SummaryLight-regulatory unit 1 (LRU1) is necessary for and sufficient to mediate light-dependent activation of the chalcone synthase (CHS) minimal promoter in Petroselinum crispum. This composite promoter unit consists of at least two distinct c/s-acting elements, designated ACE ces and MRE cHs, both of which are required for light induction. The ACGT-containing element ACE cHs interacts with common plant regulatory factors (CPRFs) which belong to the basic region/leucine zipper (bZlP) class of transcription factors. Here, we demonstrate that MRE cHs, originally identified as an in vivo DNA footprint, is a MYB recognition element. This element possesses a functional core that is essential for light responsiveness and is specifically recognized by two distantly related MYB-like proteins: MYB305 and the novel factor MYB1 from P. crispum. PcMYB1 was identified by both its specific binding to MRE cHs in vitro and recognition of MRE cHs in vivo. The deduced amino acid sequence revealed that PcMYB1 contains only one MYB-like repeat. This portion of the protein constitutes the DNA-binding domain. Mutational analysis of PcMYB1 in combination with sequence comparison suggests the presence of a helix-turn-helix structure containing a recognition helix that is sufficient for sequence-specific binding. The structure of this distinct MYB-like DNA-binding domain appears to be conserved in proteins from all three eukaryotic phyla.
Common plant regulatory factor 1 (CPRF1) is a parsley basic region/leucine zipper (bZIP) transcription factor that recognizes specific nucleotide sequences containing ACGT cores. Such a sequence is contained within LRU1, the composite light regulatory unit that is necessary and sufficient for light-dependent activity of the parsley chalcone synthase (CHS) promoter. After light treatment of both etiolated and green seedlings, CPRF1 mRNA levels increased prior to CHS mRNA accumulation. The change in CPRF1 mRNA leads to a light-responsive increase in CPRF1 protein. Transient expression analysis in parsley protoplasts using the CPRF1 promoter fused to the beta-glucuronidase (GUS) open reading frame indicated that light-dependent CPRF1 mRNA accumulation was under transcriptional control. The 5' untranslated region of the CPRF1 gene includes a cis-acting nucleotide sequence that contains two ACGT elements at a distance of 12 bp between their palindromic centers. This feature is reminiscent of as-1 and octopine synthase (ocs) elements identified in promoters from plant pathogens. This double ACGT Element element, designated dACECPRF1, stimulated transcription when placed 5' to a heterologous core promoter. CPRF1 bound to dACECPRF1 DNA as well as to the ACGT element from the CHS promoter in vitro. Cotransfection experiments demonstrated that CPRF1 interacts with these elements in vivo and that overexpression of CPRF1 actually reduced light-dependent transcription from the CHS promoter. CPRF1 thus appears to contribute to the regulation of the CPRF1 gene and to interfere with the activities of light-regulated promoters.
Common plant regulatory factor 1 (CPRF1) is a parsley basic region/leucine zipper (bZIP) transcription factor that recognizes specific nucleotide sequences containing ACGT cores. Such a sequence is contained within LRU1, the composite light regulatory unit that is necessary and sufficient for light-dependent activity of the parsley chalcone synthase (CHS) promoter. After light treatment of both etiolated and green seedlings, CPRF1 mRNA levels increased prior to CHS mRNA accumulation. The change in CPRF1 mRNA leads to a light-responsive increase in CPRF1 protein. Transient expression analysis in parsley protoplasts using the CPRF1 promoter fused to the beta-glucuronidase (GUS) open reading frame indicated that light-dependent CPRF1 mRNA accumulation was under transcriptional control. The 5' untranslated region of the CPRF1 gene includes a cis-acting nucleotide sequence that contains two ACGT elements at a distance of 12 bp between their palindromic centers. This feature is reminiscent of as-1 and octopine synthase (ocs) elements identified in promoters from plant pathogens. This double ACGT Element element, designated dACECPRF1, stimulated transcription when placed 5' to a heterologous core promoter. CPRF1 bound to dACECPRF1 DNA as well as to the ACGT element from the CHS promoter in vitro. Cotransfection experiments demonstrated that CPRF1 interacts with these elements in vivo and that overexpression of CPRF1 actually reduced light-dependent transcription from the CHS promoter. CPRF1 thus appears to contribute to the regulation of the CPRF1 gene and to interfere with the activities of light-regulated promoters.
This protocol describes in detail all steps of the library preparation from cfDNA with the QIAseq Targeted DNA Panel (QIAGEN GmbH, Hilden, Germany) and the subsequent data analysis by QIAGEN Biomedical Genomics Workbench and Ingenuity Variant Analysis (both QIAGEN GmbH, Hilden, Germany). Clinically relevant results obtained by this protocol will be published soon. Since the input volume of the cfDNA eluate used in the beginning was 20 µl (and not maximal 16.75 µl as stated in the QIAseq Targeted DNA Panel handbook version Mai 2017), we adjusted the reagent volumes. We used a customized QIAseq Targeted DNA Panel analyzing all exons of the 17 genes of interest (namely AKT1, AR, BRCA1, BRCA2, EGFR, ERBB2, ERBB3, ERCC4, ESR1, KRAS, FGFR1MUC16, PIK3CA, PIK3R1, PTEN, PTGFR, TGFB1). In contrast to the QIAseq Targeted DNA Panel handbook, we used 20 cycles of amplification for the universal PCR. For stringent data analysis, we defined criteria to exclude libraries with unsufficient sequencing qualities and we here also describe the bioinformatical filter used within the Ingenuity Variant Analysis software (QIAGEN GmbH, Hilden, Germany) for variant exclusion.
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