Catherine M. Wernette scite author profile

The mitochondrial DNA polymerase from embryos of Drosophila melanogaster has been examined with regard to template-primer utilization, processivity, and fidelity of nucleotide polymerization. The enzyme replicates predominantly single-stranded and double-stranded DNAs: the rate of DNA synthesis is greatest on the gapped homopolymeric template poly(dA).oligo(dT), while the highest substrate specificity is observed on single-stranded DNA templates of natural DNA sequence. Kinetic experiments and direct physical analysis of DNA synthetic products indicate that the Drosophila DNA polymerase gamma polymerizes nucleotides by a quasi-processive mechanism. The mitochondrial enzyme demonstrates a high degree of accuracy in nucleotide incorporation which is nearly identical with that of the replicative DNA polymerase alpha from Drosophila embryos. Thus, the catalytic properties of the near-homogeneous Drosophila DNA polymerase gamma are consistent with the in vivo requirements for mitochondrial DNA synthesis as described in a variety of animal systems.

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A mitochondrial DNA polymerase from embryos of Drosophila melanogaster. Purification, subunit structure, and partial characterization.

Wernette

Kaguni²

1986

Journal of Biological Chemistry

121

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Pancreatic neuronal melanocortin-4 receptor modulates serum insulin levels independent of leptin receptor

Mansour

White

Wernette

et al. 2010

Endocr

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The leptin-regulated melanocortin (MC) system modulates energy homeostasis and hypothalamic MC neuronal circuits regulate insulin secretion. We therefore hypothesized that MC system components were present in the pancreas. In order to determine the veracity of the hypothesis, we examined c-Fos, melanocortin-4 receptor (Mc4r), and alpha-melanocyte-stimulating hormone (α-MSH) expression levels in nondiabetic (intact leptin receptor signaling) and Zucker diabetic fatty (ZDF; leptin receptor deficiency) rats. We infused rats via the third ventricle with the α-MSH analog Nle4, D-Phe7-α-MSH (NDP-MSH), a Mc4r agonist. Subsequently, both hypothalamic and pancreatic c-Fos and Mc4r mRNAs were upregulated. Likewise, immunohistochemical analysis showed that an increased Mc4r and α-MSH expression in nerves surrounding the pancreatic vasculature and islets. Increases in c-Fos, α-MSH, and Mc4r expression were independent of leptin receptor function. Conversely, serum insulin was significantly reduced by NDP-MSH treatment, an effect which was reversed by the Mc4r specific blocker HS014. Finally, proopiomelanocortin (POMC) mRNA, the precursor of α-MSH, was detected by RT-PCR in pancreatic tissue homogenates. These findings suggest that pancreatic Mc4r and autonomic neurons participate in a communication pathway between the central MC system and pancreatic islets to regulate insulin secretion.

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Intron 5α of the COXI gene of yeast mitochondrial DNA is a mobile group I intron

et al. 1992

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We have found that intron 5a of the COXI gene (al5ao) of yeast mtDNA is a mobile group I intron in crosses between strains having or lacking the intron. We have demonstrated the following hallmarks of that process: 1) co-conversion of flanking optional intron markers; 2) mutations that truncate the intron open reading frame block intron mobility; and 3) the intron open reading frame encodes an endonuclease activity that is required for intron movement. The endonuclease activity, termed l-Sce IV, cleaves the COXI allele lacking al5a near the site of intron insertion, making a four-base staggered cut with 3' OH overhangs. Three cloned DNAs derived from different forms of the COXI gene, which differ in primary sequence at up to seven nucleotides around the cleavage site, are all good substrates for in vitro l-Sce IV cleavage activity. Two of the strains from which these substrates were derived were tested in crosses and are comparably efficient as al5a recipients. When compared with mobility occurring simultaneously in one cross, al5a is less efficient as a mobile element.

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Noncoding RNAs in Neurodegenerative Diseases

et al. 2013

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Noncoding RNAs are widely known for their various essential roles in the development of central nervous system. It involves neurogenesis, neural stem cells generation, maintenance and maturation, neurotransmission, neural network plasticity, formation of synapses, and even brain aging and DNA damage responses. In this review, we will discuss the biogenesis of microRNA, various functions of noncoding RNA's specifically microRNAs (miRNAs) that act as the chief regulators of gene expression, and focus in particular on misregulation of miRNAs which leads to several neurodegenerative diseases as well as its therapeutic outcome. Recent evidences has shown that miRNAs expression levels are changed in patients with neurodegenerative diseases; hence, miRNA can be used as a potential diagnostic biomarker and serve as an effective therapeutic tool in overcoming various neurodegenerative disease processes.

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CpG oligodeoxynucleotides stimulate canine and feline immune cell proliferation

Wernette

Smith

Barksdale

et al. 2002

Veterinary Immunology and Immunopathology

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12 3

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