Gimenes M, Galgaro L, Lopes CR, Moore K (1996) RFLP and cytological evidence on the origin and evolution of allotetraploid domesticated peanut, Arachis hypogaea (Leguminosae). Am J Bot 83:1282–1291
Kovarik A, Dadejova M, Lim YK, Mark W, James C, Clarkson CJ, Knapp SY, Leitch AR (2008) Evolution of rDNA in Nicotiana allopolyploids: a potential link between rDNA homogenization and epigenetics. Ann Bot 101:815–823
Kvarnheden A, Albert VA, Engström P (1998) Molecular evolution of cdc2 pseudogenes in spruce (Picea). Plant Mol Biol 36:767–774
Lawrence RJ, Pikaard CS (2003) Transgene-induced RNA interference: a strategy for overcoming gene redundancy in polyploids to generate loss-of-function mutations. Plant J 36:114–121
Lee HO, Davidson JM, Duronio RJ (2013) Endoreplication: polyploidy with purpose. Genes Dev 23:2461–2477
Li JM, Chory J (1997) A putative leucine-rich repeat receptor kinase involved in brassinosteroid signal transduction. Cell 90:929–938
Li W, Biswas DK, Xu H, Xu C, Wang X, Liu J, Jiang G (2009a) Photosynthetic responses to chromosome doubling in relation to leaf anatomy in Lonicera japonica subjected to water stress. Funct Plant Biol 36:83–792
Li WF, Ding Q, Chen JJ, Cui KM, He XQ (2009b) Induction of PtoCDKB and PtoCYCB transcription by temperature during cambium reactivation in Populus tomentosa Carr. J Exp Bot 60:2621–2630
Li X, Yu E, Fan C, Zhang C, Fu T, Zhou Y (2012) Developmental, cytological and transcriptional analysis of autotetraploid Arabidopsis. Planta 236:579–596
Libbenga KR, Torrey JG (1973) Hormone induced endoreplication prior to mitosis in cultured pea root cells. Am J Bot 60:293–299
Lipavská H, Máskova P, Vojvodova P (2011) Regulatory dephosphorylation of CDK at G2/M in plants: yeast mitotic phosphatase cdc25 induces cytokinin-like effects in transgenic tobacco morphogenesis. Ann. Botany. 107:1071–1086
Liu S, Liu Y, Yang X et al (2014) The Brassica oleracea genome reveals the asymmetrical evolution of polyploid genomes. Nat Commun 5:1–11
Llop-Tous I, Barry C, Grierson D (2000) Regulation of ethylene biosynthesis in response to pollination in tomato flowers. Plant Physiol 123:971–978
Logemann E, Wu S-C, Schroder J, Schmelzer E, Somssich IE, Hahlbrock K (1995) Gene activation by UV light, fungal elicitor or fungal infection in Petroselinum crispum is correlated with repression of cell cycle-related genes. Plant J 8:865–876
Love J, Bjorklund S, Vahala J, Hertzberg M, Kangasjarvi J, Sundberg B (2009) Ethylene is an endogenus stimulator of cell division in the cambial meristem of populous. Proc Natl Acad Sci USA 106:5984–5989
Lui H, Wang H, Delong C, Fowke LC, Crosby WL, Fobert PR (2000) The Arabidopsis Cdc2a-interacting protein ICK2 is structurally related to ICK1 and is a potent inhibitor of cyclin-dependent kinase activity in vitro. Plant J 21:379–385
Lutz AM (1907) A preliminary note on the chromosomes of Oenothera lamarckiana and one of its mutants, O. gigas. Science 26:151–152
Lysak MA, Koch MA, Pecinka A, Schubert I (2005) Chromosome triplication found across the tribe Brassiceae. Genome Res 15:516–525
Madlung A (2013) Polyploid and its effect on evolutionary success: old questions revisited with new tools. Heredity 110:99–104
Magnard JL, Yang M, Chen YC, Leary M, Mccormick S (2001) The Arabidopsis gene Tardy Asynchromous Meiosis is required for the normal pace and synchrony of cell division during male meiosis. Plant Physiol 127:1157–1166
Magyar Z, Mészáros T, Miskolczi P, Deak M, Fehér A, Brown S, Kondorosi E, Athanasiadis A, Pongor S, Bilgin M, Bako L, Koncz C, Dudits D (1997) Cell cycle phase specificity of putative cyclin-dependent kinase variants in synchronized alfalfa cells. Plant Cell 9:223–235
Marshall A, Aalen RB, Audenaert D et al (2012) Tlackling drought stress: receptor-like kinases present new approaches. Plant cell 24:2262–2278
Mason AS, Nelson MN, Yan G, Cowling WA (2011) Production of viable male unreduced gametes in Brassica interspecific hybrids is genotype specific and stimulated by cold temperatures. BMC Plant Biol. doi:10.1186/1471-2229-11-103
Mavarez J, Salazar CA, Bermingham E, Salcedo C, Jiggins CD, Linares M (2006) Speciation by hybridization in Heliconius butterflies. Nature 441:868–871
McCoy TJ, Smith LY (1983) Genetics, cytology and crossing behavior of an alfalfa (Medicago sativa) mutant resulting in failure of the postmeiotic cytokinesis. Can J Genet Cytol 25:390–397
McNeilage MA, Considine JA (1989) Chromosome studies in some Actinidia taxa and implications for breeding. New Zeal J Bot 27:71–81
Meguro A, Sato Y (2014) Salicylic acid antagonizes abscisic acid inhibition of shoot growth and cell cycle progression in rice. Sci Rep. doi:10.1038/srep04555
Menges M, de Jager SM, Gruissem W, Murray JAH (2005) Global analysis of the core cell cycle regulators of Arabidopsis identifies novel genes, reveals multiple and highly specific profiles of expression and provides a coherent model for plant cell cycle control. Plant J 41:546–566
Mercier R, Vezon D, Bullier E, Motamayor JC, Sellier A, Lefèvre F, Pelletier G, Horlow C (2001) SWITCH1 (SWI1): a novel protein required for the establishment of sister chromatid cohesion and for bivalent formation at meiosis. Genes Dev 15:1859–1871
Miao GH, Hong Z, Verma DPS (1993) Two functional soybean genes encoding p34cdc2 protein kinases are regulated by different plant developmental pathways. Proc Natl Acad Sci USA 90:943–947
Moghe GD, Shiu S-H (2014) The causes and molecular consequences of polyploidy in flowering plants. Ann N Y Acad Sci 1320:16–34
Moreno S, Nurse P (1994) Regulation of progression through the G1 phase of the cell cycle by the rum gene. Nature 367:236–242
Muller D, Leyser O (2011) Auxin, cytokinin and the control of shoot branching. Ann Bot 107:1203–1212
Neiman M, Kay AD, Krist AC (2013) Can resource cost of polyploidy provide an advantage to sex? Heredity 110:152–159
Ng S, Giraud E, Duncan O et al (2013) Cyclin-dependent kinase E;1 (CDKE;1) provides a cellular switch in plants between growth and stress responses. J Biol Chem 288:3449–3459
Nieuwland J, Maughan S, Dewitte W, Scofield S, Sanz L, Murray JAH (2009) The D-type cyclin CYCD4;1 modulates lateral root density in Arabidopsis by affecting the basal meristem region. Proc Natl Acad Sci USA 106:22528–22533
Ning GG, Shi XP, Hu HR, Yan Y, Bao MZ (2009) Development of a range of polyploid lines in petunia hybrida and the relationship of ploidy with the single-/double-flower trait. HortScience 44:250–255
Pak HY, Ashdjian V, Yokota SB, Teplitz RL (1982) Quantitative DNA determination by image analysis. Anal Quant Cytol Histol 4:95–98
Pécrix Y, Rallo G, Folzer H, Cigna M, Gudin S, Le Bris M (2011) Polyploidization mechanisms: temperature environment can induce diploid gamete formation in Rosa sp. J Exp Bot 62:3587–3597
Perraza D, Vachon G, Herzog M (1998) Gibberellins promote trichome formation by up-regulating GLABROUS1 in Arabidopsis. Plant Physiol 117:375–383
Pradeepkumar T (2011) Characterization of M1 generation of polyploids in watermelon variety ‘Sugar Baby’. Rep Cucurbit Genet Coop 33–34:44–46
Premachandran MN, Prathima PT, Lekshmi M (2011) Sugarcane and polyploidy a review. J Sugarcane Res 1:1–15
Qin LX, Richard L, Perennes C, Gadal P, Bergounioux C (1995) Identification of a cell cycle-related gene, cyclin, in Nicotiana tabacum (L). Plant Physiol 108:425–426
Quiroz-Figueroa F, Vázquez-Ramos JM (2006) Expression of maize D-type cyclins: comparison, regulation by phytohormones during seed germination and description of a new D cyclin. Physiol Plant 128:556–568
Ramanna MS, Jacobsen E (2003) Relevance of sexual polyploidization for crop improvement: a review. Euphytica 133:3–18
Rambani A, Page JT, Udall JA (2014) Polyploidy and the petal transcriptome of Gossypium. BMC Plant Biol. doi:10.1186/1471-2229-14-3
Ramsey J, Schemske DW (1998) Pathways, mechanisms, and rates of polyploid formation in flowering plants. Annu Rev Ecol Syst 29:467–501
Rauf S, Khan IF, Khan FA (2006) Colchicines-induced tetraploidy and changes in allele frecuencies in colchicines-treated opulations of diploids assessed with RAPD markers in Gossypium arboretum L. Turk J Biol 30:93–100
Reichheld JP, Chaubet N, Shen WH, Renaudin JP, Gigot C (1996) Multiple A-type cyclins express sequentially during the cell cycle in Nicotiana tabacum BY2 cells. Proc Natl Acad Sci USA 93:13819–13824
Renaudin JP, Colasanti J, Rime H, Yuan Z, Sundaresan V (1994) Cloning of four cyclins from maize indicates that higher plants have three structurally distinct groups of mitotic cyclins. Proc Natl Acad Sci USA 91:7375–7379
Rieseberg LH, Raymond O, Rosenthal DM, Lai Z, Livingstone K et al (2003) Major ecological transitions in wild sunflowers facilitated by hybridization. Science 301:1211–1216
Riou-Khamlichi C, Huntley R, Jacqmard A, Murray JAH (1999) Cytokinin activation of Arabidopsis cell division through a D-type cyclin. Science 283:1541–1544
Riou-Khamlichi C, Menges M, Healy JMS, Murray JAH (2000) Sugar control of the plant cell cycle: differential regulation of Arabidopsis D-type cyclin gene expression. Mol Cell Biol 20:4513–4521
Rose JB, Kubba J, Tobutt KR (2000) Chromosome doubling in sterile Syringa vulgaris x S. pinnatifolia hybrids by in vitro culture of nodal explants. Plant Cell Tissue Org Cult 63:127–132
Rubuluza T, Nikolova RV, Smith MT, Hannweg K (2007) In vitro induction of tetraploids in Colophospermum mopane by colchicine. S Afr J Bot 73:259–261
Sakurai A, Fujioka S (1993) The current status of physiology and biochemistry of brassinosteroids. Plant Growth Regul 13:147–159
Salles Pio LA, Pasqual M, De Oliveira e silva S, Souza Rocha H, Mara Magalhaes H, de Almeida Santos Serejo J (2014) Inducing and identifying artificially-induced polyploidy in bananas. Afr J Biotech 13:3748–3758
Samala S, Te-chato S (2012) Ploidy induction through secondary somatic embryo (SSE) of oil palm by colchicine treatment. J Agric Technol 8:337–352
Sanz L, Dewitte W, Forzani C et al (2011) The Arabidopsis D-type cyclin CYCD2;1 and the inhibitor ICK2/KRP2 modulate auxin-induced lateral root formation. Plant Cell 23:641–660
Sasabe M, Kosetsu K, Hidaka M, Murase A, Machida Y (2011) Arabidopsis thaliana MAP65-1 and MAP65-2 function redundantly with MAP65-3/PLEIADE in cytokinesis downstream of MPK4. Plant Signal Behav 6:743–747
Satterwhite LL, Lohka MJ, Wilson KL, Scherson TY, Cisek LJ, Corden JL, Pollard TD (1992) Phosphorylation of myosin-II regulatory light chain by cycin-p34cdc2: a mechanism for the timing of cytokinesis. J Cell Biol 118:595–605
Sawin KE, Mitchison TJ (1995) Mutations in the kinesin-like protein Eg5 disrupting localization to the mitotic spindle. Proc Natl Acad Sci USA 92:4289–4293
Schuppler U, He PH, John PC, Munns R (1998) Effect of water stress on cell division and cell-division-cycle 2-like cell cycle kinase activity in wheat leaves. Plant Physiol 117:667–678
Schweizer L, Yerk-Davis GL, Phillips RL, Srienc F, Jones RJ (1995) Dynamic of maize endosperm development and DNA endoreduplication. Proc Natl Acad Sci USA 92:7070–7074
Setiady YY, Sekine M, Hariguchi N, Kouchi H, Shinmyo A (1996) Molecular cloning and characterization of a cDNA clone that encodes a Cdc2 homolog from Nicotiana tabacum. Plant Cell Physiol 37:369–376
Shafieizargar A, Awang Y, Juraimi AS, Othman R (2013) Comparative studies between diploid and tetraploid Dez Orange (Citrus sinensis (L.) Osb.) under salinity stress. Aust J Crop Sci 7:1436–1441
Shimizu S, Mori H (1998) Analysis of cycles of dormancy and growth in pea axillary buds based on mRNA accumulation patterns of cell cycle-related genes. Plant Cell Physiol 39:255–262
Shukla VK, Doyon Y, Miller JC et al (2009) Precise genome modification in the crop species Zea mays using zinc-finger nucleases. Nature 459:437–441
Siddiqi I, Ganesh G, Grossniklaus U, Subbiah V (2000) The dyad gene is required for progression through female meiosis in Arabidopsis. Development 127:197–207
Smolarkiewickz M, Dhonukshe P (2013) Formative cell divisions: principal determinants of Plant morphogenesis. Plant Cell Physiol 54:333–342
Smulders MJM, Rus-Kortekaas W, Gilissen LJW (1994) Development of polysomaty during differentiation in diploid and tetraploid tomato (Lycopersiconesculentum) plants. Plant Sci 97:53–60
Soltis DE, Soltis PS (1999) Polyploidy: recurrent formation and genome evolution. Trends Ecol Evol 14:348–352
Sorrell DA, Menges M, Healy JMS, Deveaux Y, Amano C, Su Y, Nakagami H, Shinmyo A, Doonan JH, Sekine M, Murray JA (2001) Cell cycle regulation of cyclin-dependent kinases in tobacco cultivar bright yellow-2 cells. Plant Physiol 126:1214–1223
Sozzani R, Cui H, Moreno-Risueno MA, Busch W, Van Norman JM, Vernoux T, Brady SM, Dewitte W, Murray JA, Benfey PN (2010) Spatiotemporal regulation of cell-cycle genes by SHORTROOT links patterning and growth. Nature 466:128–132
Srinivasan C, Dardick C, Callahan A, Scorza R (2012) Plum (Prunus domestica) trees transformed with poplar FT1 result in altered architecture, dormancy requirement, and continuous flowering. PLoS One 7:e40715
Srivastava A, Handa AK (2005) Hormonal regulation of tomato fruit development: a molecular perspective. Plant Growth Regul 24:67–82
Sterken R, Kiekens R, Coppens E, Vercauteren I, Zabeau M, Inzé D, Flowers J, Vuylsteke M (2009) A population genomics study of the Arabidopsis core cell cycle genes shows the signature of natural selection. Plant Cell 21:2987–2998
Sun Y, Flannigan BA, Setter TL (1999) Regulation of endoreduplication in maize (Zea mays L.) endosperm. Isolation of a novel B1-type cyclin and its quantitative analysis. Plant Mol Biol 41:245–258
Sweigart AL, Martin NH, Willis JH (2008) Patterns of nucleotide variation and reproductive isolation between a Mimulus allotetraploid and its progenitor species. Mol Ecol 17:2089–2100
Tamayo-Ordóñez YJ, Narváez-Zapata JA, Sánchez-Teyer LF (2015) Comparative characterization of ribosomal DNA regions in different agave accessions with economical importance. Plant Mol Biol Rep. doi:10.1007/s11105-015-0895-5
Tank JG, Thaker VS (2011) Cyclin dependent kinases and their role in regulation of plant cell cycle. Biol Plant 55:201–212
Teoh SB (1984) Polyploid spore formation in diploid orchid species. Genetica 63:53–59
Theologis A, Ecker JR, Palm CJ et al (2000) Sequence and analysis of chromosome 1 of the plant Arabidopsis thaliana. Nature 408:816–820
Tiwari SB, Hagen G, Guilfoyle T (2003) The roles of auxin response efector domains in auxin–responsive transcription. Plant cell 15:533–543
Travella S, Klimm TE, Keller B (2006) RNAi based gene silencing as an efficient tool for functional genomics in hexaploid bread wheat (Triticum aestivum L.). Plant Physiol 142:6–20
Tréhin C, Planchais S, Glab N, Perennes C, Tregear J, Bergounioux C (1998) Cell cycle regulation by plant growth regulators: involvement of auxin and cytokinin in the re-entry of Petunia protoplasts into the cell cycle. Planta 206:215–224
Trojak-Goluch A, Skomra U (2013) Artificially induced polyploidization in Humulus lupulus L. and its effect on morphological and chemical traits. Breed Sci 63:393–399
Tu Y, Jiang A, Gan L, Hossain M, Zhang J, Peng B, Xiong Y, Song Z, Cai D, Xu W, Zhang J, He Y (2014) Genome duplication improves rice root resistance to salt stress. Rice. doi:10.1186/s12284-014-0015-4
Tupper WW, Bartlett HH (1916) A comparison of the wood structure of Oenothera stenomeres and its tetraploid mutation gigas. Genetics 1:177
Umeda M, Shimotohno A, Yamaguchi M (2005) Control of cell division and transcriptionby cyclin-dependent kinase activating kinases in plants. Plant Cell Physiol 46:1437–1442
Upadhyay SK, Kumar J, Alok A, Tuli R (2013) RNA guided genome editing for target gene mutations in wheat. G3 3:2233–2238
Urwin NAR (2014) Generation and characterization of colchicine-induced polyploid Lavandula × intermedia. Euphytica 197:331–339
Van Laere K, França SC, Vansteenkiste H, Van Huylenbroeck J, Steppe K, Van Labeke M-C (2011) Influence of ploidy level on morphology, growth and drought susceptibility in Spathiphyllum wallisii. Acta Physiol Plant 33:1149–1156
Van Oosteveldt P, Van Parijs R (1975) Effect of light on nucleic acid synthesis and polyploidy level in elongating epicotyl cells of Pisum sativum. Planta 124:287–295
Verkest A, Weinl C, Inzé D, De Veylder L, Schnittger A (2005) Switching the cell cycle. Kip-related proteins in plant cell cycle control. Plant Physiol 139:1099–1106
Verma C, Nanda S, Singh RK, Singh RB, Mishra S (2011) A review on impacts of genetically modified food on human health. Open Nutraceuticals J 4:3–11
Vision TJ, Brown DG, Tanksley SD (2000) The origins of genomic duplications in Arabidopsis. Science 290:2114–2117
Wagenaar EB (1968) Meoitic restitution and the origin of polyploidy. II. Prolonged duration of metaphase I as causal factor of restitution induction. Can J Genet Cytol 10:844–852
Wang H, Fowke LC, Crosby WL (1997) A plant cyclin-dependent kinase inhibitor gene. Nature 386:451–452
Wang G, Kong H, Sun Y, Zhang X, Zhang W, Altman N, dePamphilis CW, Ma H (2004) Genome-wide analysis of the cyclin family in Arabidopsis and comparative phylogenetic analysis of plant cyclin-like proteins. Plant Physiol 135:1084–1099
Wang B, Ding Z, Liu W, Pan J, Li C, Ge S, Zhang D (2009) Polyploid evolution in Oryza officinalis complex of the genus Oryza. BMC Evol Biol 9:250
Wang Z, Wang M, Liu L, Meng F (2013) Physiological and proteomic responses of diploid and tetraploid black locust (Robinia pseudoacacia L.) subjected to salt stress. Int J Mol Sci 14:20299–20325
Wang S, Wong D, Forrest K (2014) Characterization of polyploid wheat genomic diversity using a high-density 90 000 single nucleotide polymorphism array. Plant Biotechnol J 12:787–796
Weingartner M, Criqui MC, Mészáros T, Binarova P, Schmit AC, Helfer A, Derevier A, Erhardt M, Bogre L, Genschik P (2004) Expression of a nondegradable cyclin B1 affects plant development and leads to endomitosis by inhibiting the formation of a phragmoplast. Plant Cell 16:643–657
Wendel JF (2000) Genome evolution in polyploids. Plant Mol Biol 42:225–249
Wolfe KH (2001) Yesterday’s polyploidization and the mystery of diploidization. Nat Rev Genet 2:333–341
Wu JH, Ferguson AR, Murray BG, Jia Y, Datson PM, Zhang J (2012) Induced polyploidy dramatically increases the size and alters the shape of fruit in Actinidia chinensis. Ann Bot 109:169–179
Xing SH, Guo XB, Wang Q et al (2011) Induction and flow cytometry identification of tetraploids from seed-derived explants through colchicine treatments in Catharanthus roseus (L.) G. Don. Biomed Res Int 2011:793198
Xu B, Sathitsuksanoh N, Tang Y, Udvardi MK, Zhang JY, Shen Z, Balota M, Harich K, Zhang PYH, Zhao B (2012) Overexpression of AtLOV1 in switchgrass alters plant architecture, lignin content, and flowering time. PLoS One 7:e47399
Yang R, Tang Q, Wang H, Zhang X, Pan G, Wang H, Tu J (2011) Analyses of two rice (Oryza sativa) cyclin-dependent kinase inhibitors and effects of transgenic expression of OsiICK6 on plant growth and development. Ann Bot 107:1087–1101
Yang C, Zhao L, Zhang H, Yang Z, Wang H, Wen S, Zhang C, Rustgi S, von Wettstein D, Liu B (2014) Evolution of physiological responses to salt stress in hexaploid wheat. Proc Natl Acad Sci USA 111:11882–11887
Ye YM, Tong J, Shi XP, Yuan W, Li GR (2010) Morphological and cytological studies of diploid and colchicine-induced tetraploid lines of crape myrtle Lagerstroemia indica L. Sci Hort 124:95–101
Yousafzai FK, Al-Kaff N, Moore G (2010) Structural and functional relationship between the Ph1 locus protein 5B2 in wheat and CDK2 in mammals. Funct Integr Genomics 10:157–166
Yu J, Wang J, Lin W, Li S, Li H et al (2005) The genomes of Oryza sativa: a history of duplications. PLoS Biol 3:e38
Zhang K, Letham DS, John PC (1996) Cytokinin controls the cell cycle at mitosis by stimulating the tyrosine dephosphorylation and activation of p34cdc2-like H1 histone kinase. Planta 200:2–12
Zheng T, Nibau C, Phillips DW, Jenkins G, Armstrong SJ, Doonan JH (2014) CDKG1 protein kinase is essential for synapsis and male meiosis at high ambient temperature in Arabidopsis thaliana. Proc Natl Acad Sci USA 111:2182–2187
Zhiponova MK, Pettko-Szandtner A, Stelkovics É, Neer Z, Bottka S, Krenacs T, Dudits D, Fehér A, Szilak L (2006) Mitosis-specific promoter of the alfalfa cyclin-dependent kinase gene (Medsa;CDKB2;1) is activated by wounding and ethylene in a non-cell division-dependent manner. Plant Physiol 140:693–703
Zlesak DC, Thill CA, Anderson NO (2005) Trifluralin-mediated polyploidization of Rosa chinensis minima (Sims) Voss. Euphytica 141:281–290
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Tamayo-Ordóñez, M.C., Espinosa-Barrera, L.A., Tamayo-Ordóñez, Y.J. et al. Advances and perspectives in the generation of polyploid plant species. Euphytica 209, 1–22 (2016). https://doi.org/10.1007/s10681-016-1646-x
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DOI: https://doi.org/10.1007/s10681-016-1646-x