Microdissection and microcloning of rye (Secale cereale L.) chromosome 1R

Chromosome 1R was microdissected and collected from mitotic metaphase spreads of rye (Secale cereale L.) by using glass needles. The isolated chromosomes were amplified in vitro by Sau3A linker adaptor-mediated polymerase chain reaction (PCR). After amplification, the presence of rye-specific DNA was verified by Southern hybridization. The second-round PCR products from five 1R chromosomes were cloned into a plasmid vector to create a chromosome-specific library, which produced approximately 220,000 recombinant clones. Characterization of the microclone library showed that the 172 clones evaluated ranged in size from 300–1800 bp with an average size of 950 bp, of which approximately 42% were medium/high copy and 58% were low/unique copy clones. Chromosome in situ hybridization confirmed that the PCR products from microdissected chromosomes originated from chromosome 1R, indicating that many chromosome 1R-specific sequences were present in the library. Received: 5 December 1998; in revised form: 15 April 1999 / Accepted: 29 April 1999     

Construction of poplar (Populus tremula) chromosome 1-specific DNA library by using a microdissection technique

A method for single-chromosome microdissection and microcloning was established in forest plants using poplar (Populus tremula) as a model. By use of meristematic cell division in root tip and the wall degradation hypotonic method, well-spread poplar metaphase chromosome spreads showing low contamination were quickly prepared and fitted for chromosome microdissection. An individual chromosome 1 was microdissected from the metaphase spreads of poplar root-tip cells with a fine glass needle controlled by a micromanipulator. The dissected chromosome was amplified in vitro by theSau3A linker adaptor-mediated PCR technique, by which 200- to 3000-bp smear DNA fragments were obtained. Southern hybridization results showed that the PCR products from the single poplar chromosome were homogeneous with poplar genomic DNA, indicating that DNA from the single chromosome has been successfully amplified. Next, the second-round PCR products from the single chromosome 1 were cloned into T-easy vectors to generate a DNA library of the chromosome 1. About 3×10⁵ recombinant clones were obtained. Evaluation based on 160 randomly selected clones showed that the sizes of the cloned inserts varied from 230–2200 bp, with an average of 800 bp. Therefore, this research suggests that microdissection and microcloning of single small chromosomes in forest plants is feasible.     

Construction of a DNA library from chromosome 4 of rice （Oryza sativa） by microdissection

A simple method to create a chromosome-specific DNA librqary of rice,including microdissection,amplification,charterization and cloning,is described.Rice chromosome 4 from a metaphase cell has been isolated and amplified by the Linker Adapter PCR (LA-PCR).The PCR products were labeled as probes with DIG-11-dUTP using the random priming method.Southern blot analysis with rice genomic DNA and specific RFLP markers demonstrated that the PCR products were derived from rice chromosome 4.A large library comprising over 100,000 recombinant plasmid microclones from rice chromosome 4 was constructed.Colony hybridization showed that 58% of the clones contained single or low-copy sequences and 42% contained repetitive sequences.The size of inserts generated by PCR ranged from 140bp to 500bp.This method will facilitate cloning of the specific chromosome DNA markers and important genes of rice.     

小麦6B染色体微切割及其不同片段的DNA文库构建

用Nd:YAG激光微束将处于丝分裂中期的小麦(Triticum aestivum L.)6B染色体微切割为四段,并用微细玻璃针将每个片段分别回收.将分离的染色体片段DNA用Sau3A接头介导的多聚酶链式反应(LA-PCR)分别扩增.Southem杂交证明4个特定区域的DNA确实来自于小麦基因组.用一系列(42对引物)位于6B染色体上的微卫星序列对微切割的染色体片段的PCR产物进行了验证.结果表明,获得的染色体片段的PCR产物来自于小麦6B染色体.将6B染色体4个片段的第二轮PCR产物克隆到pGET-vector中,建立了4个染色体特定区域的基因组文库,命名为R1、R2、R3和R4,分别包含2.1×105、2.74×105和2.93×105个重组子克隆.每个文库均随机挑选150个克隆进行质粒的小量制备和酶切验证.结果显示;插入片段大小在300～1800之间,平均大小为820～870bp,其中43%～48%的克隆为低/单拷贝序列,42%～47%为中/高拷贝序列.本研究为详细分析植物单染色体的不同片段的分子遗传学研究提供了基础.     

Construction and Characterization of the Microclone Library from Chromosome 1R in Rye

Two and five 1R chromosomes were microdissected from the metaphase spreads of rye ( Secale cereale L. ) root-rip cells with the aids of glass needles. The dissected chromosomes were amplified in vitro by the Sau3A linker adaptor mediated PCR technique, by which 0.3 to 2.5 kb smear DNA fragments were obtained. After hybridized with DIG labeled probes, it was confirmed that the PCR products of the microdissected chromosomes were homologous with the rye genomic DNA, and derived from the 1R chromosome as well. Then, the second round PCR products from five chromosomes of 1R were microcloned to construct the plasmid library, including 220 000 clones. 172 randomly selected clones were evaluated ranged in size from 300 to 1 800 bp. Furthermore, the genomic dot hybridization results indicated that the library contained nearly 42% medium/high repetitive sequences and 58% low/single copy sequences, and its redundancy was very low. In this research, many aspects of the 1R chromosome microclone library exceeded or approached those of the previous reports in the literatures. Those are potential for construction of a high density genetic map of chromosome IR, from which some important genes can be tagged and isolated.     

Microdissection and molecular manipulation of single chromosomes in woody fruit trees with small chromosomes using pomelo (<Emphasis Type="Italic">Citrus grandis</Emphasis>) as a model. I. Construction of single chromosomal DNA libraries

Construction of single chromosomal DNA libraries by means of chromosome microdissection and microcloning will be useful for genomic research, especially for those species that have not been extensively studied genetically. Application of the technology of microdissection and microcloning to woody fruit plants has not been reported hitherto, largely due to the generally small sizes of metaphase chromosomes and the difficulty of chromosome preparation. The present study was performed to establish a method for single chromosome microdissection and microcloning in woody fruit species using pomelo as a model. The standard karyotype of a pomelo cultivar (Citrus grandis cv. Guanxi) was established based on 20 prometaphase photomicrographs. According to the standard karyotype, chromosome 1 was identified and isolated with fine glass microneedles controlled by a micromanipulator. DNA fragments ranging from 0.3 kb to 2 kb were acquired from the isolated single chromosome 1 via two rounds of PCR mediated by Sau3A linker adaptors and then cloned into T-easy vectors to generate a DNA library of chromosome 1. Approximately 30,000 recombinant clones were obtained. Evaluation based on 108 randomly selected clones showed that the sizes of the cloned inserts varied from 0.5 kb to 1.5 kb with an average of 860 bp. Our research suggests that microdissection and microcloning of single small chromosomes in woody plants is feasible.Communicated by P. Langridge     

Development of microdissection and chromosome specific genomic library in Lilium tigrinum

Techniques for microdissection and microcloning were established using chromosome 1 of triploid Lilium tigrinum. Chromosome 1 was dissected from a membrane slide using a microbeam system. Digestion with proteinase K was done before PCR amplification for more than 24 hours. The dissected chromosomes were then amplified by degenerate oligonucleotide primed PCR (DOP-PCR) and linker adaptor-mediated PCR (LA-PCR). Successful PCR amplification relied on critical concentrations of both MgCl₂ and Taq polymerase. The optimum concentration of MgCl₂ and Taq polymerase was 2.5 mM and 0.5 U, respectively. Amplification of the dissected chromosome using DOP-PCR had more sensitivity dependent upon PCR factors, but LA-PCR was more dependent on the linker ligation. Amplified DNA products ranged from 100 to 2500 bp both for DOP- and LA-PCR. Evaluated clones only ranged from 100 to 1700 bp for DOP-PCR and 100 to 900 bp for LA-PCR. Based on the sequence results, most of the sequences from the DOP-PCR and LA-PCR showed no significant similarity with known data in NCBI database. However, about 2% of the sequence data was partially matched with plant microsatellites with low similarity. The results derived from the microdissection of a large genome organism such as Lilium showed informative and useful for the development of microsatellite repeat markers. Sequence data from the chromosome specific DNA library was considered for the development of microsatellite markers.     

Laser microdissection and single unique primer PCR allow generation of regional chromosome DNA clones from a single human chromosome.

We have developed an argon laser chromosome microdissection technique in conjunction with a polymerase chain reaction (PCR) approach to directly amplify microdissected chromosomes. The single 22-mer primer used in PCR, although unique in sequence (5'-TAGATCTGA-TATCTGAATTCCC-3'), randomly primed and amplified any target DNA. These methods were applied to the distal half of the short arm of human chromosome 4 containing the Huntington disease (HD) locus. Forty-four percent of representative clones from this library identify single-copy DNA sequences. This calculation suggests that the resulting chromosome-specific DNA library contains approximately 600 nonoverlapping sequences with an average size 350 bp at an average spacing of 30 kbp along chromosome 4. This microdissection and PCR cloning procedure is a simple and general approach for constructing a chromosome region-specific DNA library from a single metaphase spread.     

Number and evolutionary conservation of alpha- and beta-tubulin and cytoplasmic beta- and gamma-actin genes using specific cloned cDNA probes

A partial library of cloned human DNA was screened for sequences represented on and specific to the X chromosome. The library was constructed from Bam HI-digested human DNA from cells with X chromosome polyploidy, and was cloned in pBR322. The screening was performed by individually hybridizing ³²P-labeled cloned plasmids to Southern blots containing Bam HI-digested DNA from mouse-human hybrid cells having the human X chromosome and from derivative hybrids lacking the human X. Of 45 clones assayed, 33 contained sequences homologous to ones represented many times on the X. In situ hybridization to metaphase chromosomes demonstrated that at least four of these clones were homologous to autosomes as well. Only one of the 18 clones of this kind tested cross-hybridized with another. Two recombinant plasmids were shown to be derived from the X chromosome and to be X chromosome-specific by three criteria: they hybridized to a single band in the Southern blots of Bam HI-digested DNA from hybrid cells containing the X chromosome; they hybridized to a band of the same molecular weight as did the inserted DNA fragment; and they showed a dosage effect when hybridized to Southern blots of Bam HI-digested DNA from XY and XXX cells. One of these hybridized as a single-copy or low-order reiterated sequence in a Cot analysis using male DNA as driver. Our methods can be applied to the identification of any chromosome-specific clone. The two X-specific clones identified here should be useful in investigating the mechanism of X inactivation and in isolating a Barr body.     

番木瓜单染色体的显微分离与克隆

用玻璃针显微分离出番木瓜(CaricapapayaL.)单染色体,经过LA-PCR扩增得到80-700bp的DNA片段。Southern杂交表明,扩增片段与番木瓜基因组DNA之间有同源性,从而证明番木瓜单染色体DNA已经被成功扩增。将扩增产物克隆到pGEM-T-Easy载体中,约获得1.18×105个克隆,酶切鉴定插入片段大小为100-400bp。     

The Middle Region of an HP1-binding Protein, HP1-BP74, Associates with Linker DNA at the Entry/Exit Site of Nucleosomal DNA

In higher eukaryotic cells, DNA molecules are present as chromatin fibers, complexes of DNA with various types of proteins; chromatin fibers are highly condensed in metaphase chromosomes during mitosis. Although the formation of the metaphase chromosome structure is essential for the equal segregation of replicated chromosomal DNA into the daughter cells, the mechanism involved in the organization of metaphase chromosomes is poorly understood. To identify proteins involved in the formation and/or maintenance of metaphase chromosomes, we examined proteins that dissociated from isolated human metaphase chromosomes by 0.4 m NaCl treatment; this treatment led to significant chromosome decondensation, but the structure retained the core histones. One of the proteins identified, HP1-BP74 (heterochromatin protein 1-binding protein 74), composed of 553 amino acid residues, was further characterized. HP1-BP74 middle region (BP74Md), composed of 178 amino acid residues (Lys⁹⁷–Lys²⁷⁴), formed a chromatosome-like structure with reconstituted mononucleosomes and protected the linker DNA from micrococcal nuclease digestion by ∼25 bp. The solution structure determined by NMR revealed that the globular domain (Met¹⁵³–Thr²³⁷) located within BP74Md possesses a structure similar to that of the globular domain of linker histones, which underlies its nucleosome binding properties. Moreover, we confirmed that BP74Md and full-length HP1-BP74 directly binds to HP1 (heterochromatin protein 1) and identified the exact sites responsible for this interaction. Thus, we discovered that HP1-BP74 directly binds to HP1, and its middle region associates with linker DNA at the entry/exit site of nucleosomal DNA in vitro.     

A DNA library from an individual Beta patellaris chromosome conferring nematode resistance obtained by microdissection of meiotic metaphase chromosomes

We have used a standard protocol established for human chromosomes to create a chromosome-specific plasmid library from a Beta patellaris chromosome conferring nematode resistance. A monosomic addition line was chosen carrying 18 sugar-beet (Beta vulgaris L.) and one wild-beet (B. patellaris) chromosome. The wild-beet chromosome can readily be identified as a univalent during metaphase I of meiosis. Highly synchronized meiotic material was used to excise the univalents from four pollen mother cells. The chromatin was lysed in a 1 nl collection drop, the DNA purified and restricted with Rsa I, ligated into a vector containing universal sequencing primers, and amplified by the polymerase chain reaction. The amplified DNA was inserted into a standard plasmid vector and cloned. Approximately 23 000 recombinant plasmids were obtained of which 15 800 could be utilized. Their insert sizes ranged from 80 to 700 bp with an average of 130 bp. 61 clones were tested in more detail by genomic Southern hybridization with sugar-beet and wild-beet DNA. Of these 32 plasmids (52%) contained single-copy inserts, 11 (18%) were specific for wild-beet DNA indicating that the DNA cloned originates in the univalent chromosome. The application of this technique for establishing high-density RFLP maps for discrete regions of plant genomes is discussed.     

Studies on Microdissection and Microcloning of the Rye Chromosome 1R

Two 1R chromosomes of Secale cereale L. were isolated from one metaphase cell by means of chromosome micro-isolation, and the chromosomal DNA was amplified adopting the cohesive adapters single primer polymerase chain reaction (CASP-PCR) technique. The CASP-PCR products were labeled as probes. The results of Southern blot hybridization confirmed that the CASP- PCR products derived from the chromosome IR were homologous with the genomic DNA of S. cereale. The clones of PCR products were obtained with high efficiency. Over 10 000 recombinant clones were obtained from one-tenth of the ligation mixture which was transferred into the competent E. coli DH5a. The size of the inserted fragments of clones ranged from 250 bp to 500 bp. This research has established the foundation for further selection of chromosome 1R markers.     

Microamplification of specific chromosome sequences; an improved method for genome analysis.

An improved method was developed for microdissection and cloning of metaphase as well as pachytene chromosomes. The protocol incorporates efficient ligation of chromosomal DNA with linker adaptors, abolishment of microcloning steps and the reduction of micromanipulation. The threshold for amplifying genomic DNA template was in the range of 2-20 femtogram. The amplification products had a size distribution between 200 and 1300 bp (average 500 bp). Using pachytene chromosomes of maize the selectivity for segment-specific libraries can be increased between 10- and 20-fold. The approach described here is being applied to the fine mapping and isolation of genes conveying resistance against plant pathogens.     

Localization of BAC clones on mitotic chromosomes of <Emphasis Type="Italic">Musa acuminata</Emphasis> using fluorescence <Emphasis Type="Italic">in situ</Emphasis> hybridization

A bacterial artificial chromosome (BAC) library of banana (Musa acuminata) was used to select BAC clones that carry low amounts of repetitive DNA sequences and could be suitable as probes for fluorescence in situ hybridization (FISH) on mitotic metaphase chromosomes. Out of eighty randomly selected BAC clones, only one clone gave a single-locus signal on chromosomes of M. acuminata cv. Calcutta 4. The clone localized on a chromosome pair that carries a cluster of 5S rRNA genes. The remaining BAC clones gave dispersed FISH signals throughout the genome and/or failed to produce any signal. In order to avoid the excessive hybridization of repetitive DNA sequences, we subcloned nineteen BAC clones and selected their ‘low-copy’ subclones. Out of them, one subclone gave specific signal in secondary constriction on one chromosome pair; three subclones were localized into centromeric and peri-centromeric regions of all chromosomes. Other subclones were either localized throughout the banana genome or their use did not result in visible FISH signals. The nucleotide sequence analysis revealed that subclones, which localized on different regions of all chromosomes, contained short fragments of various repetitive DNA sequences. The chromosome-specific BAC clone identified in this work increases the number of useful cytogenetic markers for Musa.     

High-resolution mapping of repetitive DNA by in situ hybridization: molecular and chromosomal features of prominent dispersed and discretely localized DNA families from the wild beet species Beta procumbens

Members of three prominent DNA families of Beta procumbens have been isolated as Sau3A repeats. Two families consisting of repeats of about 158 bp and 312 bp are organized as satellite DNAs (Sau3A satellites I and II), whereas the third family with a repeat length of 202 bp is interspersed throughout the genome. Multi-colour fluorescence in situ hybridization was used for physical mapping of the DNA families, and has shown that these tandemly organized families occur in large heterochromatic and DAPI positive blocks. The Sau3A satellite I hybridized exclusively around or near the centromeres of 10, 11 or 12 chromosomes. The Sau3A satellite family I showed high intraspecific variability and high-resolution physical mapping was performed on pachytene chromosomes using differentially labelled repeats. The physical order of satellite subfamily arrays along a chromosome was visualized and provided evidence that large arrays of plant satellite repeats are not contiguous and consist of distinct subfamily domains. Re-hybridization of a heterologous rRNA probe to mitotic metaphase chromosomes revealed that the 18S-5.8S-25S rRNA genes are located at subterminal position on one chromosome pair missing repeat clusters of the Sau3A satellite family I. It is known that arrays of Sau3A satellite I repeats are tightly linked to a nematode (Heterodera schachtii) resistance gene and our results show that the gene might be located close to the centromere. Large arrays of the Sau3A satellite II were found in centromeric regions of 16 chromosomes and, in addition, a considerable interspersion of repeats over all chromosomes was observed. The family of interspersed 202 bp repeats is uniformly distributed over all chromosomes and largely excluded from the rRNA gene cluster but shows local amplification in some regions. Southern hybridization has shown that all three families are specific for genomes of the section Procumbentes of the genus Beta.     

向日葵单染色体显微分离及特异文库的构建

采用玻璃针分离法,通过显微操作系统成功地分离到内葵杂3号三交种和单交种的随体染色体,经两轮LA．PCR扩增得到250～1500bp的DNA片段。用各自的基因组DNA标记成探针,与随体染色体扩增产物进行Southern杂交,显示杂交信号,证明内葵杂3号三交种和单交种随体染色体DNA已被成功扩增。将第2轮PCR产物构建质粒文库,得到三交种和单交种克隆数分别约为2．26×10^5和2．57×10^5。各随机挑取30个重组子进行分析,发现插入片段大小分别为200-700bp和200～500bp,平均插入片段大小分别为535bp和480bp。这是染色体微分离与微克隆技术首次在向日葵上的应用。     

Preparation of single rice chromosome for construction of a DNA library using a laser microbeam trap

We report the development of a laser micromanipulation system and its application in the isolation of individual rice chromosomes directly from a metaphase cell. Microdissection and flow sorting are two major methods for the isolation of single chromosome. These methods are dependent on the techniques of chromosome spread and chromosome suspension, respectively. In the development of this system, we avoided using chromosome spread and cell suspension was used instead. The cell wall of metaphase rice cell was cut by optical scissors. The released single chromosome was captured by an optical trap and transported to an area without cell debris. The isolated single chromosome was then collected and specific library was constructed by linker adaptor PCR. The average insert size of the library was about 300 bp. Two hundred inserts of chromosome 4 library were sequenced, and 96.5% were aligned to the corresponding sequences of rice chromosome 4. These results suggest the possible application of this method for the preparation of other subcellular structures and for the cloning of single macromolecule through a laser microbeam trap.     

利用微分离黑麦1R染色体的体外扩增产物进行染色体着染研究

首先对显微分离出的黑麦（ＳｅｃａｌｅｃｅｒｅａｌｅＬ．）１Ｒ染色体进行了两轮Ｓａｕ３Ａ连接接头介导的ＰＣＲ扩增（ＬＡ＿ＰＣＲ）。经Ｓｏｕｔｈｅｒｎ杂交证实这些染色体扩增片段来源于基因组ＤＮＡ之后,再利用１Ｒ染色体的第二轮扩增产物、黑麦基因组ＤＮＡ、ｒＤＮＡ基因为探针,与其根尖细胞中期分裂相进行染色体原位杂交,发现微分离的１Ｒ染色体体外扩增产物中包含大量的非该染色体特异性重复序列,而其信息量却较黑麦总基因组少;当以适量的黑麦基因组ＤＮＡ进行封阻时,微分离染色体的体外扩增产物成功地被重新定位在中期分裂相的一对１Ｒ染色体上,说明微分离１Ｒ染色体的ＰＣＲ扩增产物中的确包含了该染色体特异性的片段。此外,以从１Ｒ染色体微克隆文库中筛选出的一单、低拷贝序列和一高度重复序列分别为探针,染色体原位杂交检测发现,这一高度重复序列可能为端粒相关序列;而单、低拷贝序列却未检测到杂交信号。这些结果从不同侧面反映出染色体着染技术是证实微分离、微切割染色体的真实来源及筛选染色体特异性探针的有利工具。建立了可供参考的植物染色体着染实验体系,为染色体微克隆技术在植物中的进一步应用提供了便利。     

Microdissection of M chromosome in Vicia faba and its library construction]

Microdissection and microcloning technique was employed to construct the library of M chromosome in Vicia faba. The M chromosomes were microdissected with a micromanipulator and were put into a 0.5 ml Eppendorf tube, then digested with Sau3A. Sau3A linker adaptors were ligated to the end of chromosome DNA fragments, and two rounds of PCR were carried out with one chain of linker adaptor as the primer. The PCR products ranged in size from 300 base pair (bp) to 3000 bp with predominant fragments from 500 bp to 1500 bp. Southern hybridization analysis confirmed that PCR products originated from Vicia faba genome. The second round PCR products were cloned and about 102,000 recombinants were obtained. 118 recombinants were selected randomly for analysis. The inserts ranged in size from 150 bp to 3000 bp with an average of 690 bp. Dot blot was carried out for 100 clones with DIG labeled Vicia faba genome DNA as probes. The result revealed that 51% were low and unique copy sequences, 49% were repetitive sequences. M chromosome DNA library has not been reported before.