Mapping transposon insertion sites by touchdown PCR and hybrid degenerate primers

A novel mapping method based on touchdown PCR was developed for identifying a transposon insertion site in genomic DNA using a hybrid consensus-degenerate primer in combination with a specific primer that anneals to the transposon. The method was tested using Xanthomonas citri transposon mutants. PCR products contained adjacent DNA regions that belonged to both X. citri genomic DNA and the transposon. Products were directly sequenced from PCRs using only the specific primer. Different PCR conditions were tested, and the optimized reaction parameters that increased product yields and specificity are described. Best results were obtained with the HIB17 hybrid primer, which is a 25-mer oligonucleotide having degenerate bases at 6 different positions within the last 12 bases at the 3' end. An X. citri mutants library was produced by random transposition using the EZ::TN transposon, and we identified the insertion sites within the genome of 90 mutants. Insertions were found within both the chromosomal and the plasmid DNA in these X. citri mutants. Restriction mapping and Southern blot analysis confirmed the insertion sites for eight randomly chosen mutants. This method is a very useful tool for large-scale characterization of mutants in functional genomics studies.     

A PCR-based test for the presence of endogenous virus gene evA in chickens

An endogenous virus, denoted ev A, is present at high frequency in all brown egg layer lines. Using inverse polymerase chain reaction (PCR) based on the viral LTR regions, products were obtained containing cellular sequences 5' and 3' to the viral insertion point. PCR of chicken genomic DNA was carried out, using primers chosen from the 5' and 3' cellular sequences and a primer chosen from either the U3 or U5 portions of the viral LTR. Amplification of DNA from birds that did not carry ev A with the primer triplets always gave a single 364bp reaction product, interpreted as representing the flank-to-flank amplification product. Amplification of DNA from known homozygous or heterozygous ev A carriers, with the same primer triplets, always gave both the expected junction product and 364bp product. Therefore, these primer sequences can be used to distinguish ev A carriers from non-carriers but cannot distinguish between homozygous and heterozygous ev A carriers.     

Analysis of duck hepatitis B virus reverse transcription indicates a common mechanism for the two template switches during plus-strand DNA synthesis

The synthesis of the hepadnavirus relaxed circular DNA genome requires two template switches, primer translocation and circularization, during plus-strand DNA synthesis. Repeated sequences serve as donor and acceptor templates for these template switches, with direct repeat 1 (DR1) and DR2 for primer translocation and 5'r and 3'r for circularization. These donor and acceptor sequences are at, or near, the ends of the minus-strand DNA. Analysis of plus-strand DNA synthesis of duck hepatitis B virus (DHBV) has indicated that there are at least three other cis-acting sequences that make contributions during the synthesis of relaxed circular DNA. These sequences, 5E, M, and 3E, are located near the 5' end, the middle, and the 3' end of minus-strand DNA, respectively. The mechanism by which these sequences contribute to the synthesis of plus-strand DNA was unclear. Our aim was to better understand the mechanism by which 5E and M act. We localized the DHBV 5E element to a short sequence of approximately 30 nucleotides that is 100 nucleotides 3' of DR2 on minus-strand DNA. We found that the new 5E mutants were partially defective for primer translocation/utilization at DR2. They were also invariably defective for circularization. In addition, examination of several new DHBV M variants indicated that they too were defective for primer translocation/utilization and circularization. Thus, this analysis indicated that 5E and M play roles in both primer translocation/utilization and circularization. In conjunction with earlier findings that 3E functions in both template switches, our findings indicate that the processes of primer translocation and circularization share a common underlying mechanism.     

通过PCR进行长片段DNA的合成

利用PCR合成DNA长片段(Synthesis Large Frament DNA using PCR,SLFD PCR)是一种有效的合成长片段DNA的方法。采用一段已知的500～600bp碱基的DNA片段为PCR模板,根据所要合成的DNA序列可以设计一系列的PCR引物,这些引物都位于模板DNA的5’端,长度为50～60bp,且从5’到3’方向顺序重叠,重叠碱基数目为12～15,全部引物叠加所得到的DNA正是自己所要合成的DNA。这组引物中最3’端的一条含有一个BamH Ⅰ酶切位点,在该位点后面有15碱基与模板DNA5’端一致的序列。另外还设计一条与该模板匹配的下游引物,引物内也含有一个BamH Ⅰ酶切位点。首先采用5’端最右侧的引物与下游引物进行PCR,在PCR进行10个循环后,以此次PCR的产物为下一轮PCR的模板,该轮PCR采用右侧倒数第二个引物为上游引物,下游引物保持不变。采用类似的方法,完成所有的PCR循环,就可以得到所需要合成的DNA长片段。该方法尤其适合100～200碱基左右的长片段DNA的快速合成与克隆。     

The anchor site of telomerase from Euplotes aediculatus revealed by photo-cross-linking to single- and double-stranded DNA primers.

Telomerase is a ribonucleoprotein enzyme that adds telomeric sequence repeats to the ends of linear chromosomes. In vitro, telomerase has been observed to add repeats to a DNA oligonucleotide primer in a processive manner, leading to the postulation of a DNA anchor site separate from the catalytic site of the enzyme. We have substituted photoreactive 5-iododeoxypyrimidines into the DNA oligonucleotide primer d(T4G4T4G4T4G2) and, upon irradiation, obtained cross-links with the anchor site of telomerase from Euplotes aediculatus nuclear extract. No cross-linking occurred with a primer having the same 5' end and a nontelomeric 3' end. These cross-links were shown to be between the DNA primer and (i) a protein moiety of approximately 130 kDa and (ii) U51-U52 of the telomerase RNA. The cross-linked primer could be extended by telomerase in the presence of [alpha-32P]dGTP, thus indicating that the 3' end was bound in the enzyme active site. The locations of the cross-links within the single-stranded primers were 20 to 22 nucleotides upstream of the 3' end, providing a measure of the length of DNA required to span the telomerase active and anchor sites. When the single-stranded primers are aligned with the G-rich strand of a Euplotes telomere, the cross-linked nucleotides correspond to the duplex region. Consistent with this finding, a cross-link to telomerase was obtained by substitution of 5-iododeoxycytidine into the CA strand of the duplex region of telomere analogs. We conclude that the anchor site in the approximately 130-kDa protein can bind duplex as well as single-stranded DNA, which may be critical for its function at chromosome ends. Quantitation of the processivity with single-stranded DNA primers and double-stranded primers with 3' tails showed that only 60% of the primer remains bound after each repeat addition.     

Localization of the large subunit of replication factor C near the 5' end of DNA primers

Replication factor C (RFC) is a heteropentameric sliding clamp loader protein essential for processive synthesis of DNA by eukaryotic DNA polymerases delta and epsilon. To study the interaction of RFC with 3' and 5' ends of the DNA primer, we have developed chemical photocrosslinking assay using a synthetic DNA gap and DNA primer-template structures. We have found that the radioactively labeled primers containing a photoreactive group at their 5' end could crosslink with the largest RFC subunit (RFC140) on primer-templates and DNA gap structures, but that 3' end photoreactive primers could only crosslink with RFC140 within the DNA gap structure. Addition of replication protein A (RPA) to the reaction mixture resulted in the crosslinking of RPA subunits and inhibited crosslinking of RFC140 using 3' but not 5' photoreactive primers present at the gap. The results suggest specific contacts between RFC140 and the 5' end of the DNA primer. Together with previous data, these experiments allow us to propose a model for the DNA polymerase switch during eukaryotic DNA replication.     

油菜单显性核雄性不育基因的分子标记

以陕西省杂交油菜研究中心选育的单显性核不育油菜分离群体为材料,利用集群分离法（BSA）对该油菜单显性核不育基因进行了RAPD分析。在随机选取的300个10碱基随机引物中,引物S243（5′CTATGCCGAC3′）在可育集团与不育集团间扩增出特异而可重复的1．5kb的多态性片段OPU-031500,而在细胞质雄性不育和其它核不育类型油菜中均未扩增出上述特异性片段,从而确证此RAPD标记OPU-031500。片段是与甘蓝型油菜单显性核不育基因连锁的。将该多态性片段克隆并测序,发现其序列与拟南芥的一段DNA序列高度同源。根据同源序列及测序结果设计两对特异引物（P1／P2和P3／P4）,引物P3／P4在可育系中可扩增到约1．5kb的单一特异片断,而在不育系中无带,从而将RAPD标记转化为稳定可靠的SCAR标记。     

Use of tagged random hexamer amplification (TRHA) to clone and sequence minute quantities of DNA--application to a 180 kb plasmid isolated from Sphingomonas F199.

We have developed a novel method to clone and sequence minute quantities of DNA. The method was applied to sequence a 180 kb plasmid pNL1. The first step was the production of a size distributed population of DNA molecules that were derived from the 180 kb plasmid pNL1. The first step was accomplished by a random synthesis reaction using Klenow fragment and random hexamers tagged with a T7 primer at the primer 5'-end (T7-dN6, 5'-GTAATACGACTCACTATAGGGCNNNNNN-3'. In the second step, Klenow-synthesized molecules were amplified by PCR using T7 primer (5'-GTAATACGACTCACTATAGGGC-3'). With a hundred nanograms starting plasmid DNA from pNL1, we were able to generate Klenow-synthesized molecules with sizes ranging from 28 bp to >23 kb which were detectable on an agarose gel. The Klenow-synthesized molecules were then used as templates for standard PCR with T7 primer. PCR products of sizes ranging from 0.3 to 1.3 kb were obtained for cloning and sequencing. From the same Klenow-synthesized molecules, we were also able to generate PCR products with sizes up to 23 kb by long range PCR. A total 232.5 kb sequences were obtained from 593 plasmid clones and over twenty putative genes were identified. Sequences from these 593 clones were assembled into 62 contigs and 99 individual sequence fragments with a total unique sequence of 86.3 kb.     

Characterization and mapping of the pyrophosphorolytic activity of the phage phi 29 DNA polymerase. Involvement of amino acid motifs highly conserved in alpha-like DNA polymerases.

The phi 29 DNA polymerase, an alpha-like DNA polymerase, shows an inorganic pyrophosphate-dependent degradative activity with similar requirements to the corresponding one of Escherichia coli DNA polymerase I: (a) it requires a high concentration of inorganic pyrophosphate and is reversed by polymerization; (b) like DNA polymerization, it needs a duplex DNA with protruding 5' single-strand; (c) it acts in the 3' to 5' direction releasing free dNTPs, thus, it can be considered as the reversal of polymerization; (d) although a correctly base-paired 3' primer terminus is the preferred substrate, the pyrophosphorolytic activity is able to remove mismatched 3' ends. In agreement with the structural and functional model previously proposed for the phi 29 DNA polymerase, the analysis of point mutations has revealed that the pyrophosphorolytic activity, like the polymerization activity, is located at the C-terminal portion of the molecule, involving the amino acid motif YCDTD, highly conserved in alpha-like DNA polymerases. Furthermore, the analysis of phi 29 DNA polymerase mutants indicates that pyrophosphorolysis, like DNA polymerization, also requires an efficient translocation of the enzyme along the template.     

Restriction enzyme site-directed amplification PCR: a tool to identify regions flanking a marker DNA

An innovative combination of various recently described molecular methods was set up to efficiently identify regions flanking a marker DNA in insertional mutants of Chlamydomonas. The technique is named restriction enzyme site-directed amplification PCR (RESDA-PCR) and is based on the random distribution of frequent restriction sites in a genome and on a special design of primers. The primer design is based on the presence of a restriction site included in a low degenerated sequence at the 3' end and of a specific adapter sequence at the 5' end, with the two ends being linked by a polyinosine bridge. Specific primers of the marker DNA combined with the degenerated primers allow amplification of DNA fragments adjacent to the marker insertion by using two rounds of either short or long cycling procedures. Amplified fragments from 0.3 to 2 kb or more are routinely obtained at sufficient purity and quantity for direct sequencing. This method is fast, is reliable (87% success rate), and can be easily extrapolated to any organism and marker DNA by designing the appropriate primers. A procedure involving the PCR over enzyme digest fragments is also proposed for when, exceptionally, positive results are not obtained.     

Interaction of a DNA-binding protein, the product of gene D5 of bacteriophage T5, with double-stranded DNA: effects on T5 DNA polymerase functions in vitro.

The gene D5 product (gpD5) of bacteriophage T5 is a DNA-binding protein that binds preferentially to double-stranded DNA and is essential for T5 DNA replication, yet it inhibits DNA synthesis in vitro. Mechanisms of inhibition were studied by using nicked DNA and primed single-stranded DNA as a primer-template. Inhibition of T5 DNA polymerase activity by gpD5 occurred when double-stranded regions of DNA were saturated with gpD5. The 3' leads to 5' exonuclease associated with T5 DNA polymerase was not very active with nicked DNA, but inhibition of hydrolysis of substituents at 3'-hydroxyl termini by gpD5 could be observed. T5 DNA polymerase appears to be capable of binding to the 3' termini even when double-stranded regions are saturated with gpD5. The interaction of gpD5 with the polymerases at the primer terminus is apparently the primary cause of inhibition of polymerization.     

RNA-linked nascent DNA pieces in phage T7-infected Escherichia coli. III. Detection of intact primer RNA

RNA-linked DNA fragments of T7-infected Escherichiacoli were labeled with [(32)P]orthophosphate invivo. The RNA segments of the labeled fragments were isolated by degrading the DNA portion with the 3'--> 5' exonuclease intrinsic to bacteriophage T4 DNA polymerase and fractionated according to net charge by a DEAE-Sephadex A-25 column chromatography in the presence of 7 M urea. Tri-, tetra- and pentanucleotides were obtained which have ATP residues at their 5' ends. Most of the pentanucleotides had a single deoxynucleotide at the 3' end but a minor portion was totally an oligoribonucleotide. In the light of prior results, the former is a cooligomer of an intact tetraribonucleotide primer and a monodeoxynucleotide and the latter is an intact pentaribonucleotide primer. Tri- and tetraribonucleotides with ATP at the 5' ends had no deoxynucleotide at the 3' ends, therefore it is not clear if intact triribonucleotide primers are present. The 5'-terminal dinucleotides of the tetra- and pentanucleotides were mostly pppApC and a trace amount of pppApA was present.Images     

Thermodynamic dissection of the polymerizing and editing modes of a DNA polymerase

DNA polymerases with intrinsic proofreading activity interact with DNA primer/templates in two distinct modes, corresponding to the complexes formed during the 5'-3' polymerization or 3'-5' editing of a nascent DNA chain. Thermodynamic measurements designed to quantify the energetic contributions of individual DNA-protein contacts in either the polymerizing or editing complexes are complicated by the fact that both species exist in solution and are not resolved in conventional DNA-protein binding assays. To overcome this problem, we have developed a new binding analysis that combines information from steady-state and time-resolved fluorescence experiments and uses the Klenow fragment of Escherichia coli DNA polymerase I (KF) and fluorescently labeled primer/template oligonucleotides as a model polymerase-DNA system. Steady-state fluorescence titrations are used to evaluate the overall affinity of KF for the primer/template, while time-resolved fluorescence anisotropy is used to quantify the equilibrium fractions of the primer/template bound in the polymerizing and editing modes. From a combined analysis of both data, the equilibrium constant and hence standard free energy change associated with each binding mode can be obtained unequivocally. This method is initially used to determine the equilibrium constants describing binding of a correctly base-paired primer/template to the 5'-3' polymerase and 3'-5' exonuclease sites of KF. It is then extended to quantify the extent to which these parameters are affected by the introduction of mismatches into the primer/template, and by rearrangement of specific side-chains in the exonuclease domain of the protein. While these perturbants were originally designed to demonstrate the utility of our new approach, they are also relevant in their own right since they have helped identify some hitherto unknown determinants of polymerase fidelity.     

Detection ofBurkholderia pseudomallei in rice fields with PCR-based technique

Burkholderia pseudomallei Ara- in rice fields was detected using PCR-based techniques with 16S RNA and flagella gene primer sets. The sensitivity of these PCRs was at least 1 CFU/mL of B. pseudomallei Ara- preincubated into Ashdown's medium for 6 h. B. pseudomallei Ara- DNA from watery soil were more detectable than from dry soil. The distribution of this DNA was mainly found at a depth of 300-600 mm under crop-covered fields, but not detected in the location of soil close to the land surface. The results suggest that PCR based on 16S RNA and flagella gene primer sets can be applied to investigate the presence of B. pseudomallei Ara- in contaminated soil of rice fields.     

利用S-SAP鉴定富士苹果芽变

利用银染S-SAP技术对苹果'富士'及其14个芽变品种进行研究,结果发现,筛选出的6对引物中,L12/E7能够将所有'富士'芽变品种同'富士'区分开来,其余5对引物能够在芽变品种中区分'秋富5号'、'烟富1'、'盛放富1'和'长富1号'.由于S-SAP多态性主要由基因组内逆转座子的转座引起,因此'富士'苹果芽变品种的产生可能与逆转座子的插入有关.     

Alkali-labile structures linked to the 5'' ends of Bacillus subtilis short DNA chains.

Alkali-labile portion covalently linked to the 5' ends of Bacillus subtilis short DNA chains, the putative primer RNA for discontinuous DNA synthesis, was isolated and analyzed using a temperature sensitive DNA polymerase I mutant, which accumulates nascent DNA fragments at a restrictive temperature. A novel oligonucleotide structure as well as mono- to triribonucleotide stretches were isolated at the 5' end of the short DNA chains. A structure for the novel oligonucleotide is proposed to be p5' X3' pp5' rN, where X represents unidentified nucleoside with a peculiar property. Possible metabolic relationship between these molecules and primer RNA has been discussed.     

Mechanisms of selective inhibition of 3' to 5' exonuclease activity of Escherichia coli DNA polymerase I by nucleoside 5'-monophosphates.

The 3' to 5' exonuclease activity of Escherichia coli DNA polymerase I can be selectively inhibited by nucleoside 5'-monophosphates, wherease the DNA polymerase activity is not inhibited. The results of kinetic studies show that nucleotides containing a free 3'-hydroxy group and a 5'-phosphoryl group are competitive inhibitors of the 3' to 5' exonuclease. Previous studies by Huberman and Kornberg [Huberman, J., and Kornberg, A. (1970), J. Biol. Chem. 245, 5326] have demonstrated a binding site for nucleoside 5'-monophosphates on DNA polymerase I. The Kdissoc values for nucleoside 5'-monophosphates determined in that study are comparable to the Ki values determined in the present study, suggesting that the specific binding site for nucleoside 5'-monophosphates represents the inhibitor site of the 3' to 5' exonuclease activity. We propose that (1) the binding site for nucleoside 5'-monophosphates on DNA polymerase I may represent the product site of the 3' to 5' exonuclease activity. (2) the primer terminus site for the 3' to 5' exonuclease activity is distinct from the primer terminus site for the polymerase activity, and (3) nucleoside 5'-monophosphates bind at the primer terminus site for the 3' to 5' exonuclease activity.     

Studies of the DNA helicase-RNA primase unit from bacteriophage T4. A trinucleotide sequence on the DNA template starts RNA primer synthesis

The purified DNA replication proteins encoded by genes 41 and 61 of bacteriophage T4 catalyze efficient RNA primer synthesis on a single-stranded DNA template. In the presence of additional T4 replication proteins, we demonstrate that the template sequences 5'-GTT-3' and 5'-GCT-3' serve as necessary and sufficient signals for RNA primer-dependent initiation of new DNA chains. These chains start with primers that have the sequences pppApCpNpNpN and pppGpCpNpNpN, where N can be any one of the four ribonucleotides. Each primer is initiated from the T (A-start primers) or C (G-start primers) in the center of the recognized template sequence. A subset of the DNA chain starts is observed when one of the four ribonucleoside triphosphates used as the substrates for primer synthesis is omitted; the starts observed reveal that both pentaribonucleotide and tetraribonucleotide primers can be used for efficient initiation of new DNA chains, whereas primers that are only 3 nucleotides long are inactive. It was known previously that, when 61 protein is present in catalytic amounts, the 41 and 61 proteins are both required for observing RNA primer synthesis. However, by raising the concentration of the 61 protein to a much higher level, a substantial amount of RNA-primed DNA synthesis is obtained in the absence of 41 protein. The DNA chains made are initiated by primers that seem to be identical to those made when both 41 and 61 proteins are present; however, only those template sites containing the 5'-GCT-3' sequence are utilized. The 61 protein is, therefore, the RNA primase, whereas the 41 protein should be viewed as a DNA helicase that is required (presumably via a 41/61 complex) for efficient primase recognition of both the 5'-GCT-3' and 5'-GTT-3' DNA template sequences.