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    Characterization of ploidy levels in Chrysanthemum L.by flow cytometry

    2015-06-05 08:54:26YuepingMaJiangxueWeiZhiyangYuBingQinSilanDai
    Journal of Forestry Research 2015年3期

    Yue-ping Ma?Jiang-xue Wei?Zhi-yang Yu?Bing Qin?Si-lan Dai

    Characterization of ploidy levels in Chrysanthemum L.by flow cytometry

    Yue-ping Ma1?Jiang-xue Wei1?Zhi-yang Yu1?Bing Qin1?Si-lan Dai2

    Analyzing the ploidy levels ofplants isimportant foridentifying species,selecting parentallines,identifying the relationships between species,and determining evolutionary patterns.The genus Chrysanthemum is widely distributed throughoutthe world and exhibitsdifferentploidy levels.We used flow cytometry to analyze the ploidy levels of nine speciesof Chrysanthemum L.collected from differentregions and geographical locations in China.Three diploids from Henan and Wuhan provinces corresponded to Chrysanthemum lavandulifolium and two species of C.nankingense, while three tetraploids from various regions corresponded to C.indicum and two species of C.chanetii.Two hexaploids corresponding to C.vestitum were collected atFuniu mountain(Henan province),and C.zawadskii was collected at Huangshan mountain(Anhuiprovince).Wefound thatOTTO extraction bufferwassuitable forextracting nucleifrom most species,apartfrom C.zawadskii.Flow cytometry proved to bea simple,rapid,and highly accurate method for identifying ploidy levels in Chrysanthemum species.

    Chrysanthemum L.·Flow cytometry·OTTO extraction buffer·Ploidy identification

    Introduction

    Chromosomes are the carriers of genetic material.Changes in the number of chromosomes affect the morphology, anatomy,physiology,and biochemistry ofan organism and lead to many changes in genetic characteristics.Therefore, elucidating the ploidy of a species lays foundation for understanding its genetic background,which is helpfulfor germplasm conservation and other applications(Bennett and Leitch 2005).In addition,knowing the ploidy levelofa species is essential if we are to better understand its population structure and evolution;this knowledge can also help answer some taxonomic questions.

    Chrysanthemum(Chrysanthemum morifolium Ramat.) is one of the most well-known and popular ornamentals throughoutthe world.Although species of Chrysanthemum have gradually become the world’s most abundant cultivated plants,the origin of this species is still debated and there is no universal identification system for chrysanthemum taxonomy.Hybridization and allopolyploid formation are important for the development of modern chrysanthemums(Dai et al.2005).Many species of this genus are directly or indirectly involved in the evolution of modern chrysanthemums.Chromosomes of species in this genus often have different degrees of differentiation,both between and within species.A basic levelofknowledge about the genetic resources ofchrysanthemum is fundamentalfor the implementation of successfulbreeding programs and tohelp understand the varieties of modern chrysanthemum. The chromosome numbers of many species of wild Chrysanthemum have been determined by cytological approaches.There is a wide range of ploidy variation among Chrysanthemum germplasm,including diploids,tetraploids,hexaploids,octoploids,enneaploids,and even pentaploids(Tahara 1915;Dowrick 1952,1953;Nakata 1987;Nakata et al.1992;Zhou and Wang 1997;Fukai etal.1998;Kondo etal.2003).Correlations existbetween ploidy level and the mode of reproduction.Cytological irregularities lead to erratic flowering and reproductive behavior.Therefore,identification of each accession in a polyploidy species is necessary for efficient breeding schemes.This knowledge is also of practical importance for chrysanthemum breeders to help them utilize new introductions in their breeding programs.

    Table 1 Main components of four nuclei extraction solutions

    Ploidy identification in chrysanthemum was traditionally performed by chromosome counting on microscope slides. However,this technique is tedious,difficultto perform,and time consuming.Although stomatalsize and density,as well as pollen size,have been used to determine ploidy in some species(Hamill et al.1992;Dolezˇel et al.2004),these methods are often irreproducible and unreliable.Flow cytometry is currently used routinely forploidy analysis and it is regarded as the mostaccurate tool for ploidy determination(Dolezˇel et al.1998).The main advantages of flow cytometry include its simplicity,speed,accuracy,convenience,and ability to screen large numbers of samples per day.In addition,this method is non-destructive and only requires a small amount of tissue(Dolezˇel 1997).Flow cytometry is a very successful and convenient method for analyzing ploidy level and/or estimating genome size in many plantspecies(Obidiegwu etal.2009,2010;Ono and Hosaka 2010;Schlaepfer etal.2010;Kiszczak et al.2011; Kumar et al.2011;Burson et al.2012;Scaldaferro et al. 2012;Angeles etal.2013;Moon etal.2013).

    The goalof this study was to determine the ploidy levels of some wild species of Chrysanthemum collected from different regions and geographical locations using flow cytometry.The results provide clues about the origin and evolution of Chrysanthemum species.Moreover,this study may help generate new ideas for overcoming the current problems of chrysanthemum cultivar classification and may lead to more precise,efficientuse ofthe genetic diversity of this genus for the purpose of systematic hybridization.

    Materials and methods

    The plantmaterialconsisted of ten Chrysanthemum species collected from different locations(Table 1).All plants were cultivated in 30 cm pots in a greenhouse under natural light at25°C(16 h/8 h of light/dark).

    Sample preparation

    Young leaves were collected from individual plants and samples were prepared for flow cytometry according to the procedure of Dolezˇel et al.(1994),with some modifications.For each sample,approximately 100 mg of healthy leaf tissue was excised and placed into a 35×10 mm plastic Petridish on ice.The tissue was chopped into thin strips(0.25–0.5 mm wide)in 1 ml of ice cold extraction buffer(Table 1).The suspension was collected with a pipette and filtered through 30μm nylon mesh into a 1.5 ml microfuge tube to remove cell fragments and large debris.The nuclei in the microfuge tube were purified by centrifugation at 150 g at 4°C for 5 min,resuspended in 1 mL of PBS,and centrifuged at150 g at4°C for 5 min.

    Fig.1 Examples of flow cytometric histograms showing the relative PI fluorescence intensity in nuclei from the leaves of different Chrysanthemum species.Abscissa:Relative fluorescence intensity (channel number);ordinate:number of nuclei.a is external control (2×),b is diploid(2×),c is tetraploid(4×),d is hexaploid(6×) plants

    The purified nucleiwere stained with 250μL propidium iodide(PI;50μg·mL-1;Fluka,Buchs,Switzerland).RNase (50μg mL-1;Fluka)was then added to the nuclear suspension to preventstaining of double-stranded RNA.The samples were incubated on ice in the dark for 30 min before analysis by flow cytometry.All stages of extraction and staining were performed at 4°C.Control(diploid, 2n=2×=18)plants were used as an external reference standard(1000 nucleiwere analyzed per sample).

    Flow cytometric analysis

    The prepared material was analyzed on a standard FACS-can flow cytometer(Becton–Dickinson Immunocytometry Systems,San Jose,CA,USA)using a 488 nm laser at 15 mW.For each measurement,PI fluorescence area signals (relative fluorescence intensity,FL2-A)from 1000 nuclei were collected using CellQuest software(Becton–Dickinson).A live gate was set using the FL2-A and FSC parameters,allowing the fluorescence measurements from nuclei to generate a histogram of FL2-A.The mean positions of the G1/G2(nuclei)peak for the sample and the external standard were determined by analyzing the data using CellQuest software(Becton–Dickinson).Young leaf samples from Chrysanthemum nankingense L.(2n=18) (Ma et al.2013)were used as a diploid reference.To estimate ploidy level,the position of the G1 peak on the histogram obtained foreach individualplantwas compared with thatof C.nankingense.A software package(BD)wasused to calculate the coefficient of variation(CV).A minimum of three samples were analyzed for each accession.Three independent replicates were examined on successive days.

    Table 2 Analysis of ploidy level in the genus Chrysanthemum

    Fig.2 Non-flowering branches of C.chanetii.a The morphology of a non-flowering plant;b comparison of leaves of two branches.a1 and a2 (left)are flowering branches;b1 and b2(right)are non-flowering branches.Scale bar is 1 cm

    Results and discussion

    Excellent preparation of nuclei is crucial for flow cytometry analysis.However,obtaining nucleifrom different plantspecies requires differentextraction buffers suited to a particular plant’s tissue structure and metabolic components.We found thatmodified OTTO extraction buffer was suitable for most species examined,leading to the generation of clearly defined histograms.Only C.zawadskii required the use of Tris·MgCl2(Pfosser et al.1995)extraction buffer.LB01 and MgSO4extraction buffer did not generate histograms for any species.

    After PI staining,nuclei isolated from young leaf tissue emitted fluorescence when irradiated with UV radiation, which was measured by the flow cytometer.For each sample,analysis of the relative fluorescence intensity of the isolated nuclei yielded a histogram showing a dominant peak corresponding to nuclei in the G1 phase of the cell cycle.The amount of debris in each sample was negligible. Clearly defined histograms for accurate determination of ploidy levels were obtained following flow cytometric analysis of intact leaf nuclei(Fig.1).Table 2 shows the ploidy level inference for each accession analyzed.The results implied thattwo of the accessions were diploid,three were tetraploid,and two were hexaploid species(Table 2).Most histograms showed a low CV(lessthan 5%),indicating that the results were reliable(Galbraith et al.2002).

    Earlier chromosome counting identified different ploidy levels within the genus Chrysanthemum.Most ploidy levels determined in the current study were consistent with previous findings from chromosome counting.Here we found two morphologies in one species of C.chanetii:non-flowering branches had larger leaves than did flower branches (Fig.2a).The different ploidy levels encountered in thegermplasm collection examined in the currentstudy suggest that gamogenesis played an important role in the origin of modern chrysanthemum.

    There were no significant differences among the same species of Chrysanthemum collected from different locations(such as C.nankingense and C.chanetii)with respect to ploidy level,which indicates that ploidy level is not associated with geographic origin.There were distinct differences in morphological and reproductive behavior in C.chanetii plants collected from Qinhuangdao.The leaves of non-flowering branches were nearly twice the size of flowering branches(Fig.2b).Itis interesting thatthese two morphologically different plants were derived from the same species.The reason for this requires further study.

    In conclusion,we successfully used flow cytometry to determine ploidy levels in Chrysanthemum.The high sensitivity and accuracy of flow cytometry enabled us to rapidly estimate the ploidy levels of Chrysanthemum species.This efficienttechnique can be used to further clarify the genetic diversity of both wild and cultivated Chrysanthemum species.

    AcknowledgmentsChrysanthemum chanetii plants from Hebei were supplied by Professor Liu Z.L.(College of Landscape Architecture,Hebei Normal University of Science and Technology).

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    10 October 2013/Accepted:28 July 2014/Published online:30 April 2015

    ?Northeast Forestry University and Springer-Verlag Berlin Heidelberg 2015

    Project funding:This work was supported by the National Natural Science Foundation of China(No.31470699)and the Fundamental Research Funds for the Central Universities(No.130420003).

    The online version is available athttp://www.springerlink.com

    Corresponding editor:Zhu Hong

    ?Yue-ping Ma mypluna@sina.com Si-lan Dai silandai@sina.com

    1College of Life and Health Sciences,Northeastern University,Shenyang 110004,People’s Republic of China

    2College of Landscape Architecture,Beijing Forestry University,Beijing 100083,People’s Republic of China

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