The Hybrid Origin of Two Cultivars of Crocus (Iridaceae) Analysed by Molecular Cytogenetics including Genomic Southern and in situ Hybridization

The origin of the two common cultivars of Crocus, C. 'Stellaris'(2n = 2x = 10) and C. 'Golden Yellow' (2n = 3x = 14) was investigatedby fluorescent in situ hybridization using both total genomicDNA and cloned DNA sequences as probes. The clear differentiationbetween the chromosomes after genomic in situ hybridizationsupports the proposals of a hybrid origin of the cultivars andshows that they have the same parental genomes originating fromC. flavus (2n = 8) and C. angustifolius (2n = 12). C. 'Stellaris'has four chromosomes of C. flavus origin and six chromosomesof C. angustifolius origin. C. 'Golden Yellow' has eight chromosomesof C. flavus origin and six chromosomes of C. angustifoliusorigin. The number and location of 18S-5·8S-26S rRNAgenes on the chromosomes of the hybrids and of the parentalspecies agree with the results from the genomic probings. Hybridizationto Southern membranes also supports the hybrid origin of C.'Golden Yellow'.Copyright 1995, 1999 Academic Press Taxonomy, cytology, rDNA sites, in situ hybridization, Southern hybridization, Crocus     

The genomic organization and evolutionary distribution of a tandemly repeated DNA sequence family in the genus Crocus (Iridaceae)

From a recombinant DNA-library from Crocus vernus, two closely related clones of highly repetitive DNA, pCvKB7 and pCvKB8, were sequenced and their genomic distribution and organization were investigated by Southern and in situ hybridization. The lengths of the clones were 181 and 178 bp respectively; the sequences were approximately 85% identical, and thus belonged to a sequence family, named the pCvKB8-family. No homologous sequences were found in the databases (BLAST made may 2004). The presence of pCvKB8 in 52 Crocus species and six species from other genera were analyzed by Southern hybridization. The sequence family was essentially Crocus-specific. However, the distribution of hybridization signal across the genus showed poor agreement with the taxonomic structure of the Crocus genus, suggesting that the subdivision does not follow the phylogeny of this sequence family. The chromosomal distribution on three Crocus species was essentially identical: tandem organization close to all telomeres and most centromeres, with a few additional intercalary sites.     

Karyotype diversification and evolution in diploid and polyploid South American Hypochaeris (Asteraceae) inferred from rDNA localization and genetic fingerprint data

Background and Aims: Changes in chromosome structure and number play an importantrole in plant evolution. A system well-suited to studying differentmodes of chromosome evolution is the genus Hypochaeris (Asteraceae)with its centre of species' diversity in South America. AllSouth American species uniformly have a chromosome base numberof x = 4 combined with variation in rDNA number and distribution,and a high frequency of polyploidy. The aim of this paper isto assess directions and mechanisms of karyotype evolution inSouth American species by interpreting both newly obtained andprevious data concerning rDNA localization in a phylogeneticcontext. Methods: Eleven Hypochaeris species from 18 populations were studiedusing fluorescence in situ hybridization (FISH) with 35S and5S rDNA probes. A phylogenetic framework was established fromneighbour-net analysis of amplified fragment length polymorphism(AFLP) fingerprint data. Key Results: A single 5S rDNA locus is invariably found on the short armof chromosome 2. Using 35S rDNA loci, based on number (one ortwo) and localization (interstitial on the long arm of chromosome2, but sometimes lacking, and terminal or interstitial on theshort arm of chromosome 3, only very rarely lacking), sevenkaryotype groups can be distinguished; five of these includepolyploids. Karyotype groups with more than one species do notform monophyletic groups. Conclusions: Early evolution of Hypochaeris in South America was characterizedby considerable karyotype differentiation resulting from independentderivations from an ancestral karyotype. There was marked diversificationwith respect to the position and evolution of the 35S rDNA locuson chromosome 3, probably involving inversions and/or transpositions,and on chromosome 2 (rarely 3) concerning inactivation and loss.Among these different karyotype assemblages, the apargioidesgroup and its derivatives constitute by far the majority ofspecies.     

Chromosomal location and reorganization of the 45S and 5S rDNA in theBrachyscome lineariloba complex (Asteraceae)

The chromosomal locations of the 45S (18S-5.8S-26S) and 5S ribosomal DNA in theBrachyscome lineariloba complex and two related species have been determined by the use of multicolor fluorescencein situ hybridization (McFISH). TheBrachyscome lineariloba complex includes five cytodemes with 2n=4, 8, 10, 12 and 16. Each of the 5S and 45S rDNA loci occurs at two sites on chromosomes in cytodemes with 2n=4. While in cytodemes with 2n=8, 10, 12 and 16, the number of 5S rDNA sites increases from four to eight paralleled to the genomic addition of diploid (4 chromosomes) or haploid (2 chromosomes) dosage. Of the 5S rDNA sites, only one pair is major, except for the cytodeme with 2n=10. The remaining 5S rDNA sites are minor and seem to have reduced the unit number of the 5S rDNA during the successive genomic additions. The 45S rDNA site is detected only at two nucleolar organizing regions in all cytodemes regardless of successive genomic addition. The loss or diminution of 45S rDNA sequences seem to have proceeded more rapidly than 5S rDNA sequences in theB. lineariloba complex.     

Chromosomal localization of rDNA genes and genomic organization of 5S rDNA in <Emphasis Type="Italic">Oreochromis mossambicus,O. urolepis hornorum</Emphasis> and their hybrid

In this study, classical and molecular cytogenetic analyses were performed in tilapia fishes, Oreochromis mossambicus (XX/XY sex determination system), O. urolepis hornorum (WZ/ZZ sex determination system) and their hybrid by crossing O. mossambicus female × O. u. hornorum male. An identical karyotype ((2n = 44, NF (total number of chromosomal arms) = 50) was obtained from three examined tilapia samples. Genomic organization analysis of 5S rDNA revealed two different types of 5S rDNA sequences, 5S type I and 5S type II. Moreover, fluorescence in situ hybridization (FISH) with 5S rDNA probes showed six positive fluorescence signals on six chromosomes of all the analysed metaphases from the three tilapia samples. Subsequently, 45S rDNA probes were also prepared, and six positive fluorescence signals were observed on three chromosome pairs in all analysed metaphases of the three tilapia samples. The correlation between 45 rDNA localization and nucleolar organizer regions (NORs) was confirmed by silver nitrate staining in tilapia fishes. Further, different chromosomal localizations of 5S rDNA and 45S rDNA were verified by two different colour FISH probes. Briefly, the current data provide an insights for hybridization projects and breeding improvement of tilapias.     

Mapping of ribosomal DNA and (TTAGGG)n telomeric sequence by FISH in the bivalve Patinopecten yessoensis (Jay, 1857)

The chromosome set of Patinopecten yessoensis (Jay, 1857) wascharacterized using Giemsa staining, DAPI staining and fluorescencein situ hybridization (FISH) with three repetitive DNA probes[18S–28S rDNA, 5S rDNA and telomeric (TTAGGG)_n]. DAPIstaining showed that AT-rich regions were located on the centromereof almost all chromosomes and interstitial banding was not observed.FISH showed that 18S–28S rDNA spread over the short armsof two subtelocentric chromosome pairs and 5S rDNA was locatedon the long arm of one subtelocentric chromosome pair. SequentialFISH demonstrated that 18S–28S and 5S rDNA were locatedon different chromosomes. FISH also showed that the vertebratetelomeric sequence (TTAGGG)_n was located on both ends of eachchromosome and no interstitial signals were detected. Sequential18S–28S rDNA and (TTAGGG)_n FISH indicated that repeatedunits of the two multicopy families were closely associatedon the same chromosome pair. (Received 4 January 2007; accepted 1 September 2007)     

Molecular Cytogenetics of the Genus Arabidopsis: In situ Localization of rDNA Sites, Chromosome Numbers and Diversity in Centromeric Heterochromatin

We have used in situ hybridization to determine the number ofsites of rDNA in species in the genus Arabidopsis. A. wallichii(2n = 16) has one major pair of sites and one minor pair ofsites, while A. pumila and A. griffithiana (both 2n = 32) havesix major and two minor rDNA sites. A. thaliana (2n = 10) isknown to have two pairs of rDNA sites. a highly repeated para-centromericsequence from A. thaliana, pAL1, is absent in the other threespecies. Hence the A.thaliana genome is not present (or thecentromeric DNA has evolved substantially) in the polyploidspecies A. pumila and A. griffithiana. Analysis of Arabidopsisspecies is a valuable complement to the large programmes forgenetic analysis of A. thaliana.Copyright 1993, 1999 AcademicPress Arabidopsis, centromeric DNA, maps (genetic), nuclear architecture, repetitive DNA, ribosomal DNA, rDNA, evolution, Brassicaceae, Crucifereae, in situ hybridization     

Chromosome studies in Orchidaceae: karyotype divergence in Neotropical genera in subtribe Maxillariinae

Here, we study karyotype divergence in the closely related genera Brasiliorchis, Christensonella and Trigonidium belonging to subtribe Maxillariinae of subfamily Epidendroideae (Orchidaceae). We compare karyotypes in 15 species by (1) measuring 1C genome sizes, (2) mapping the distribution of 4′,6‐diamidino‐2‐phenylindole and chromomycin A3 chromosome bands and (3) localizing 5S and 45S nuclear ribosomal DNA (rDNA) sequences using fluorescent in situ hybridization. Recently, phylogenetic studies have been conducted to resolve species and genera relationships in subtribe Maxillariinae. We used these phylogenetic trees to map the cytogenetic characters in an evolutionary framework. This has enabled a better understanding of the patterns of genomic divergence in the group. Genome sizes range from 1C = 1.85 to 4.1 pg. The largest, B. schunkeana, shows evidence of genome upsizing, probably through the acquisition of tandem repeats that now form large 4′,6‐diamidino‐2‐phenylindole‐positive blocks of heterochromatin. Our cytogenetic data are consistent with a base chromosome number of 2n = 40, although Christensonella is characterized by a dysploid reduction in chromosome number to 2n = 36. The number of 5S and 45S rDNA sites is variable between species, consistent with high rates of karyotype divergence. © 2012 The Linnean Society of London, Botanical Journal of the Linnean Society, 2012, 170 , 29–39.     

A contribution to the karyology ofCrocus vernus agg. (Iridaceae) from the Iserian Mts. (Sudety Mts., Poland)

The Iserian Mts. form ofCrocus vernus agg. has 2n = 16 and a karyotype clearly deviating fromC. heuffelianus s. lat.     

rDNA Sites in Mitotic and Polytene Chromosomes of Vigna unguiculata (L.) Walp. and Phaseolus coccineus L. Revealed by in situ Hybridization

Root tip mitotic and tapetal polytene cells ofVigna unguiculataandPhaseolus coccineus were hybridized with a ribosomal DNA(rDNA) probe. While the number of rDNA sites were as expectedforP. coccineus, it was surprisingly higher inV. unguiculatawhere ten rDNA sites were found in both tissues. A sequentialbanding technique on mitotic chromosomes ofV. unguiculata wasused to map the positions of the rDNA sites more accurately.In mitotic cells eight of the rDNA hybridization sites weresimilar in size while the remaining sites were smaller. In contrast,the hybridization sites were more variable in size in polytenecells with no more than six sites being relatively large. Thedifferences in size of the hybridization sites between the twotissues suggest differential amplification of the rDNA sequences.InP. coccineus six hybridization sites were found in both tissuetypes. The relative sizes of the sites were similar in bothtissue. The presence of speckled signal surrounding four ofthe six sites suggested that at least four of the rDNA siteswere transcribed. rDNA; in situ ; Vigna ; Phaseolus ; polytene; tapetal; Leguminosae     

Genomic origin and organization of the allopolyploid Primula egaliksensis investigated by in situ hybridization

Background and Aims: Earlier studies have suggested that the tetraploid Primula egaliksensis(2n = 40) originated from hybridization between the diploidsP. mistassinica (2n = 18) and P. nutans (2n = 22), which werehypothesized to be the maternal and paternal parent, respectively.The present paper is aimed at verifying the hybrid nature ofP. egaliksensis using cytogenetic tools, and to investigatethe extent to which the parental genomes have undergone genomicreorganization. Methods: Genomic in situ hybridization (GISH) and fluorescent in situhybridization (FISH) with ribosomal DNA (rDNA) probes, togetherwith sequencing of the internal transcribed spacer (ITS) regionof the rDNA, were used to identify the origin of P. egaliksensisand to explore its genomic organization, particularly at rDNAloci. Key Results: GISH showed that P. egaliksensis inherited all chromosomes fromP. mistassinica and P. nutans and did not reveal major intergenomicrearrangements between the parental genomes (e.g. interchromosomaltranslocations). However, karyological comparisons and FISHexperiments suggested small-scale rearrangements, particularlyat rDNA sites. Primula egaliksensis lacked the ITS-bearing heterochromaticknobs characteristic of the maternal parent P. mistassinicaand maintained only the rDNA loci of P. nutans. These resultscorroborated sequence data indicating that most ITS sequencesof P. egaliksensis were of the paternal repeat type. Conclusions: The lack of major rearrangements may be a consequence of theconsiderable genetic divergence between the putative parents,while the rapid elimination of the ITS repeats from the maternalprogenitor may be explained by the subterminal location of ITSloci or a potential role of nucleolar dominance in chromosomestabilization. These small-scale rearrangements may be indicativeof genome diploidization, but further investigations are neededto confirm this assumption.     

Intra- and interspecific chromosome polymorphisms in cultivated Cichorium L. species (Asteraceae)

Endive (Cichorium endivia L.) and chicory (C. intybus L.) both have 2n = 18, but until now, there has been no detailed karyomorphological characterization. The present work evaluated five accessions of each species using FISH with rDNA probes and fluorochrome staining with CMA and DAPI. Both species presented distinct banding patterns after fluorochrome staining: while endive had proximal CMA⁺⁺/DAPI⁻ bands in the short arms of pairs 1, 2 and 3, chicory had proximal CMA-positive bands in chromosomes 1 and 3 and interstitial in the short arm of chromosome 8. Among endive accessions, FISH procedures revealed conserved position and number of 5S and 45S rDNA sites (two and three pairs, respectively), associated with the CMA-positive bands. Notwithstanding, polymorphisms were detected within chicory accessions regarding the number and the distribution of rDNA sites in relation to the most frequent karyotype (two pairs with 45S and one with 5S rDNA). The karyological markers developed allowed karyotypic differentiation between both species, uncovering peculiarities in the number and position of rDNA sites, which suggest chromosome rearrangements, such as translocations in chicory cultivars. The interspecific and intraspecific polymorphisms observed emphasize the potential of karyomorphological evaluations, helping our understanding of the relationships and evolution of the group.     

花生45S rDNA和5S rDNA的染色体定位研究

对四粒红和蜀花四号花生材料进行了核型分析,四粒红为2B核型,核型公式为2n=4x=40=38m＋2sm（4SAT）;蜀花四号为1B核型,核型公式为2n=4x=40=40 m（2SAT）。利用双色荧光原位杂交技术,对45S rDNA和5S rDNA这两个材料有丝分裂中期染色体上的物理位置进行了定位分析。定位结果表明,四粒红有6对45S rDNA位点,位于A2L、A7S、A9L、B3L、B7S、B8L（A和B分别代表基因组A和基因组B,L和S代表长臂和短臂,数字代表染色体序号,下同）;2对5S rDNA位点,位于A3S和B3S;蜀花四号有5对45S rDNA位点,位于A2L、A9L、B3L、B7S、B9L;2对5S rDNA位点,位于A3S和B3S。花生的45S rDNA位点具有可变性,5S rDNA则相对保守。     

Polyploidy and Evolution in Wild and CultivatedDahliaSpecies

Observations on the chromosomes of nine species ofDahliaCav.(Asteraceae, Heliantheae—Coreopsidinae) show that somehave 2n=32, others 2n=64, with a third group having both chromosomenumbers in the same taxon. Karyotype investigations showed thatthe chromosomes can be divided into groups of 14 metacentricsplus two submetacentrics per set of 16 chromosomes.In situhybridizationusing an rRNA gene probe indicated that the 2n=32 species haveeight hybridization sites whilst the 2n=64 species have 16 sites.Silver nitrate staining of these regions showed that not allof these nucleolar organizers are active. Meiotic analysis atmetaphase I and pachytene, by synaptonemal complex spreading,shows that the 2n=32 species have exclusive bivalent formationwhereas the 2n=64 species have small numbers of univalents plusquadrivalents in addition to bivalents. This study proposesthatDahliaspecies with 2n=32 are allotetraploids whereas thosespecies and chromosome races with 2n=64 are their autopolyploidderivatives. We suggest that a bivalent-promoting mechanismin the 2n=32 species may account for their meiotic behaviouras their component genomes appear so similar, and that thismechanism is also responsible for the low number of quadrivalentsin the 2n=64 taxa.Copyright 1998 Annals of Botany Comapny Chromosome pairing,Dahlia, in situhybridization, karyotype analysis, polyploidy, synaptonemal complex analysis     

Molecular Cytogenetic Localization and Characterization of 5S and 25S rDNA Loci for Chromosome Identification in Oilseed Rape (Brassica napus L.)

Chromosome identification in oilseed rape (Brassica napus L.)is extremely difficult using conventional cytogenetic techniquesbecause amphidiploid Brassica species possess numerous verysmall chromosomes with few cytogenetic landmarks. In combinationwith methods for improved chromosome preparations, we used asimplified fluorescencein situ hybridization (FISH) techniqueto localize simultaneously the gene families coding for 5S and25S rDNA in B. napus. The resulting hybridization patterns enabledten of the 19 oilseed rape chromosome pairs to be unequivocallyidentified. Copyright 2000 Annals of Botany Company Brassica napus, oilseed rape, rDNA, molecular cytogenetics, FISH, chromosome identification     

Genome and Chromosome Dimensions of Lotus japonicus

Lotus Japonicus , Miyakojima MG-20 and Gifu B-129. The genome sizes of Miyakojima and Gifu were determined as 472.1 and 442.8 Mbp, respectively. Both the accessions were diploid (2n=12) and six chromosomes were identified and characterized based on the condensation patterns and the locations of rDNA loci. The obvious polymorphism observed in the genome size and the chromosome morphology between the two accessions, revealed specific accumulation of heterochromatin in Miyakojima or elimination in Gifu. The chromosomes L. japonicus were numbered according to their length. A quantitative chromosome map was also developed by the imaging methods using the digital data of the condensation pattern. 45S rDNA loci were localized on chromosomes A and F, and 5S rDNA locus was localized on chromosome A by fluorescence in situ hybridization (FISH). Identification of the chromosome and genome sizes and development of the quantitative chromosome map represent significant contribution to the L. japonicus genome project as the basic information. Received 29 August 2000/ Accepted in revised form 17 October 2000     

Comparative cytogenetic analysis of the genomes of the model grass Brachypodium distachyon and its close relatives

Background and Aims

Brachypodium is a small genus of temperate grasses that comprises 12–15 species. Brachypodium distachyon is now well established as a model species for temperate cereals and forage grasses. In contrast to B. distachyon, other members of the genus have been poorly investigated at the chromosome level or not at all.

Methods

Twenty accessions comprising six species and two subspecies of Brachypodium were analysed cytogenetically. Measurements of nuclear genome size were made by flow cytometry. Chromosomal localization of 18–5·8–25S rDNA and 5S rDNA loci was performed by dual-colour fluorescence in situ hybridization (FISH) on enzymatically digested root-tip meristematic cells. For comparative phylogenetic analyses genomic in situ hybridization (GISH) applied to somatic chromosome preparations was used.

Key Results

All Brachypodium species examined have rather small genomes and chromosomes. Their chromosome numbers and genome sizes vary from 2n = 10 and 0·631 pg/2C in B. distachyon to 2n = 38 and 2·57 pg/2C in B. retusum, respectively. Genotypes with 18 and 28 chromosomes were found among B. pinnatum accessions. GISH analysis revealed that B. pinnatum with 28 chromosomes is most likely an interspecific hybrid between B. distachyon (2n = 10) and B. pinnatum (2n = 18). Two other species, B. phoenicoides and B. retusum, are also allopolyploids and B. distachyon or a close relative seems to be one of their putative ancestral species. In chromosomes of all species examined the 45S rDNA loci are distally distributed whereas loci for 5S rDNA are pericentromeric.

Conclusions

The increasing significance of B. distachyon as a model grass emphasizes the need to understand the evolutionary relationships in the genus Brachypodium and to ensure consistency in the biological nomenclature of its species. Modern molecular cytogenetic techniques such as FISH and GISH are suitable for comparative phylogenetic analyses and may provide informative chromosome- and/or genome-specific landmarks.     

Phylogenetic Analysis and Karyotype Evolution in the Genus Clivia(Amaryllidaceae)

Phylogenetic relationships of five taxa of Clivia, one probablenew species plus four recognized species, and three outgroupspecies were studied using sequences of the nuclear ribosomal5S non-transcribed spacer and the internal transcribed spacer(ITS) of 45S rDNA. Analysis of the data sets separately generatedsome well-supported groupings and congruent phylogenies. Cliviaminiata and C. gardenii are closely related. ‘Robust Gardenii’,the putative new species, is a sister clade of this group. Clivianobilis is distantly related to these three taxa and C. caulescensoccupies an intermediate position between the two groups. Chromosomelocations and distribution patterns of the 5S nuclear ribosomalgene in the species of Clivia were investigated using fluorescenceinsitu hybridization (FISH). In all species, only one pair of5S rDNA signals was observed. These were located on the shortarm of chromosome 8, at the position of the interstitial C-bands.The phylogenies obtained from the DNA sequences together withthe chromosome data accumulated here and previously publishedinformation on the location of the 45S rDNA sites have beenused to postulate evolutionary trends in Clivia chromosomes.Copyright 2001 Annals of Botany Company Clivia, chromosome evolution, 45S and 5S rDNA, ITS, FISH, molecular phylogeny