An efficient method for miRNA detection and localization in crop plants

Successful investigation of common diseases requires advances in our understanding of the organization of the genome. Linkage disequilibrium provides a theoretical basis for performing candidate gene or whole-genome association studies to analyze complex disease. However, to constructively interrogate SNPs for these studies, technologies with sufficient throughput and sensitivity are required. A plethora of suitable and reliable methods have been developed, each of which has its own unique advantage. The characteristics of the most promising genotyping and polymorphism scanning technologies are presented. These technologies are examined both in the context of complex disease investigation and in their capacity to face the unique physical and molecular challenges (allele amplification, loss of heterozygosity and stromal contamination) of solid tumor research.

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Arg304 of Human DNA Primase Is a Key Contributor to Catalysis and NTP Binding: Primase and the Family X Polymerases Share Significant Sequence Homology

Kirk

Kuchta

1999

Biochemistry

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Comparison of the amino acid sequences of eucaryotic DNA primase and the family X polymerases indicates that primase shares significant sequence homology with this family. With the use of DNA polymerase beta (pol beta) as a paradigm for family X polymerases, these homologies include both the catalytic core domain/subunit of each enzyme (31 kDa domain of pol beta and p49 subunit of primase) as well as the accessory domain/subunit (8 kDa domain of pol beta and p58 subunit of primase). To further explore these homologies as well as provide insights into the mechanism of primase, we generated three mutants (R304K, R304Q, and R304A) of the p49 subunit at an arginine that is highly conserved between primase and the eukaryotic family X polymerases. These mutations significantly decreased the rate of primer synthesis, due primarily to a decreased rate of initiation, and the extent of impairment correlated with the severity of the mutation (A > Q > K). R304 also contributes to efficient utilization of the NTP that will become the 5'-terminus of the new primer, and these effects are at least partially mediated through interactions with the phosphates of this NTP. The implications of these results with respect to the structure and biological role of primase, as well as its relationship to the family X polymerases, are discussed.

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Interactions of DNA with Human DNA Primase Monitored with Photoactivatable Cross-Linking Agents: Implications for the Role of the p58 Subunit

et al. 1999

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Regulation of the p49-p58 primase complex during primer synthesis and the interaction of the primase subunits with DNA were examined. After primase synthesizes a primer that DNA polymerase alpha (pol alpha) can readily elongate, further primase activity is negatively regulated. This occurs within both the context of the four-subunit pol alpha-primase complex and in the p49-p58 primase complex, indicating that the newly generated primer-template species need not interact with pol alpha to regulate further primase activity. Photo-cross-linking of single-stranded DNA-primase complexes revealed that whereas the isolated p49 and p58 subunits both reacted with DNA upon photolysis, only the p58 subunit reacted with the DNA when photolysis was performed using the p49-p58 primase complex. After primer synthesis by the complex, p58 was again the only subunit that reacted with the DNA. These results suggest a model for regulation of primer synthesis in which the newly synthesized primer-template species binds to p58 and regulates further primer synthesis. Additionally, the ability of p58 to interact with primer-template species suggests that p58 mediates the transfer of primers from the primase active site to pol alpha.

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An endonuclease/ligase based mutation scanning method especially suited for analysis of neoplastic tissue

et al. 2002

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Knowledge of inherited and sporadic mutations in known and candidate cancer genes may influence clinical decisions. We have developed a mutation scanning method that combines thermostable EndonucleaseV (Endo V) and DNA ligase. Variant and wild-type PCR amplicons are generated using fluorescently labeled primers, and heteroduplexed. Thermotoga maritima (Tma) EndoV recognizes and primarily cleaves heteroduplex DNA one base 3' to the mismatch, as well as nicking matched DNA at low levels. Thermus species (Tsp.) AK16D DNA ligase reseals the background nicks to create a highly sensitive and specific assay. The fragment mobility on a DNA sequencing gel reveals the approximate position of the mutation. This method identified 31/35 and 8/8 unique point mutations and insertions/deletions, respectively, in the p53, VHL, K-ras, APC, BRCA1, and BRCA2 genes. The method has the sensitivity to detect K-ras mutations diluted 1 : 20 with wild-type DNA, a p53 mutation in a 1.7 kb amplicon, and unknown p53 mutations in pooled DNA samples. EndoV/Ligase mutation scanning combined with PCR/LDR/Universal array proved superior to automated DNA sequencing for detecting p53 mutations in colon tumors. This technique is well suited for scanning low-frequency mutations in pooled samples and for analysing tumor DNA containing a minority of the unknown mutation.

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Human DNA Primase: Anion Inhibition, Manganese Stimulation, and Their Effects on In Vitro Start-Site Selection

Kirk

Kuchta

1999

Biochemistry

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We examined the effects of Mn(2+) on eukaryotic DNA primase both in the presence and absence of 5 mM Mg(2+). In the absence of Mg(2+), Mn(2+)-supported primase activity to a level 4-fold greater than that obtained with Mg(2+) alone, and adding low levels of Mn(2+) (100 microM) to assays containing 5 mM Mg(2+) greatly stimulated primase. Increased activity was primarily due to more efficient utilization of NTPs, as reflected in a lower K(M) for NTPs. Under conditions of saturating NTPs, Mn(2+) had minimal effects on both the rate of initiation (i.e., dinucleotide synthesis) and processivity. The effects of Mn(2+) involve multiple metal binding sites on primase and may involve both the catalytic p49 subunit as well as the p58 subunit. Physiological levels of salt can inhibit primase activity due to the presence of an anion binding site and low levels of Mn(2+) significantly decreased this salt sensitivity. The implications of these results with respect to the biological role of primase are discussed.

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Novel Algorithms Reveal Streptococcal Transcriptomes and Clues about Undefined Genes

et al. 2007

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Bacteria–host interactions are dynamic processes, and understanding transcriptional responses that directly or indirectly regulate the expression of genes involved in initial infection stages would illuminate the molecular events that result in host colonization. We used oligonucleotide microarrays to monitor (in vitro) differential gene expression in group A streptococci during pharyngeal cell adherence, the first overt infection stage. We present neighbor clustering, a new computational method for further analyzing bacterial microarray data that combines two informative characteristics of bacterial genes that share common function or regulation: (1) similar gene expression profiles (i.e., co-expression); and (2) physical proximity of genes on the chromosome. This method identifies statistically significant clusters of co-expressed gene neighbors that potentially share common function or regulation by coupling statistically analyzed gene expression profiles with the chromosomal position of genes. We applied this method to our own data and to those of others, and we show that it identified a greater number of differentially expressed genes, facilitating the reconstruction of more multimeric proteins and complete metabolic pathways than would have been possible without its application. We assessed the biological significance of two identified genes by assaying deletion mutants for adherence in vitro and show that neighbor clustering indeed provides biologically relevant data. Neighbor clustering provides a more comprehensive view of the molecular responses of streptococci during pharyngeal cell adherence.

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Eucaryotic DNA Primase Does Not Prefer To Synthesize Primers at Pyrimidine Rich DNA Sequences When Nucleoside Triphosphates Are Present at Concentrations Found in Whole Cells^†

et al. 1997

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The critical role of NTP concentration in determining where calf thymus DNA primase synthesizes a primer on a DNA template was examined. Varying the concentration of NTPs dramatically altered the template sequences at which primase synthesized primers. At the low NTP concentrations typically used for in vitro experiments (100 microM), primase greatly preferred to synthesize primers at pyrimidine rich DNA sequences. However, when the concentrations of NTPs were increased to levels typically found in whole cells, primers were now synthesized in all regions of the template. Importantly, synthesis of primers in all regions of the DNA template, not just the pyrimidine rich sequences, is the pattern of primer synthesis observed during DNA replication in whole cells. With low concentrations of NTPs (i.e., Vmax/K(M) conditions), primers are only synthesized at the most preferred synthesis sites, namely, those that are pyrimidine rich. In contrast, under conditions of high NTP concentrations, primer synthesis will occur at the first potential synthesis site to which primase binds. Now, the primase x DNA complex will be immediately converted to a primase x DNA x NTP x NTP complex that is poised for primer synthesis.

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Brian W. Kirk

Single nucleotide polymorphism seeking long term association with complex disease

Arg304 of Human DNA Primase Is a Key Contributor to Catalysis and NTP Binding: Primase and the Family X Polymerases Share Significant Sequence Homology

Interactions of DNA with Human DNA Primase Monitored with Photoactivatable Cross-Linking Agents: Implications for the Role of the p58 Subunit

An endonuclease/ligase based mutation scanning method especially suited for analysis of neoplastic tissue

Human DNA Primase: Anion Inhibition, Manganese Stimulation, and Their Effects on In Vitro Start-Site Selection

Novel Algorithms Reveal Streptococcal Transcriptomes and Clues about Undefined Genes

Eucaryotic DNA Primase Does Not Prefer To Synthesize Primers at Pyrimidine Rich DNA Sequences When Nucleoside Triphosphates Are Present at Concentrations Found in Whole Cells^†

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Brian W. Kirk

Single nucleotide polymorphism seeking long term association with complex disease

Arg304 of Human DNA Primase Is a Key Contributor to Catalysis and NTP Binding: Primase and the Family X Polymerases Share Significant Sequence Homology

Interactions of DNA with Human DNA Primase Monitored with Photoactivatable Cross-Linking Agents: Implications for the Role of the p58 Subunit

An endonuclease/ligase based mutation scanning method especially suited for analysis of neoplastic tissue

Human DNA Primase: Anion Inhibition, Manganese Stimulation, and Their Effects on In Vitro Start-Site Selection

Novel Algorithms Reveal Streptococcal Transcriptomes and Clues about Undefined Genes

Eucaryotic DNA Primase Does Not Prefer To Synthesize Primers at Pyrimidine Rich DNA Sequences When Nucleoside Triphosphates Are Present at Concentrations Found in Whole Cells†

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Product

Resources

About

Eucaryotic DNA Primase Does Not Prefer To Synthesize Primers at Pyrimidine Rich DNA Sequences When Nucleoside Triphosphates Are Present at Concentrations Found in Whole Cells^†