This review summarizes older as well as recent data about the model dioecious plant Silene latifolia. This plant has been the subject of more than one hundred years of research efforts and its most conspicuous property is huge and well differentiated heteromorphic sex chromosomes, XX in females and XY in males. Due to this property the S. latifolia sex chromosomes have been often used for cytogenetic studies as well as for flow sorting and laser microdissection. Nowadays S. latifolia is the focus of genomic studies, molecular mapping, phylogenetic and population genetics analyses.

1.
Allis CD, Jenuwein T, Reinberg D (eds): Epigenetics (Cold Spring Harbor Laboratory Press, Cold Spring Harbor 2007).
2.
Armstrong SJ, Filatov DA: A cytogenetic view of sex chromosome evolution in plants. Cytogenet Genome Res 120:241–246 (2008).
3.
Atanassov I, Delichere C, Filatov DA, Charlesworth D, Negrutiu I, Moneger F: A putative monofunctional fructose-2,6-bisphosphate gene is located on X and Y sex chromosomes in white campion (Silene latifolia). Mol Biol Evol 18:2162–2168 (2001).
4.
Barbacar N, Hinnisdaels S, Farbos I, Moneger F, Lardon A, et al: Isolation of early genes expressed in reproductive organs of the dioecious white campion (Silene latifolia) by subtraction cloning using an asexual mutant. Plant J 12:805–817 (1997).
5.
Bergero R, Forrest A, Kamau E, Charlesworth D: Evolutionary strata on the X chromosomes of the dioecious plant Silene latifolia: evidence from new sex-linked genes. Genetics 175:1945–1954 (2007).
6.
Bergero R, Forrest A, Charlesworth D: Active miniature transposons from a plant genome and its nonrecombining Y chromosome. Genetics 178:1085–1092 (2008a).
7.
Bergero R, Charlesworth D, Filatov DA, Moore RC: Defining regions and rearrangements of the Silene latifolia Y chromosome. Genetics 178:2045–2053 (2008b).
8.
Bernasconi G, Antonovics J, Biere A, Charlesworth D, Delph LF, et al: Silene as a model system in ecology and evolution. Heredity 103:5–14 (2009).
9.
Blackburn KB: Sex chromosomes in plants. Nature 112:687–688 (1923).
10.
Blackburn KB: The cytological aspects of the determination of sex in the dioecious forms of Lychnis. Brit J Exp Biol 1:413–429 (1924).
11.
Bureau TE, Wessler SR: Stowaway: a new family of inverted repeat elements associated with the genes of both monocotyledonous and Dicotyledonous plants. Plant Cell 6:907–916 (1994).
12.
Buzek J, Koutnikova H, Houben A, Riha K, Janousek B, et al: Isolation and characterization of X chromosome-derived DNA sequences from a dioecious plant Melandrium album. Chromosome Res 5:57–65 (1997).
13.
Cermak T, Kubat Z, Hobza R, Koblizkova A, Widmer A, et al: Survey of repetitive sequences in Silene latifolia with respect to their distribution on sex chromosomes. Chromosome Res 16:961–976 (2008).
14.
Ciupercescu DD, Veuskens J, Mouras A, Ye D, Briquet M, Negrutiu I: Karyotyping Melandrium album, a dioecious plant with heteromorphic sex chromosomes. Genome 33:556–562 (1990).
15.
Correns C: Handbuch der Vererbungswissenschaft, Vol 2 (Baur and Hartmann, Berlin 1928).
16.
Costich DE, Meagher TR, Yurkow EJ: A rapid means of sex identification in Silene latifolia by use of flow cytometry. Plant Mol Biol Rep 9:359–370 (1991).
17.
Cubas P, Vincent C, Coen E: An epigenetic mutation responsible for natural variation in floral symmetry. Nature 401:157–161 (1999).
18.
Delichere C, Veuskens J, Hernould M, Barbacar N, Mouras A, et al: SlY1, the first active gene cloned from a plant Y chromosome, encodes a WD-repeat protein. EMBO J 18:4169–4179 (1999).
19.
Donnison IA, Siroky J, Vyskot B, Seadler H, Grant SR: Isolation of Y chromosome-specific sequences from Silene latifolia and mapping of male sex determining genes using representational difference analysis. Genetics 144:1893–1901 (1996).
20.
Duret L, Marais G, Biemont C: Transposons but not retrotransposons are located preferentially in regions of high recombination rate in Caenorhabditis elegans. Genetics 156:1661–1669 (2000).
21.
Farbos I, Veuskens J, Vyskot B, Oliveira M, Hinnisdaels S, et al: Sexual dimorphism in white campion: Deletion on the Y chromosome results in a floral asexual phenotype. Genetics 151:1187–1196 (1999).
22.
Filatov DA: Evolutionary history of Silene latifolia sex chromosomes revealed by genetic mapping of four genes. Genetics 170:975–979 (2005a).
23.
Filatov DA: Substitution rates in a new Silene latifolia sex-linked gene, SlssX/Y. Mol Biol Evol 22:402–408 (2005b).
24.
Garrido-Ramos MA, de la Herran R, Ruiz Rejon M, Ruiz Rejon C: A subtelomeric satellite DNA family isolated from the genome of the dioecious plant Silene latifolia. Genome 42:442–446 (1999).
25.
Grabowska-Joachimiak A, Joachimiak A: C-banded karyotypes of two Silene species with heteromorphic sex chromosomes. Genome 45:243–252 (2002).
26.
Grant S, Houben A, Vyskot B, Siroky J, Pan WH, et al: Genetics of sex determination in flowering plants. Devel Genet 15:214–230 (1994).
27.
Graves JAM: The rise and fall of SRY. Trends Genet 18:259–264 (2002).
28.
Hobza R, Lengerova M, Cernohorska H, Rubes J, Vyskot B: FAST-FISH with laser beam microdissected DOP-PCR probe distinguishes the sex chromosomes of Silene latifolia. Chromosome Res 12:245–250 (2004).
29.
Hobza R, Lengerova M, Svoboda J, Kubekova H, Kejnovsky E, Vyskot B: An accumulation of tandem DNA repeats on the Y chromosome in Silene latifolia during early stages of sex chromosome evolution. Chromosoma 115:376–382 (2006).
30.
Hobza R, Kejnovsky E, Vyskot B, Widmer A: The role of chromosomal rearrangements in the evolution of Silene latifolia sex chromosomes. Mol Genet Genomics 278:633–638 (2007).
31.
Howell EC, Armstrong SJ, Filatov DA: Evolution of neo-sex chromosomes in Silene diclinis. Genetics 182:1109–1115 (2009).
32.
Jacobsen SE, Meyerowitz EM: Hypermethylated SUPERMAN epigenetic alleles in Arabidopsis. Science 277:1100–1103 (1997).
33.
Janousek B, Siroky J, Vyskot B: Epigenetic control of sexual phenotype in a dioecious plant, Melandrium album. Mol Gen Genet 250:483–490 (1996).
34.
Janousek B, Mrackova M: Sex chromosomes and sex determination pathway dynamics in plant and animal models. Biol J Linnean Soc, in press (2010).
35.
Kazama Y, Sugiyama R, Matsunaga S, Shibata F, Uchida W, et al: Organization of the Kpn I family of chromosomal distal-end satellite DNAs in Silene latifolia. J Plant Res 116:317–326 (2003).
36.
Kazama Y, Sugiyama R, Suto Y, Uchida W, Kawano S: The clustering of four subfamilies of satellite DNA at individual chromosome ends in Silene latifolia. Genome 49:520–530 (2006).
37.
Kazama Y, Matsunaga S: The use of repetitive sequences in cytogenetic studies of plant sex chromosomes. Cytogenet Genome Res 120:247–254 (2008).
38.
Kazama Y, Fujiwara MT, Koizumi A, Nishihara K, Nishiyama R, et al: A SUPERMAN-like gene is exclusively expressed in female flowers of the dioecious plant Silene latifolia. Plant Cell Physiol 50:1127–1141 (2009).
39.
Kejnovsky E, Vrana J, Matsunaga S, Soucek P, Siroky J, et al: Localization of male-specifically expressed MROS genes of Silene latifolia by PCR on flow-sorted sex chromosomes and autosomes. Genetics 158:1269–1277 (2001).
40.
Kejnovsky E, Kubat Z, Macas J, Hobza R, Mracek J, Vyskot B: Retand: a novel family of gypsy-like retrotransposons harboring an amplified tandem repeat. Mol Genet Genomics 276:254–263 (2006a).
41.
Kejnovsky E, Kubat Z, Hobza R, Lengerova M, Sato S, et al: Accumulation of chloroplast DNA sequences on the Y chromosome of Silene latifolia. Genetica 128:167–175 (2006b).
42.
Kejnovsky E, Hobza R, Kubat Z, Widmer A, Marais GAB, Vyskot B: High intrachromosomal similarity of retrotransposon long terminal repeats: evidence for homogenization by gene conversion on plant sex chromosomes? Gene 390:92–97 (2007).
43.
Kejnovsky E, Hobza R, Cermak T, Vyskot B: The role of repetitive DNA in structure and evolution of sex chromosomes in plants. Heredity 102:533–541 (2009a).
44.
Kejnovsky E, Leitch IJ, Leitch AR: Contrasting evolutionary dynamics between angiosperm and mammalian genomes. Trend Ecol Evol 24:572–582 (2009b).
45.
Kubat Z, Hobza R, Vyskot B, Kejnovsky E: Microsatellite accumulation on the Y chromosome in Silene latifolia. Genome 51:350–356 (2008).
46.
Lahn BT, Page DC: Retroposition of autosomal mRNA yielded testis-specific gene family on human Y chromosome. Nature Genet 21:429–433 (1999).
47.
Lardon A, Georgiev S, Aghmir A, Merrer GL, Negrutiu I: Sexual dimorphism in white campion: complex control of carpel number is revealed by Y chromosome deletions. Genetics 151:1173–1185 (1999).
48.
Lebel-Hardenack S, Ye D, Koutnikova H, Seadler H, Grant S: Conserved expression of a TASSELSEED2 homolog in the tapetum of the dioecious Silene latifolia and Arabidopsis thaliana. Plant J 12:515–526 (1997).
49.
Lebel-Hardenack S, Hauser E, Law TF, Schmid J, Grant SR: Mapping of sex determination loci on the white campion (Silene latifolia) Y chromosome using amplified fragment length polymorphism. Genetics 160:717–725 (2002).
50.
Lengerova M, Moore RC, Grant SR, Vyskot B: The sex chromosomes of Silene latifolia revisited and revised. Genetics 165:935–938 (2003).
51.
Lengerova M, Kejnovsky E, Hobza R, Macas J, Grant SR, Vyskot B: Multicolor FISH mapping of the dioecious model plant, Silene latifolia. Theor Appl Genet 108:1193–1199 (2004).
52.
Lim KY, Skalicka K, Koukalova B, Volkov RA, Matyasek R, et al: Dynamic changes in the distribution of a satellite homologous to intergenic 26–18S rDNA spacer in the evolution of Nicotiana. Genetics 166:1935–1946 (2004).
53.
Macas J, Navratilova A, Meszaros T: Sequence subfamilies of satellite repeats related to rDNA intergenic spacer are differentially amplified on Vicia sativa chromosomes. Chromosoma 112:152–158 (2003).
54.
Marais GAB, Nicolas M, Bergero R, Chambrier P, Kejnovsky E, et al: Evidence for degeneration of the Y chromosome in the dioecious plant Silene latifolia. Curr Biol 18:545–549 (2008).
55.
Markova M, Lengerova M, Zluvova J, Janousek B, Vyskot B: Karyological analysis of an interspecific hybrid between the dioecious Silene latifolia and the hermaphroditic S. viscosa. Genome 49:373–379 (2006).
56.
Markova M, Michu E, Vyskot B, Janousek B, Zluvova J: An interspecific hybrid as a tool to study phylogenetics relationship in plants. Chromosome Res 15:1051–1059 (2007).
57.
Matsunaga S, Kawano H, Takano H, Uchida H, Sakai A, et al: Isolation and developmental expression of male reproductive organ-specific genes in a dioecious campion, Melandrium album (Silene latifolia). Plant J 10:679–689 (1996).
58.
Matsunaga S, Kawano S, Kuroiwa T: MROS1, a male stamen-specific gene in the dioecious campion Silene latifolia is expressed in mature pollen. Plant Cell Physiol 38:499–502 (1997).
59.
Matsunaga S, Kawano S, Michimoto T, Higashiyama T, Nakao S, et al: Semi-automatic laser beam microdissection of the Y chromosome and analysis of Y chromosome DNA in a dioecious plant, Silene latifolia. Plant Cell Physiol 40:60–68 (1999).
60.
Matsunaga S, Yagisawa F, Yamamoto M, Uchida W, Nakao S, Kawano S: LTR retrotransposons in the dioecious plant Silene latifolia. Genome 45:745–751 (2002).
61.
Matsunaga S, Isono E, Kejnovsky E, Vyskot B, Dolezel J, et al: Duplicative transfer of a MADS box gene to a plant Y chromosome. Mol Biol Evol 20:1063–1068 (2003).
62.
Matsunaga S, Uchida W, Kejnovsky E, Isono E, Moneger M, et al: Characterization of two SEPALLATA MADS-box genes from the dioecious plant Silene latifolia. Sex Plant Reprod 17:189–193 (2004).
63.
Matsunaga S, Lebel-Hardenack S, Kejnovsky E, Vyskot B, Grant S, Kawano S: An anther- and petal-specific gene SlMF1 is a multicopy gene with homologous sequences on sex chromosomes. Genes Genet Systems 80:395–401 (2005).
64.
Matsunaga S: Sex chromosome-linked genes in plants. Genes Genet Syst 81:219–226 (2006).
65.
Moore RC, Kozyreva O, Lebel-Hardenack S, Siroky J, Hobza R, et al: Genetic and functional analysis of DD44, a sex-linked gene from the dioecious plant Silene latifolia, provides clues to early events in sex chromosome evolution. Genetics 163:321–334 (2003).
66.
Morgante M, Hanafey M, Powell W: Microsatellites are preferentially associated with nonrepetitive DNA in plant genomes. Nature Genet 30:194–200 (2002).
67.
Mrackova M, Nicolas M, Hobza R, Negrutiu I, Moneger F, et al: Independent origin of sex chromosomes in two species of the genus Silene. Genetics 179:1129–1133 (2008).
68.
Navajas-Perez R, de la Herran R, Lopez Gonzales G, Jamilena M, Lozano R, et al: The evolution of reproductive systems and sex-determining mechanisms within Rumex (Polygonaceae) inferred from nuclear and chloroplastidial sequence data. Mol Biol Evol 22:1929–1939 (2005).
69.
Negrutiu I, Vyskot B, Barbacar N, Georgiev S, Moneger F: Dioecious plants. A key to the early events of sex chromosome evolution. Plant Physiol 127:1418–1424 (2001).
70.
Nicolas M, Marais G, Hykelova V, Janousek B, Laporte V, et al: A gradual and ongoing process of recombination restriction in the evolutionary history of the sex chromosomes in dioecious plants. PLoS Biol 3:47–56 (2005).
71.
Obara M, Matsunaga S, Nakao S, Kawano S: A plant Y chromosome-STS marker encoding a degenerate retrotransposon. Genes Genet Systems 77:393–398 (2002).
72.
Pritham EJ, Zhang YH, Feschotte C, Kesseli RV: An Ac-like transposable element family with transcriptionally active Y-linked copies in the white campion, Silene latifolia. Genetics 165:799–807 (2003).
73.
Roy AM, Carroll ML, Nguyen SV, Salem AH, Oldridge M, et al: Potential gene conversion and source genes for recently integrated Alu elements. Genome Res 10:1485–1495 (2000).
74.
Steinemann S, Steinemann M: Y chromosomes: born to be destroyed. Bioessays 27:1076–1083 (2005).
75.
Sykorova E, Fajkus J, Mikako I, Fukui K: Transition between two forms of heterochromatin at plant subtelomeres. Chromosome Res 9:309–323 (2001).
76.
Uchida W, Matsunaga S, Sugiyama R, Shibata F, Kazama Y, et al: Distribution of interstitial telomere-like repeats and their adjacent sequences in a dioecious plant, Silene latifolia. Chromosoma 111:313–320 (2002).
77.
Vagera J, Paulikova D, Dolezel J: The development of male and female regenerants by in vitro androgenesis in dioecious plant Melandrium album. Ann Bot 73:455–459 (1994).
78.
Vyskot B, Araya A, Veuskens J, Negrutiu I, Mouras A: DNA methylation of sex chromosomes in a dioecious plant, Melandrium album. Mol Gen Genet 239:219–224 (1993).
79.
Vyskot B, Siroky J, Hladilova R, Belyaev ND, Turner BM: Euchromatic domains in plant chromosomes as revealed by H4 histone acetylation and early DNA replication. Genome 42:343–350 (1999).
80.
Vyskot B, Hobza R: Gender in plants: sex chromosomes are emerging from the fog. Trends Genet 20:432–438 (2004).
81.
Westergaard M: Aberrant Y chromosomes and sex expression in Melandrium album. Hereditas 32:419–443 (1946).
82.
Westergaard M: The mechanism of sex determination in dioecious flowering plants. Adv Genet 9:217–281 (1958).
83.
Winge O: On the nature of sex chromosomes in Humulus. Hereditas 12:53–63 (1923).
84.
Winge O: X- and Y-linked inheritance in Melandrium. Hereditas 15:127–165 (1931).
85.
Yampolsky C, Yampolsky H: Distribution of the sex forms in the phanerogamic flora. Bibl Genet 3:1–62 (1922).
86.
Yu Q, Hou S, Hobza R, Feltus FA, Wang X, et al: Chromosomal location and gene paucity of the male specific region on papaya Y chromosome. Mol Genet Genomics 278:177–185 (2007).
87.
Zhu Y, Dai J, Fuerst PG, Voytas DF: Controlling integration specificity of a yeast retrotransposon. Proc Natl Acad Sci USA 100:5891–5895 (2003).
88.
Zluvova J, Lengerova M, Markova M, Hobza R, Nicolas M, et al: The inter-specific hybrid Silene latifolia × S. viscosa reveals early events of sex chromosome evolution. Evol Devel 7:327–336 (2005a).
89.
Zluvova J, Janousek B, Negrutiu I, Vyskot B: Comparison of the X- and Y-chromosome organisation in Silene latifolia. Genetics 170:1431–1434 (2005b).
90.
Zluvova J, Nicolas M, Berger A, Negrutiu I, Moneger F: Premature arrest of the male flower meristem precedes sexual dimorphism in the dioecious plant Silene latifolia. Proc Natl Acad Sci USA 103:18854–18859 (2006).
91.
Zluvova J, Georgiev S, Janousek B, Charlesworth D, Vyskot B, Negrutiu I: Early events in the evolution of the Silene latifolia Y chromosome: male specialization and recombination arrest. Genetics 177:375–386 (2007).
92.
Zluvova J, Janousek B, Hobza R, Mracek J, Widmer A, Vyskot B: Genus Silene (Caryophyllaceae) – evolutionary diversification and sex chromosome formation, in Sharma AK, Sharma A (eds): Plant Genome – Biodiversity and Evolution, Vol 1E – Phanerogam – Angiosperm, pp 173–226 (Science Publishers, Enfield 2008).
Copyright / Drug Dosage / Disclaimer
Copyright: All rights reserved. No part of this publication may be translated into other languages, reproduced or utilized in any form or by any means, electronic or mechanical, including photocopying, recording, microcopying, or by any information storage and retrieval system, without permission in writing from the publisher.
Drug Dosage: The authors and the publisher have exerted every effort to ensure that drug selection and dosage set forth in this text are in accord with current recommendations and practice at the time of publication. However, in view of ongoing research, changes in government regulations, and the constant flow of information relating to drug therapy and drug reactions, the reader is urged to check the package insert for each drug for any changes in indications and dosage and for added warnings and precautions. This is particularly important when the recommended agent is a new and/or infrequently employed drug.
Disclaimer: The statements, opinions and data contained in this publication are solely those of the individual authors and contributors and not of the publishers and the editor(s). The appearance of advertisements or/and product references in the publication is not a warranty, endorsement, or approval of the products or services advertised or of their effectiveness, quality or safety. The publisher and the editor(s) disclaim responsibility for any injury to persons or property resulting from any ideas, methods, instructions or products referred to in the content or advertisements.
You do not currently have access to this content.