Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.31 (beta-glucuronidase)
 7,680 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Following adeno-associated virus (AAV)-mediated transduction, cellular RNA preparations can be contaminated with AAV single-stranded DNA. The single-stranded DNA genome of recombinant AAV vectors can serve as an efficient, but undesirable, template for traditional reverse transcriptase-polymerase chain reaction (RT-PCR) methods. Consequently, recombinant AAV gene therapy presents a unique challenge to the design of sensitive and reliable methods to detect vector-derived mRNA. Several methods have been proposed to reduce the presence of single- and double-stranded vector DNA without compromising RNA specificity. For example, DNase I, although widely used, can be ineffective at completely removing the AAV single-stranded DNA genome. We have developed a sensitive real-time RNA-Specific reverse transcriptase PCR (RS-PCR) method that is independent of DNase I treatment. The RS-PCR method relies on the generation of a first-strand cDNA template using a primer with a linker sequence, X, at the 5'- end such that synthesis of second-strand cDNA incorporates the X-linker sequence into the cDNA template. The RS-PCR then utilizes forward and reverse primers targeting AAV vector sequence and the X-primer site, respectively, while a vector-specific Taqman probe makes sensitive real-time detection possible. We present data to validate the sensitivity and RNA specificity of the RS-PCR method and propose two unique endogenous control strategies by monitoring expression of both beta-glucuronidase and endogenous cystic fibrosis transmembrane conductance regulator (CFTR). Finally, we demonstrate the utility of this new RS-PCR method in detecting recombinant AAV-CFTR expression, including, an in vitro transduction assay and methods to support both preclinical and clinical trials.
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PMID:A sensitive, real-time, RNA-specific PCR method for the detection of recombinant AAV-CFTR vector expression. 1293 41

Chalcone synthase (CHS) catalyzes the first reaction specific for flavonoid and isoflavonoid biosynthesis. The soybean genome consists of nine copies of CHS genes (CHS1-CHS9) and a duplicate copy of CHS1. Even though the soybean CHS gene family members share a high degree of sequence similarity, they play different roles during plant development or in response to environmental stimuli. Our previous work on the comparison of a global gene expression in two soybean cultivars that differ in the level of total isoflavonoid accumulation has denoted the involvement of CHS7 and CHS8 genes in isoflavonoid synthesis. We have extended our effort to understand expression patterns of these two genes in soybean and in transgenic Arabidopsis. Promoter regions of CHS7 and CHS8 genes were isolated and in silico analysis performed to investigate potential transcription factor binding sites (TFBSs). The TFBSs were verified by DNase I footprint analysis. Some unique and several common TFBSs were identified in CHS7 and CHS8 promoters. We cloned beta-glucuronidase (GUS) under CHS7 and CHS8 promoters and monitored the tissue-specific GUS expression in transformed Arabidopsis. Differential GUS activity was observed in young leaves, roots, and mature pod walls of transgenic CHS7 promoter-GUS and CHS8 promoter-GUS plants. The tissue-specific expression patterns of CHS7 and CHS8 genes were determined in soybean by quantitative RT-PCR. Both CHS7 and CHS8 genes were expressed at higher levels in roots; however, overall expression pattern of these genes varied in different tissues. The results suggest that the structural diversity within CHS7 and CHS8 promoters may lead into differential activation of these genes by different inducers as well as developmental stage- and tissue-specific differences in gene expression.
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PMID:Differential expression of CHS7 and CHS8 genes in soybean. 2001 91


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