Flow Cytometric Analysis and Chromosome Sorting of Barley (Hordeum vulgare L.)

Flow cytometric analysis was systematically performed to optimize the concentration and duration of hydroxyurea (DNA synthesis inhibitor) and trifluralin (metaphase blocking reagent) treatments for synchronizing the cell cycle and accumulating metaphase chromosomes in barley root tips. A high metaphase index (76.5% in the root tip meristematic area) was routinely achieved. Seedlings of about 1.0-cm length were treated with 1.25 mM hydroxyurea for 14 h to synchronize the root tip meristem cells at the S/G2 phase. After rinsing with hydroxyurea, the seedlings were incubated in a hydroxyurea-free solution for 2 h and were treated with 1 microM trifluralin for 4 h to accumulate mitotic cells in the metaphase. The consistent high metaphase index depended on the uniform germination of seeds prior to treatment. High-quality and high-quantity isolated metaphase chromosomes were suitable for flow cytometric analysis and sorting. Flow karyotypes of barley chromosomes were established via univariate and bivariate analysis. A variation of flow karyotypes was detected among barley lines. Two single chromosome types were identified and sorted. Bivariate analysis showed no variation among barley individual chromosomes in AT and GC content.     

Flow Cytometric Analysis and Chromosome Sorting of Barley (Hordeum vulgare L.)

Flow cytometric analysis was systematically performed to optimize the concentration and duration of hydroxyurea (DNA synthesis inhibitor) and trifluralin (metaphase blocking reagent) treatments for synchronizing the cell cycle and accumulating metaphase chromosomes in barley root tips. A high metaphase index (76.5% in the root tip meristematic area) was routinely achieved. Seedlings of about 1.0-cm length were treated with 1.25 mM hydroxyurea for 14 h to synchronize the root tip meristem cells at the S/G2 phase. After rinsing with hydroxyurea, the seedlings were incubated in a hydroxyurea-free solution for 2 h and were treated with 1 M trifluralin for 4 h to accumulate mitotic cells in the metaphase. The consistent high metaphase index depended on the uniform germination of seeds prior to treatment. High-quality and high-quantity isolated metaphase chromosomes were suitable for flow cytometric analysis and sorting. Flow karyotypes of barley chromosomes were established via univariate and bivariate analysis. A variation of flow karyotypes was detected among barley lines. Two single chromosome types were identified and sorted. Bivariate analysis showed no variation among barley individual chromosomes in AT and GC content.     

Flow sorting of wheat chromosome arms from the ditelosomic line 7BL

Flow cytometric analysis confirmed that root tip cells can be synchronized with 1.25 mM hydroxyurea (DNA synthesis inhibitor) for 12 h and 1 μM trifluralin (metaphase blocking reagent) treatment for 5 h. Chromosome suspensions prepared from homogenized tissue were suitable for chromosome sorting. A flow karyotypic histogram showed that the genome of common wheat (Triticum aestivum L.) ‘Chinese Spring’ was divided into 4 chromosome peaks, but the 7BL ditelosomic line had an additional chromosome peak. PCR amplification of sorted chromosome arms indicated that the extra chromosome peak consisted of 7BL telosomics. Some technical details of sample preparation and parameter setting for flow cytometric analysis are described.     

Isolation of Chromosomes from Picea abies and their Analysis by Flow Cytometry

A high-yield method for preparation of suspensions of intact Norway spruce [Picea abies (L.) Karst.] chromosomes was developed for the first time. To accumulate meristem root tip cells at metaphase, actively growing roots were subjected to subsequent treatments with 0.625 mM hydroxyurea for 18 h and after 8 h recovery in distilled water with 0.05 % (m/v) colchicine for 8 h. These treatments resulted in 50 % metaphase indices. Synchronized root tips were fixed in 2 % formaldehyde for 10 min and chromosomes were released into a lysis buffer by mechanical homogenisation, producing 5 × 10⁵ chromosomes from 50 root tips, at average. The isolated chromosomes were morphologically intact and suitable for flow cytometric analysis. Flow karyotypes obtained after the analysis of DAPI-stained chromosomes indicated a possibility to sort at least three different chromosome types. This revised version was published online in July 2006 with corrections to the Cover Date.     

鹰嘴紫云英根尖细胞有丝分裂同步化诱导

采用羟基脲和氟乐灵结合的双阻断方法处理鹰嘴紫云英根尖,以诱导根尖细胞有丝分裂中期同步化。结果表明,用1．25mmol．L^-1羟基脲处理18h和1μmol·L^-1氟乐灵处理6h的细胞有丝分裂中期指数可达80％,且有丝分裂正常,染色体形态良好,未见到染色体畸变的现象。     

Flow Karyotyping of Wheat Addition Line “T240” with a Haynaldia villosa 6VS Telosome

To construct a chromosome-specific DNA library of chromosome 6VS from Haynaldia villosa, a wheat alien chromosome addition line T240 with a 6VS chromosome arm and its parental common wheat cv. CA921 were used to optimize protocols for preparing chromosome suspension amenable to flow sorting of the 6VS chromosome. Our results showed that root tips incubated sequentially in Hogland’s solution containing 1.25 mM hydroxyurea (DNA synthesis inhibitor) for 18 h, a hydroxyurea-free period for 2 h, and 1 μM trifluralin for 4 h (metaphase blocking reagent) increased the metaphase index (MI) by up to 62 % . Many metaphase chromosomes were released to form a chromosome suspension when root tips fixed in 2 % paraformaldehyde were treated in a homogenizer at 9,500 rpm for 10–15 s. Most of the released chromosomes had intact morphology. The background solution of chromosome suspension was clear and relatively few of cell debris and chromosome clumps. Univariate flow karyotypes were established with chromosome suspension flow through FACS Vantage 2000 SE flow cytometer. The flow karyotype of CA921 consisted of four chromosome peaks, whereas that for T240 had a fifth peak. This fifth peak in T240 contained the telosome, which was further confirmed to be 6VS through fluorescence in situ hybridization.     

A reliable preparation of mono-dispersed chromosome suspensions for flow cytometry

Summary A reproducible, simple and rapid protocol was developed to prepare mono-dispersed chromosome suspensions for flow cytometric analysis. The procedure basically employes: 1. twice rinsing of monolayer cultures to eliminate dead cells and cellular debris, 2. mild fixation of mitotic cells with 1% acetic acid, and 3. ultra sonic treatment to release single metaphase chromosomes. The procedure takes less than 30 min. Isolated chromosomes are storable over months at 4° C. Despite mild fixation many biochemical studies and experiments applied on such fixed chromosomes purified and enriched using electronic sorting are feasible: 1. gene and restriction mapping, 2. cloning of specific gene sequences, and 3. gene frequency analysis.     

水稻中期染色体和DNA纤维的高效制备技术

水稻中期染色体和DNA纤维制备是水稻分子细胞遗传学研究中的关键技术。目前,这两个技术还有很多不足,该研究建立了高效制备水稻中期染色体和DNA纤维的方法。该方法制备的染色体,分裂相多、杂质少、背景清晰、染色体分散且形态好,水稻根尖分生组织细胞的分裂指数高达25％。植物细胞的细胞壁是制备DNA纤维的最大障碍,所以必须先提取细胞核,然后裂解细胞核释放出DNA纤维。在这个研究中,还建立了一个用刀切法分离细胞核,进而用SDS裂解核膜,用载玻片拖出DNA来制备水稻DNA纤维的方法。该方法制备的DNA纤维多呈平行的细线,背景清晰,伸展的程度均匀,适合于原位杂交。     

A high-yield procedure for isolation of metaphase chromosomes from root tips ofVicia faba L.

A new method is described for the isolation of large quantities of Vicia faba metaphase chromosomes. Roots were treated with 2.5 mM hydroxyurea for 18 h to accumulate meristem tip cells at the G₁/S interface. After release from the block, the cells re-entered the cell cycle with a high degree of synchrony. A treatment with 2.5 M amiprophos-methyl (APM) was used to accumulate mitotic cells in metaphase. The highest metaphase index (53.9%) was achieved when, 6 h after the release from the hydroxyurea block, the roots were exposed to APM for 4 h. The chromosomes were released from formaldehyde-fixed root tips by chopping with a scalpel in LB01 lysis buffer. Both the quality and the quantity of isolated chromosomes, examined microscopically and by flow cytometry, depended on the extent of the fixation. The best results were achieved after fixation with 6% formaldehyde for 30 min. Under these conditions, 1 · 10⁶ chromosomes were routinely obtained from 30 root tips. The chromosomes were morphologically intact and suitable both for high-resolution chromosome studies and for flow-cytometric analysis and sorting. After the addition of hexylene glycol, the chromosome suspensions could be stored at 4° C for six months without any signs of deterioration.Abbreviations APM amiprophos-methyl - DAPI 4,6-diamidino-2-phenylindole The authors thank Mrs. Jiina Eliáová for her excellent technical assistance and Dr. Slavomir Ondro for the supply of V. faba seeds. A gift sample of APM from the Mobay Corporation (Agricultural Chemicals Division, Kansas City, Mo., USA) is gratefully acknowledged.     

X-ray- and neutron-induced chromosome damage detected by flow cytometry compared to cell lethality and chromosome structural changes

V79 Chinese hamster cells were irradiated in G0 phase with 200 kV X rays or 14 MeV neutrons, and dose-response curves were determined for three end points: chromosome damage detected by flow cytometric analysis of chromosomes isolated from metaphase cells in irradiated cultures; loss of clonogenic capacity; and induction of dicentric, tricentric, and ring chromosomes. The changes observed in the flow karyotypes from irradiated cultures were quantitatively evaluated by computer analysis. Estimates of the frequencies of chromosome lesions were derived from an analysis of the flow cytometric measurements by means of a comparison with model calculations simulating the effect of chromosome changes on flow karyotypes. The results indicate that lesions assayed by flow cytometry occur three times more frequently than lethal lesions, while the chromosomal structural changes detected by microscopic analysis were about 10 times less frequent than the lesions detected by flow cytometry. Dose-response curves for X rays and neutrons show that cell reproductive death and changes in flow karyotypes result from damage, induced with a similar relative biological effectiveness. Dose-effect relations derived from changes in flow karyotypes, which can be obtained within 24 h after irradiation, might be of value as a predictive test for the sensitivity of cells for loss of clonogenic capacity.     

<Emphasis Type="Italic">In vitro</Emphasis> root induction in weedy <Emphasis Type="Italic">amaranthus</Emphasis> species to obtain mitotic chromosomes

Summary Mitotic chromosome analysis has proven to be an important tool in monitoring the potential for genetic exchange among related plant species. One major obstacle to using mitotic chromosome analysis in any species is obtaining large numbers of clear, well-spread metaphase chromosomes necessary to perform cytological techniques such as chromosome banding and fluorescent in situ hybridization. The ability to obtain good chromosome spreads is in part determined by the number and morphology of the roots, which contain the metaphase tissue. Many Amaranthus species produce very thin, delicate roots. The technique used in the process described herein provides for much more substantial roots, allowing for higher probability of obtaining well-spread metaphase chromosomes. Seeds were planted in a soilless mixture, and then cuttings and leaves were taken from the plants. The cuttings were sterilized and placed in Murashige and Skoog (MS) media, while leaf tissue was analyzed by flow cytometry, both pre-and post-propagation, to obtain DNA contents. No changes in DNA content were observed. The in vitro procedure produced significantly larger roots than were produced in soilless mix. Furthermore, all of the in vitro roots observed had 32 chromosomes of normal morphology. In vitro root propagation allowed large numbers of roots to be obtained from a single plant, thereby resulting in increased probability of obtaining cells with metaphase chromosomes that reflected the original plants' chromosome numbers and therefore may be used for molecular cytogenetic analysis.     

Preparation of pea (Pisum sativum L.) chromosome and nucleus suspensions from single root tips

A high-yield method for the isolation of intact nuclei and chromosomes in suspension from a variable number of pea root tips (1–10) has been developed. This procedure is based on a two-step cell-cycle synchronization of root-tip meristems to obtain a high mitotic index, followed by formaldehyde fixation and mechanical isolation of chromosomes and nuclei by homogenization. In the explant, up to 50% of metaphases were induced through a synchronization of the cell cycle at the G₁/S interface with hydroxyurea (1.25 mM), followed, after a 3-h release, by a block in metaphase with amiprophos-methyl (10 M). The quality and quantity of nuclei and chromosomes were related to the extent of the fixation. Best results were obtained after a 30-min fixation with 2% and 4% formaldehyde for nuclei and chromosomes, respectively. The method described here allowed the isolation of nuclei and chromosomes, even from a single root tip, with a yield of 1×10⁵/root and 1.4×10⁵/root, respectively. Isolated suspensions were suitable for flow cytometric analysis and sorting and PRINS labelling with a rDNA probe.     

Preparation and flow cytometric analysis of metaphase chromosomes of tomato

Summary A procedure for the preparation of tomato chromosome suspensions suitable for flow cytometric analysis is described. Rapidly growing cell suspension cultures of Lycopersicon esculentum cv VFNT cherry and L. pennellii LA716 were treated with colchicine to enrich for metaphase chromosomes. Metaphase indices between 20 and 35% were routinely obtained when cultures were exposed to 0.1% colchicine for 15–18 h after 2 days of subculture. Mitotic cells were isolated by brief treatment with cell wall digesting enzymes in a medium with low osmolarity (325 mOsm/kg of H₅₂O). The low osmolarity medium was needed to avoid the chromosome clumping and decondensation seen in standard media. Suspensions of intact chromosomes were prepared by lysing swollen protoplasts in various buffers (MgSO₄, polyamines, hexylene glycol, or KCl-propidium iodide) similar in contents to the buffers used to isolate mammalian chromosomes. For univariate flow cytometric analysis, chromosome suspensions were stained with a fluorescent DNA-binding stain (propidium iodide, Hoechst 33258, mithramycin, or chromomycin A3) and analyzed using an EPICS flow cytometer (Profile Analyzer or 753). Peaks for the chromosomes, chromatids, clumps of chromosomes, nuclei, and fluorescent debris were seen on a histogram of log of fluorescence intensity, and were confirmed by microscopic examination of the objects collected by flow-sorting. Chromosome suspensions prepared in MgSO₄ buffer have the highest frequency of intact chromosomes and the least fluorescent cellular debris. Peaks similar to theoretical univariate flow karyotypes of tomato chromosomes were seen on the observed univariate flow karyotypes, but were not as well resolved. Bivariate flow analysis of tomato chromosome suspension using double-stain combination, Hoechst 33258 and chromomycin A3, and two laser beams showed better resolution of some chromosomes.     

Comparisons between C-banding Patterns on Root Tip Chromosomes of Different Cultivars in Maize( Zea mays)

The technique of Giemsa banding, C-banding patterns on the root tip chromosomes and the chromocentres of interphase nuclei with three eultivars (Dai Zi Bai, Qun Dan 105 and 2×6) of maize were studied. The results are as follows: 1. After fixation and treatment in a saturated solution of barium hydroxide the preparations were incubated in 0.5×SSC, I×SSC, 3×SSC, 4×SSC or distilled water respectively forⅠ h at 60 ℃ and the other steps in C-banding procedure were not changed so as to find the optimum saline concentration for Giemsa banding in maize. The experimental results shown that 0.5×SSC was the best. But bands could not produced very well by treating samples in distilled water. 2. There were terminal, subterminal and centric bands in Dai Zi Bai and Qun Dan 105. The C-banding patterns on the root tip chromosomes of these two cultivars were different from each other. Qun Dan 105 had 10 prominent bands in total, while Daf Zi Bai had 7. The banding patterns of each chromosome were described in detail. 3. The average chromocentres per cell in Dai Zi, Qun Dan 105 and cultivar 2×6 were 7.1, 10.9 and 7.2 respectively. Their prominent band numbers on the chromosomes were 7, 10 and 8 correspondingly. It seems that the number of C-bands on the chromosomes is close to that of chromocentres.     

Flow cytometric sorting of maize chromosome 9 from an oat-maize chromosome addition line

Large numbers of maize chromosome 9 can be collected with high purity by flow cytometric sorting of chromosomes isolated from a disomic maize chromosome addition line of oat. Metaphase chromosome suspensions were prepared from highly synchronized seedling root-tips of an oat-maize chromosome-9 addition line (OM9) and its parental oat and maize lines. Chromosomes were stained with propidium iodide for flow cytometric analysis and sorting. Flow-karyotypes of the oat-maize addition line showed an extra peak not present in the parental oat line. This peak is due to the presence of a maize chromosome-9 pair within the genome of OM9. Separation of maize chromosome 9 by flow cytometric sorting of a chromosome preparation from a normal maize line was not possible because of its size similarity (DNA content) to maize chromosomes 6, 7 and 8. However, it is possible to separate maize chromosome 9 from oat chromosomes and chromatids. An average of about 6×10³ chromosomes of maize chromosome 9 can be collected by flow-sorting from chromosomes isolated from 30 root tips (ten seedlings) of the oat-maize addition line. Purity of the maize chromosome 9, sorted from the oat-maize chromosome addition line, was estimated to be more than 90% based on genomic in situ hybridization analysis. Sorting of individual chromosomes provides valuable genomic tools for physical mapping, library construction, and gene isolation. Received: 28 February 2000 / Accepted: 14 July 2000     

Characterization of the cytotoxic mechanism of Mana-Hox, an analog of manzamine alkaloids

Mana-Hox is a synthetic analog of manzamines, which are beta-carboline alkaloids isolated from marine sponges. Mana-Hox exhibited cytotoxicity against various tumor cell lines with the IC(50) range from 1 to 5 microM. Cell cycle synchronization and flow cytometric analysis showed that Mana-Hox delayed cell cycle progression at mitosis. At the concentration that delayed mitotic progression, bipolar spindle with lagged chromosomes and multipolar spindle with disorganized chromosomes were detected. The presence of such aberrant mitotic cells accompanied by the activation of spindle checkpoint that delayed cells exit from mitosis. However, after a short delay, lagged chromosomes were able to display in the abnormal metaphase plates, and subsequent cell division resulting in chromosome missegregation. Furthermore, the aberrant mitotic cells showed lower viability, indicating that Mana-Hox-induced cell death resulting from chromosome missegregation. This study is the first to explore cytotoxic mechanism of a manzamine-related compound and understand its potential as a lead compound for the development of future anticancer agents.     

小麦根尖细胞同步化诱导和DNA纤维的制备

为了简易快速地获得大量小麦（Triticum aestivumL．）中期染色体和DNA纤维,以普通小麦根尖为材料,采用羟基脲（hydroxyurea,简称HU）,氟乐（trifluralin）结合的双阻断法进行了染色体中期同步化诱导。结果表明,染色体有丝分裂中期指数（metaphaseindex）达70％～80％;以同材料小麦黄化苗提取小麦细胞核,成功制备出小麦DNA纤维。这为研究细胞有丝分裂的调控、染色体形态结构、易位染色体检测和易位染色体片段的精确测量与定位等提供了新的技术支撑。     

Factors affecting flow karyotype resolution.

BACKGROUND: One of the major factors which influences the chromosome purity achievable particularly during high speed sorting is the analytical resolution of individual chromosome peaks in the flow karyotype, as well as the amount of debris and fragmented chromosomes. We have investigated the factors involved in the preparation of chromosome suspensions that influence karyotype resolution. METHODS: Chromosomes were isolated from various human and animal cell types using a series of polyamine buffer isolation protocols modified with respect to pH, salt concentration, and chromosome staining time. Each preparation was analyzed on a MoFlo sorter (DAKO) configured for high speed sorting and the resolution of the flow karyotypes compared. RESULTS: High resolution flow cytometric data was obtained with chromosomes optimally isolated using hypotonic solution buffered at pH 8.0 and polyamine isolation buffer (with NaCl excluded) between pH 7.50 and 8.0. Extending staining time to more than 8 h with chromosome suspensions isolated from cell lines subjected to sufficient metaphase arrest times gave the best result with the lowest percentage of debris generated, tighter chromosome peaks with overall lower coefficients of variation, and a 1- to 5-fold increase in the yield of isolated chromosomes. CONCLUSIONS: Optimization of buffer pH and the length of staining improved karyotype resolution particularly for larger chromosomes and reduced the presence of chromosome fragments (debris). However, the most interesting and surprising finding was that the exclusion of NaCl in PAB buffer improved the yield and resolution of larger chromosomes.     

Separation of large quantities of chinese hamster chromosomes by velocity sedimentation at unit gravity followed by flow sorting (FACS II)

Separation of large quantities of isolated metaphase chromosomes of Chinese hamster cells was performed by velocity sedimentation at unit gravity in a specially designed sedimentation chamber. This simple and easy technique results in chromosome fractions of relatively high purity as determined by flow cytometry and microscopy. Up to 10¹⁰ chromosomes can be processed depending upon the size of the sedimentation device, and enrichments up to 10 times of individual chromosomes were achieved. In addition, further chromosome purification was performed by fluorescence activated flow sorting using fractions, pre-enriched at unit gravity. The flow sorted chromosomal fractions were pure according to flow cytometric analyses. The combination of l g sedimentation and flow-sorting opens the possibility for preparative chromosome sorting by reducing the flow sorting time considerably.     

Refined examination of plant metaphase chromosome structure at different levels made feasible by new isolation methods

Two methods for isolation of plant metaphase chromosomes are described. The first, micromanipulation, allows the isolation of a number of individual chromosomes, which may be used as templates for the generation of chromosome specific DNA libraries and for physical sequence mapping by the polymerase chain reaction (PCR). The second provides, from synchronized meristems, pure chromosome suspensions suitable for flow cytometric analysis and chromosome sorting. Restriction endonuclease banding, immunostaining of chromosomal antigens, as well as fluorescence in situ hybridization at high signal to noise ratio were successfully performed on the isolated chromosomes. Chromosomes obtained by both protocols were suitable for scanning electron microscopy, the methods should also prove useful for refined analyses of the karyotypes of other plant species.by D. Schweizer