Dean Fraga scite author profile

Real‐time PCR is a recent modification to the polymerase chain reaction that allows precise quantification of specific nucleic acids in a complex mixture by fluorescent detection of labeled PCR products. Detection can be accomplished using specific as well as nonspecific fluorescent probes. Real‐time PCR is often used in the quantification of gene expression levels. Prior to using real‐time PCR to quantify a target message, care must be taken to optimize the RNA isolation, primer design, and PCR reaction conditions so that accurate and reliable measurements can be made. This short overview of real‐time PCR discusses basic principles behind real‐time PCR, some optimization and experimental design considerations, and how to quantify the data generated using both relative and absolute quantification approaches. Useful Web sites and texts that expand upon topics discussed are also listed. Curr. Protoc. Essential Lab. Tech. 8:10.3.1‐10.3.40. © 2014 by John Wiley & Sons, Inc.

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Extremely short 20–33 nucleotide introns are the standard length inParamecium tetraurelia

Russell

Fraga

Hinrichsen

1994

Nucl Acids Res

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Paramecium tetraurelia has the shortest known introns as its standard intron length. Sequenced introns vary between 20 and 33 nucleotides in length. The intron sequences were discovered in genomic sequences coding for a variety of different proteins, including phosphatases, kinases, and low-molecular weight GTP-binding proteins. All intron sequences begin with the conserved dinucleotide GT and end with the conserved dinucleotide AG. The sequences are more AT rich than the Paramecium coding sequences. The identified sequences were confirmed as introns by sequencing several cDNA fragments. We report here analysis of the characteristics of 50 separate introns, including size, base composition, and a consensus sequence.

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Real‐Time PCR

Fraga

Meulia

Fenster

2008

CP Essential Lab Tech

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Protein Phosphatase 2B (PP2B, Calcineurin) in Paramecium: Partial Characterization Reveals That Two Members of the Unusually Large Catalytic Subunit Family Have Distinct Roles in Calcium-Dependent Processes

et al. 2010

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We characterized the calcineurin (CaN) gene family, including the subunits CaNA and CaNB, based upon sequence information obtained from the Paramecium genome project. Paramecium tetraurelia has seven subfamilies of the catalytic CaNA subunit and one subfamily of the regulatory CaNB subunit, with each subfamily having two members of considerable identity on the amino acid level (>55% between subfamilies, >94% within CaNA subfamilies, and full identity in the CaNB subfamily). Within CaNA subfamily members, the catalytic domain and the CaNB binding region are highly conserved and molecular modeling revealed a three-dimensional structure almost identical to a human ortholog. At 14 members, the size of the CaNA family is unprecedented, and we hypothesized that the different CaNA subfamily members were not strictly redundant and that at least some fulfill different roles in the cell. This was tested by selecting two phylogenetically distinct members of this large family for posttranscriptional silencing by RNA interference. The two targets resulted in differing effects in exocytosis, calcium dynamics, and backward swimming behavior that supported our hypothesis that the large, highly conserved CaNA family members are not strictly redundant and that at least two members have evolved diverse but overlapping functions. In sum, the occurrence of CaN in Paramecium spp., although disputed in the past, has been established on a molecular level. Its role in exocytosis and ciliary beat regulation in a protozoan, as well as in more complex organisms, suggests that these roles for CaN were acquired early in the evolution of this protein family.

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Synthesis and Evaluation of Nuclear Targeting Peptide-Antisense Oligodeoxyribonucleotide Conjugates

Reed¹,

Fraga²,

Schwartz³

et al. 1995

Bioconjugate Chem.

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An endogenous nuclear enzyme, RNase H, is an important component in determining the efficacy of antisense oligodeoxynucleotides (ODNs). In an effort to improve the potency of antisense ODNs, conjugates with three different nuclear targeting signal peptides were prepared. These short peptide sequences have been shown to facilitate transport of macromolecules into the nucleus of cells. Efficient chemistry for the synthesis of ODN-peptide conjugates is described. Reaction of 5'-aminohexyl-modified ODNs with iodoacetic anhydride gave pure iodoacetamide ODNs (IA-ODNs) in good yield. These electrophilic intermediates were reacted with thiol-containing peptides to give ODN-peptides in excellent yield and purity. The ODN-peptides were further characterized by proteolysis with trypsin. Thermal denaturation studies with ssDNA targets showed little effect of the 5'-peptide modifications on the hybridization properties of the ODN. The effect of the nuclear signal peptides on antisense potency was evaluated in the freshwater ciliate Paramecium. A 3'-hexanol-modified 24-mer antisense ODN, complementary to the mRNA for calmodulin, alters regulation of membrane ion channels and swimming behavior of these cells. A 2'-O-methyl analog of this ODN was inactive, thus providing evidence that this activity in Paramecium is mediated by RNase H. Antisense ODN-nuclear signal peptide conjugates were transfected into the cells by electroporation. Surprisingly, these conjugates showed no antisense effects in comparison to a 5'-unmodified control ODN. Random peptides or amino acids conjugated to the 5'-terminus did not decrease antisense activity.

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Dean Fraga

Real‐Time PCR

Extremely short 20–33 nucleotide introns are the standard length inParamecium tetraurelia

Real‐Time PCR

Protein Phosphatase 2B (PP2B, Calcineurin) in Paramecium: Partial Characterization Reveals That Two Members of the Unusually Large Catalytic Subunit Family Have Distinct Roles in Calcium-Dependent Processes

Synthesis and Evaluation of Nuclear Targeting Peptide-Antisense Oligodeoxyribonucleotide Conjugates

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