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1
Nordholm, Johan, Jeanne Petitou, Henrik Östbye, Diogo V. da Silva, Dan Dou, Hao Wang, and Robert Daniels. "Translational regulation of viral secretory proteins by the 5′ coding regions and a viral RNA-binding protein." Journal of Cell Biology 216, no. 8 (July 10, 2017): 2283–93. http://dx.doi.org/10.1083/jcb.201702102.
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A primary function of 5′ regions in many secretory protein mRNAs is to encode an endoplasmic reticulum (ER) targeting sequence. In this study, we show how the regions coding for the ER-targeting sequences of the influenza glycoproteins NA and HA also function as translational regulatory elements that are controlled by the viral RNA-binding protein (RBP) NS1. The translational increase depends on the nucleotide composition and 5′ positioning of the ER-targeting sequence coding regions and is facilitated by the RNA-binding domain of NS1, which can associate with ER membranes. Inserting the ER-targeting sequence coding region of NA into different 5′ UTRs confirmed that NS1 can promote the translation of secretory protein mRNAs based on the nucleotides within this region rather than the resulting amino acids. By analyzing human protein mRNA sequences, we found evidence that this mechanism of using 5′ coding regions and particular RBPs to achieve gene-specific regulation may extend to human-secreted proteins.
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Kuroki, K., R. Russnak, and D. Ganem. "Novel N-terminal amino acid sequence required for retention of a hepatitis B virus glycoprotein in the endoplasmic reticulum." Molecular and Cellular Biology 9, no. 10 (October 1989): 4459–66. http://dx.doi.org/10.1128/mcb.9.10.4459.
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The preS1 surface glycoprotein of hepatitis B virus is targeted to the endoplasmic reticulum (ER) and is retained in this organelle when expressed in the absence of other viral gene products. The protein is also acylated at its N terminus with myristic acid. Sequences responsible for its ER retention have been identified through examination of mutants bearing lesions in the preS1 coding region. These studies reveal that such sequences map to the N terminus of the molecule, between residues 6 and 19. Molecules in which this region was present remained in the ER; those in which it had been deleted were secreted from the cell. Although all deletions which allowed efficient secretion also impaired acylation of the polypeptide, myristylation alone was not sufficient for ER retention: point mutations which eliminated myristylation did not lead to secretion. These data indicate that an essential element for ER retention resides in a 14-amino-acid sequence that is unrelated to previously described ER retention signals.
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Kuroki, K., R. Russnak, and D. Ganem. "Novel N-terminal amino acid sequence required for retention of a hepatitis B virus glycoprotein in the endoplasmic reticulum." Molecular and Cellular Biology 9, no. 10 (October 1989): 4459–66. http://dx.doi.org/10.1128/mcb.9.10.4459-4466.1989.
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The preS1 surface glycoprotein of hepatitis B virus is targeted to the endoplasmic reticulum (ER) and is retained in this organelle when expressed in the absence of other viral gene products. The protein is also acylated at its N terminus with myristic acid. Sequences responsible for its ER retention have been identified through examination of mutants bearing lesions in the preS1 coding region. These studies reveal that such sequences map to the N terminus of the molecule, between residues 6 and 19. Molecules in which this region was present remained in the ER; those in which it had been deleted were secreted from the cell. Although all deletions which allowed efficient secretion also impaired acylation of the polypeptide, myristylation alone was not sufficient for ER retention: point mutations which eliminated myristylation did not lead to secretion. These data indicate that an essential element for ER retention resides in a 14-amino-acid sequence that is unrelated to previously described ER retention signals.
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Krönke, Jan, Ralf Kittler, Frank Buchholz, Marc P. Windisch, Thomas Pietschmann, Ralf Bartenschlager, and Michael Frese. "Alternative Approaches for Efficient Inhibition of Hepatitis C Virus RNA Replication by Small Interfering RNAs." Journal of Virology 78, no. 7 (April 1, 2004): 3436–46. http://dx.doi.org/10.1128/jvi.78.7.3436-3446.2004.
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ABSTRACT Persistent infection with hepatitis C virus (HCV) is a leading cause of chronic hepatitis, liver cirrhosis, and hepatocellular carcinoma. It has recently been shown that HCV RNA replication is susceptible to small interfering RNAs (siRNAs), but the antiviral activity of siRNAs depends very much on their complementarity to the target sequence. Thus, the high degree of sequence diversity between different HCV genotypes and the rapid evolution of new quasispecies is a major problem in the development of siRNA-based gene therapies. For this study, we developed two alternative strategies to overcome these obstacles. In one approach, we used endoribonuclease-prepared siRNAs (esiRNAs) to simultaneously target multiple sites of the viral genome. We show that esiRNAs directed against various regions of the HCV coding sequence as well as the 5′ nontranslated region (5′ NTR) efficiently block the replication of subgenomic and genomic HCV replicons. In an alternative approach, we generated pseudotyped retroviruses encoding short hairpin RNAs (shRNAs). A total of 12 shRNAs, most of them targeting highly conserved sequence motifs within the 5′ NTR or the early core coding region, were analyzed for their antiviral activities. After the transduction of Huh-7 cells containing a subgenomic HCV replicon, we found that all shRNAs targeting sequences in domain IV or nearby coding sequences blocked viral replication. In contrast, only one of seven shRNAs targeting sequences in domain II or III had a similar degree of antiviral activity, indicating that large sections of the NTRs are resistant to RNA interference. Moreover, we show that naive Huh-7 cells that stably expressed certain 5′ NTR-specific shRNAs were largely resistant to a challenge with HCV replicons. These results demonstrate that the retroviral transduction of HCV-specific shRNAs provides a new possibility for antiviral intervention.
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Skach, W. R., L. B. Shi, M. C. Calayag, A. Frigeri, V. R. Lingappa, and A. S. Verkman. "Biogenesis and transmembrane topology of the CHIP28 water channel at the endoplasmic reticulum." Journal of Cell Biology 125, no. 4 (May 15, 1994): 803–15. http://dx.doi.org/10.1083/jcb.125.4.803.
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CHIP28 is a 28-kD hydrophobic integral membrane protein that functions as a water channel in erythrocytes and renal tubule epithelial cell membranes. We examined the transmembrane topology of CHIP28 in the ER by engineering a reporter of translocation (derived from bovine prolactin) into nine sequential sites in the CHIP28 coding region. The resulting chimeras were expressed in Xenopus oocytes, and the topology of the reporter with respect to the ER membrane was determined by protease sensitivity. We found that although hydropathy analysis predicted up to seven potential transmembrane regions, CHIP28 spanned the membrane only four times. Two putative transmembrane helices, residues 52-68 and 143-157, reside on the lumenal and cytosolic surfaces of the ER membrane, respectively. Topology derived from these chimeric proteins was supported by cell-free translation of five truncated CHIP28 cDNAs, by N-linked glycosylation at an engineered consensus site in native CHIP28 (residue His69), and by epitope tagging of the CHIP28 amino terminus. Defined protein chimeras were used to identify internal sequences that direct events of CHIP28 topogenesis. A signal sequence located within the first 52 residues initiated nascent chain translocation into the ER lumen. A stop transfer sequence located in the hydrophobic region from residues 90-120 terminated ongoing translocation. A second internal signal sequence, residues 155-186, reinitiated translocation of a COOH-terminal domain (residues 186-210) into the ER lumen. Integration of the nascent chain into the ER membrane occurred after synthesis of 107 residues and required the presence of two membrane-spanning regions. From this data, we propose a structural model for CHIP28 at the ER membrane in which four membrane-spanning alpha-helices form a central aqueous channel through the lipid bilayer and create a pathway for water transport.
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ZHANG, WEI, ALLISON HUGHES, GRIER WILT, and STEPHEN J. KNABEL. "The BAX PCR Assay for Screening Listeria monocytogenes Targets a Partial Putative Gene lmo2234." Journal of Food Protection 67, no. 7 (July 1, 2004): 1507–11. http://dx.doi.org/10.4315/0362-028x-67.7.1507.
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The BAX PCR for screening Listeria monocytogenes is a commercial PCR assay for specifically targeting L. monocytogenes, a foodborne pathogen that can contaminate a variety of foods and cause a potentially fatal disease, listeriosis, among high-risk populations. The high specificity (>98%) of this PCR assay is achieved by targeting a species-specific genomic region (∼400 bp) presumably found only in L. monocytogenes. In this study, the identity of the BAX PCR–targeted genomic region was determined by using PCR cloning, DNA sequencing, and basic local alignment search tool (BLAST) analysis of the amplicon sequences of an L. monocytogenes serotype 1/2a strain. BLAST analysis identified the BAX PCR amplicon (GenBank accession no. AY364605) as a 423-bp genomic region between nucleotides 224,409 and 224,831 in the genome of L. monocytogenes (serotype 1/2a strain EGD-e), including a 145-bp noncoding region and a 278-bp partial coding sequence of a putative gene, lmo2234. The translated amino acid sequence (92 amino acids) of this partial coding region is highly conserved between L. monocytogenes and Listeria innocua (93% homology). Reverse-position-specific BLAST analysis identified a conserved domain in Lmo2234 that was similar (95.3% aligned, E value = 9E−18) to the consensus amino acid sequence of sugar phosphate isomerases/epimerases (National Center for Biotechnology Information conserved domain database accession no. COG 1082.1, IolE), indicating that Lmo2234 might be involved in bacterial carbohydrate transport and metabolism.
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Berger, Irving Joseph, Dirce Maria Carraro, Ralph Bock, Ricardo Antunes Azevedo, and Helaine Carrer. "Cloning and sequence analysis of tomato cpDNA fragments: towards developing homologous chloroplast transformation vectors." Brazilian Journal of Plant Physiology 17, no. 2 (June 2005): 239–46. http://dx.doi.org/10.1590/s1677-04202005000200007.
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With the view of developing chloroplast transformation vectors based on homologous targeting regions for tomato (Lycopersicon esculentum L.), plastid DNA fragments of tomato cv. IAC-Santa Clara were cloned and analyzed. Isolation and cloning of PstI/SalI chloroplast fragments into the pBlueScript vectors yielded the plasmids pIJB1 and pIJB2 with cpDNA fragments of 8.6 kb and 6.4 kb, respectively. DNA sequencing and computer analyses revealed that the tomato sequences cloned display from 93 to 100 % of identity to the respective fragments in tobacco, which is more pronounced in coding regions. The intergenic spacers are somewhat less conserved suggesting that evolutionary divergences occurred mainly in these putative non-coding regions. The most remarkable difference found is a 437 bp sequence present in tobacco chloroplast genome in the intergenic region of the genes trnE and trnT but completely absent in the tomato chloroplast DNA. Analysis of restriction enzyme digestion patterns revealed several unique restriction sites in the intergenic spacer regions suggesting potential utility of these sequences in species-specific vector construction for tomato chloroplast transformation.
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Obrepalska-Steplowska, Aleksandra, Marta Budziszewska, and Henryk Pospieszny. "Complete nucleotide sequence of a Polish strain of Peanut stunt virus (PSV-P) that is related to but not a typical member of subgroup I." Acta Biochimica Polonica 55, no. 4 (December 16, 2008): 731–39. http://dx.doi.org/10.18388/abp.2008_3034.
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Peanut stunt virus (PSV) is a common legume pathogen present worldwide. It is also infectious for many other plants including peanut and some vegetables. Viruses of this species are classified at present into three subgroups based on their serology and nucleotide homology. Some of them may also carry an additional subviral element - satellite RNA. Analysis of the full genome sequence of a Polish strain - PSV-P - associated with satRNA was performed and showed that it may be classified as a derivative of the subgroup I sharing 83.9-87.9% nucleotide homology with other members of this subgroup. A comparative study of sequenced PSV strains indicates that PSV-P shows the highest identity level with PSV-ER or PSV-J depending on the region used for analysis. Phylogenetic analyses, on the other hand, have revealed that PSV-P is related to representatives of the subgroup I to the same degree, with the exception of the coat protein coding sequence where PSV-P is clustered together with PSV-ER.
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Bento, Miguel, Sónia Gomes Pereira, Wanda Viegas, and Manuela Silva. "Unravelling the hidden inter and intra-varietal diversity of durum wheat commercial varieties used in Portugal." Plant Genetic Resources: Characterization and Utilization 17, no. 04 (May 6, 2019): 386–89. http://dx.doi.org/10.1017/s1479262119000133.
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AbstractAssessing durum wheat genomic diversity is crucial in a changing environmental particularly in the Mediterranean region where it is largely used to produce pasta. Durum wheat varieties cultivated in Portugal and previously assessed regarding thermotolerance ability were screened for the variability of coding sequences associated with technological traits and repetitive sequences. As expected, reduced variability was observed regarding low molecular weight glutenin subunits (LMW-GS) but a specific LMW-GS allelic form associated with improved pasta-making characteristics was absent in one variety. Contrastingly, molecular markers targeting repetitive elements like microsatellites and retrotransposons – Inter Simple Sequence Repeat (ISSR) and Inter Retrotransposons Amplified Polymorphism (IRAP) – disclosed significant inter and intra-varietal diversity. This high level of polymorphism was revealed by the 20 distinct ISSR/IRAP concatenated profiles observed among the 23 individuals analysed. Interestingly, median joining networks and PCoA analysis grouped individuals of the same variety and clustered varieties accordingly with geographical origin. Globally, this work demonstrates that durum wheat breeding strategies induced selection pressure for some relevant coding sequences while maintaining high levels of genomic variability in non-coding regions enriched in repetitive sequences.
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Chun, Jongsik, Anwarul Huq, and Rita R. Colwell. "Analysis of 16S-23S rRNA Intergenic Spacer Regions of Vibrio cholerae and Vibrio mimicus." Applied and Environmental Microbiology 65, no. 5 (May 1, 1999): 2202–8. http://dx.doi.org/10.1128/aem.65.5.2202-2208.1999.
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ABSTRACT Vibrio cholerae identification based on molecular sequence data has been hampered by a lack of sequence variation from the closely related Vibrio mimicus. The two species share many genes coding for proteins, such as ctxAB, and show almost identical 16S DNA coding for rRNA (rDNA) sequences. Primers targeting conserved sequences flanking the 3′ end of the 16S and the 5′ end of the 23S rDNAs were used to amplify the 16S-23S rRNA intergenic spacer regions of V. cholerae and V. mimicus. Two major (ca. 580 and 500 bp) and one minor (ca. 750 bp) amplicons were consistently generated for both species, and their sequences were determined. The largest fragment contains three tRNA genes (tDNAs) coding for tRNAGlu, tRNALys, and tRNAVal, which has not previously been found in bacteria examined to date. The 580-bp amplicon contained tDNAIle and tDNAAla, whereas the 500-bp fragment had single tDNA coding either tRNAGlu or tRNAAla. Little variation, i.e., 0 to 0.4%, was found among V. cholerae O1 classical, O1 El Tor, and O139 epidemic strains. Slightly more variation was found against the non-O1/non-O139 serotypes (ca. 1% difference) and V. mimicus (2 to 3% difference). A pair of oligonucleotide primers were designed, based on the region differentiating all of V. cholerae strains from V. mimicus. The PCR system developed was subsequently evaluated by using representatives of V. cholerae from environmental and clinical sources, and of other taxa, including V. mimicus. This study provides the first molecular tool for identifying the species V. cholerae.
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Okada, K., H. R. Lijnen, M. Dewerchin, A. Belayew, O. Matsuo, D. Collen, and R. Bernaerts. "Characterization and Targeting of the Murine α2-Antiplasmin Gene." Thrombosis and Haemostasis 78, no. 03 (1997): 1104–10. http://dx.doi.org/10.1055/s-0038-1657694.
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Summaryα2-Antiplasmin (α2-AP) is the main physiological plasmin inhibitor in mammalian plasma. As a first step toward the generation of α2-AP deficient mice, the murine α2-AP 1 gene was characterized and a targeting vector for homologous recombination in embryonic stem (ES) cells constructed. Alignment of nucleotide sequences obtained from genomic subclones allowed location of exons 2 through 10 of the α2-AP 1gene, but failed to identify the 5’ boundary of exon 1. Compared to the human gene, exons 2 through 9 in the murine gene have identical size and intron-exon boundaries obeying the GT/AG rule. The 5’ boundary of exon 10 is identical in both genes while the 3’ non-coding region is 64 bp longer in the human gene. Introns 2,3,6 and 8 have similar sizes in the mouse and human genes; intron 1 is 6-fold smaller, introns 5, 7 and 9 are 2- to 3-fold smaller, whereas intron 4 is about 2-fold larger in the mouse gene. Compared to the human 5’ flanking sequence, an insertion of a simple repeat region with sequence (TGG)n has occurred. The open reading frame of the mouse α2-AP gene encodes a 491-amino acid protein comprising the experimentally determined NH2-terminus of the mature protein Val-Asp-Leu-Pro-Gly-.A targeting vector, ppPNT.α2-AP, was constructed by introducing a homologous sequence of 8.3 kb in total in the parental pPNT vector. In pPNT.α2-AP, the neomycin resistance expression cassette replaces a 7 kb genomic fragment comprising exon 2 through part of exon 10 (including the stop codon), which represents the entire sequence encoding the mature protein, including the fibrin-binding domain, the reactive site peptide bond and the plasmin(ogen)-binding region. Electroporation of 129R1 embryonic stem (ES) cells with the linearized vector pPNT.α2-AP yielded three targeted clones with correct homologous recombination at the 5’- and 3’-ends, as confirmed by Southern blot analysis of purified genomic DNA with appropriate restriction enzymes and probes. These targeted clones will be used to generate α2-AP deficient mice.
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Rabinowitz, Roy, Shiran Abadi, Shiri Almog, and Daniel Offen. "Prediction of synonymous corrections by the BE-FF computational tool expands the targeting scope of base editing." Nucleic Acids Research 48, W1 (April 7, 2020): W340—W347. http://dx.doi.org/10.1093/nar/gkaa215.
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Abstract Base editing is a genome-editing approach that employs the CRISPR/Cas system to precisely install point mutations within the genome. A deaminase enzyme is fused to a deactivated Cas and enables transition conversions. The diversified repertoire of base editors provides a wide range of base editing possibilities. However, existing base editors cannot induce transversion substitutions and activate only within a specified region relative to the binding site, thus, they cannot precisely correct every point mutation. Here, we present BE-FF (Base Editors Functional Finder), a novel computational tool that identifies suitable base editors to correct the translated sequence erred by a point mutation. When a precise correction is impossible, BE-FF aims to mutate bystander nucleotides in order to induce synonymous corrections that will correct the coding sequence. To measure BE-FF practicality, we analysed a database of human pathogenic point mutations. Out of the transition mutations, 60.9% coding sequences could be corrected. Notably, 19.4% of the feasible corrections were not achieved by precise corrections but only by synonymous corrections. Moreover, 298 cases of transversion-derived pathogenic mutations were detected to be potentially repairable by base editing via synonymous corrections, although base editing is considered impractical for such mutations.
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Wenger, RH, AN Wicki, A. Walz, N. Kieffer, and KJ Clemetson. "Cloning of cDNA coding for connective tissue activating peptide III from a human platelet-derived lambda gt11 expression library." Blood 73, no. 6 (May 1, 1989): 1498–503. http://dx.doi.org/10.1182/blood.v73.6.1498.1498.
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Abstract We report here the cloning of the cDNA coding for platelet connective tissue-activating peptide-III (CTAP-III) from a lambda gt11 expression library prepared using messenger RNA (mRNA) isolated from human platelets. The open reading frame of the clone coded for a protein with 128 amino acid residues. Since the precursor of CTAP-III, platelet basic protein (PBP is 94 amino acids long, the 5′-translated region of the cDNA codes for a leader sequence 34 amino acids long. This leader sequence, like the sequence of mature CTAP-III, shows significant homology to the sequence of platelet factor 4 (PF4), the only other platelet specific alpha-granule protein cloned until now, from a human erythroleukemic (HEL) cell line-derived cDNA library. These leader sequences are probably critical for targeting such proteins to the alpha-granule. Northern blot hybridization with platelet and megakaryocyte mRNA shows a single species mRNA of approximately 0.8 kb, suggesting that the corresponding cDNA is full length. The cloning of platelet specific CTAP-III provides additional evidence for the platelet specificity of the cDNA library used.
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Wenger, RH, AN Wicki, A. Walz, N. Kieffer, and KJ Clemetson. "Cloning of cDNA coding for connective tissue activating peptide III from a human platelet-derived lambda gt11 expression library." Blood 73, no. 6 (May 1, 1989): 1498–503. http://dx.doi.org/10.1182/blood.v73.6.1498.bloodjournal7361498.
Full textAbstract:
We report here the cloning of the cDNA coding for platelet connective tissue-activating peptide-III (CTAP-III) from a lambda gt11 expression library prepared using messenger RNA (mRNA) isolated from human platelets. The open reading frame of the clone coded for a protein with 128 amino acid residues. Since the precursor of CTAP-III, platelet basic protein (PBP is 94 amino acids long, the 5′-translated region of the cDNA codes for a leader sequence 34 amino acids long. This leader sequence, like the sequence of mature CTAP-III, shows significant homology to the sequence of platelet factor 4 (PF4), the only other platelet specific alpha-granule protein cloned until now, from a human erythroleukemic (HEL) cell line-derived cDNA library. These leader sequences are probably critical for targeting such proteins to the alpha-granule. Northern blot hybridization with platelet and megakaryocyte mRNA shows a single species mRNA of approximately 0.8 kb, suggesting that the corresponding cDNA is full length. The cloning of platelet specific CTAP-III provides additional evidence for the platelet specificity of the cDNA library used.
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Kohno, K., K. Normington, J. Sambrook, M. J. Gething, and K. Mori. "The promoter region of the yeast KAR2 (BiP) gene contains a regulatory domain that responds to the presence of unfolded proteins in the endoplasmic reticulum." Molecular and Cellular Biology 13, no. 2 (February 1993): 877–90. http://dx.doi.org/10.1128/mcb.13.2.877.
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The endoplasmic reticulum (ER) of eukaryotic cells contains an abundant 78,000-Da protein (BiP) that is involved in the translocation, folding, and assembly of secretory and transmembrane proteins. In the yeast Saccharomyces cerevisiae, as in mammalian cells, BiP mRNA is synthesized at a high basal rate and is further induced by the presence of increased amounts of unfolded proteins in the ER. However, unlike mammalian BiP, yeast BiP is also induced severalfold by heat shock, albeit in a transient fashion. To identify the regulatory sequences that respond to these stimuli in the yeast KAR2 gene that encodes BiP, we have cloned a 1.3-kb segment of DNA from the region upstream of the sequences coding for BiP and fused it to a reporter gene, the Escherichia coli beta-galactosidase gene. Analysis of a series of progressive 5' truncations as well as internal deletions of the upstream sequence showed that the information required for accurate transcriptional regulation of the KAR2 gene in S. cerevisiae is contained within a approximately 230-bp XhoI-DraI fragment (nucleotides -245 to -9) and that this fragment contains at least two cis-acting elements, one (heat shock element [HSE]) responding to heat shock and the other (unfolded protein response element [UPR]) responding to the presence of unfolded proteins in the ER. The HSE and UPR elements are functionally independent of each other but work additively for maximum induction of the yeast KAR2 gene. Lying between these two elements is a GC-rich region that is similar in sequence to the consensus element for binding of the mammalian transcription factor Sp1 and that is involved in the basal expression of the KAR2 gene. Finally, we provide evidence suggesting that yeast cells monitor the concentration of free BiP in the ER and adjust the level of transcription of the KAR2 gene accordingly; this effect is mediated via the UPR element in the KAR2 promoter.
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Kohno, K., K. Normington, J. Sambrook, M. J. Gething, and K. Mori. "The promoter region of the yeast KAR2 (BiP) gene contains a regulatory domain that responds to the presence of unfolded proteins in the endoplasmic reticulum." Molecular and Cellular Biology 13, no. 2 (February 1993): 877–90. http://dx.doi.org/10.1128/mcb.13.2.877-890.1993.
Full textAbstract:
The endoplasmic reticulum (ER) of eukaryotic cells contains an abundant 78,000-Da protein (BiP) that is involved in the translocation, folding, and assembly of secretory and transmembrane proteins. In the yeast Saccharomyces cerevisiae, as in mammalian cells, BiP mRNA is synthesized at a high basal rate and is further induced by the presence of increased amounts of unfolded proteins in the ER. However, unlike mammalian BiP, yeast BiP is also induced severalfold by heat shock, albeit in a transient fashion. To identify the regulatory sequences that respond to these stimuli in the yeast KAR2 gene that encodes BiP, we have cloned a 1.3-kb segment of DNA from the region upstream of the sequences coding for BiP and fused it to a reporter gene, the Escherichia coli beta-galactosidase gene. Analysis of a series of progressive 5' truncations as well as internal deletions of the upstream sequence showed that the information required for accurate transcriptional regulation of the KAR2 gene in S. cerevisiae is contained within a approximately 230-bp XhoI-DraI fragment (nucleotides -245 to -9) and that this fragment contains at least two cis-acting elements, one (heat shock element [HSE]) responding to heat shock and the other (unfolded protein response element [UPR]) responding to the presence of unfolded proteins in the ER. The HSE and UPR elements are functionally independent of each other but work additively for maximum induction of the yeast KAR2 gene. Lying between these two elements is a GC-rich region that is similar in sequence to the consensus element for binding of the mammalian transcription factor Sp1 and that is involved in the basal expression of the KAR2 gene. Finally, we provide evidence suggesting that yeast cells monitor the concentration of free BiP in the ER and adjust the level of transcription of the KAR2 gene accordingly; this effect is mediated via the UPR element in the KAR2 promoter.
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TAI, Ningwen, John C. SCHMITZ, Tian-min CHEN, and Edward CHU. "Characterization of a cis-acting regulatory element in the protein-coding region of human dihydrofolate reductase mRNA." Biochemical Journal 378, no. 3 (March 15, 2004): 999–1006. http://dx.doi.org/10.1042/bj20031396.
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Previous studies have shown that human DHFR (dihydrofolate reductase), in addition to its critical role in DNA biosynthesis, functions as an RNA-binding protein. The interaction between DHFR and its own mRNA results in translational repression. In this study, we characterized the cis-acting elements on human DHFR mRNA that are required for the DHFR mRNA–DHFR protein interaction. Using a series of gel-shift and nitrocellulose filter-binding assays, a 164 nt RNA sequence, corresponding to nt 401–564, was identified within the coding region that binds to DHFR protein with an affinity similar to that of full-length DHFR mRNA. To document in vivo biological activity, various DHFR sequences contained within the coding region were cloned on to the 5´ end of a luciferase reporter plasmid, and transient transfection experiments were performed using human colon cancer RKO cells. In cells transfected with p644/DHFR:401–564, luciferase activity was decreased by 50% when compared with cells transfected with the p644 plasmid alone. Luciferase mRNA levels were identical under each of these conditions, as determined by Northern-blot analysis. In cells transfected with p644/DHFR:401–564, luciferase activity was restored to almost 100% of control when cells were treated with the antifolate analogue methotrexate or with a short-interfering RNA targeting DHFR mRNA. These findings provide evidence that the DHFR 401–564 sequence is a DHFR-response element. In vitro and in vivo studies further localized this cis-element to an 82 nt sequence corresponding to nt 401–482. This work provides new insights into critical elements that mediate RNA–protein interactions.
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Santa-Inez, Daniel Casartelli de, Cesar Seigi Fuziwara, Kelly Cristina Saito, and Edna Teruko Kimura. "Targeting the Highly Expressed microRNA miR-146b with CRISPR/Cas9n Gene Editing System in Thyroid Cancer." International Journal of Molecular Sciences 22, no. 15 (July 27, 2021): 7992. http://dx.doi.org/10.3390/ijms22157992.
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Thyroid cancer is the most common endocrine malignancy, and the characterization of the genetic alterations in coding-genes that drive thyroid cancer are well consolidated in MAPK signaling. In the context of non-coding RNAs, microRNAs (miRNAs) are small non-coding RNAs that, when deregulated, cooperate to promote tumorigenesis by targeting mRNAs, many of which are proto-oncogenes and tumor suppressors. In thyroid cancer, miR-146b-5p is the most overexpressed miRNA associated with tumor aggressiveness and progression, while the antisense blocking of miR-146b-5p results in anti-tumoral effect. Therefore, inactivating miR-146b has been considered as a promising strategy in thyroid cancer therapy. Here, we applied the CRISPR/Cas9n editing system to target the MIR146B gene in an aggressive anaplastic thyroid cancer (ATC) cell line. For that, we designed two single-guide RNAs cloned into plasmids to direct Cas9 nickase (Cas9n) to the genomic region of the pre-mir-146b structure to target miR-146b-5p and miR-146b-3p sequences. In this plasmidial strategy, we cotransfected pSp-Cas9n-miR-146b-GuideA-puromycin and pSp-Cas9n-miR-146b-GuideB-GFP plasmids in KTC2 cells and selected the puromycin resistant + GFP positive clones (KTC2-Cl). As a result, we observed that the ATC cell line KTC2-Cl1 showed a 60% decrease in the expression of miR-146b-5p compared to the control, also showing reduced cell viability, migration, colony formation, and blockage of tumor development in immunocompromised mice. The analysis of the MIR146B edited sequence shows a 5 nt deletion in the miR-146b-5p region and a 1 nt deletion in the miR-146b-3p region in KTC2-Cl1. Thus, we developed an effective CRISPR/Cas9n system to edit the MIR146B miRNA gene and reduce miR-146b-5p expression which constitutes a potential molecular tool for the investigation of miRNAs function in thyroid cancer.
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Maksakova, Irina A., Ying Zhang, and Dixie L. Mager. "Preferential Epigenetic Suppression of the Autonomous MusD over the Nonautonomous ETn Mouse Retrotransposons." Molecular and Cellular Biology 29, no. 9 (March 9, 2009): 2456–68. http://dx.doi.org/10.1128/mcb.01383-08.
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ABSTRACT Nonautonomous retrotransposon subfamilies are often amplified in preference to their coding-competent relatives. However, the mechanisms responsible for such replicative success are poorly understood. Here, we demonstrate that the autonomous MusD long terminal repeat (LTR) retrotransposons are subject to greater epigenetic silencing than their nonautonomous cousins, the early transposons (ETns), which are expressed at a 170-fold-higher level than MusD in mouse embryonic stem (ES) cells. We show that, in ES cells, 5′ LTRs and the downstream region of MusD elements are more heavily methylated and are associated with less-activating and more-repressive histone modifications than the highly similar ETnII sequences. The internal region of MusD likely contributes to their silencing, as transgenes with MusD, compared to those with ETnII sequences, show reduced reporter gene expression and a higher level of repressive histone marks. Genomic distribution patterns of MusD and ETn elements are consistent with stronger selection against MusD elements within introns, suggesting that MusD-associated silencing marks can negatively impact genes. We propose a model in which nonautonomous retrotransposons may gain transcriptional and retrotranspositional advantages over their coding-competent counterparts by elimination of the CpG-rich retroviral sequence targeting the autonomous subfamilies for silencing.
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Acunzo, Mario, Giulia Romano, Giovanni Nigita, Dario Veneziano, Luigi Fattore, Alessandro Laganà, Nicola Zanesi, et al. "Selective targeting of point-mutated KRAS through artificial microRNAs." Proceedings of the National Academy of Sciences 114, no. 21 (May 8, 2017): E4203—E4212. http://dx.doi.org/10.1073/pnas.1620562114.
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Mutated protein-coding genes drive the molecular pathogenesis of many diseases, including cancer. Specifically, mutated KRAS is a documented driver for malignant transformation, occurring early during the pathogenesis of cancers such as lung and pancreatic adenocarcinomas. Therapeutically, the indiscriminate targeting of wild-type and point-mutated transcripts represents an important limitation. Here, we leveraged on the design of miRNA-like artificial molecules (amiRNAs) to specifically target point-mutated genes, such as KRAS, without affecting their wild-type counterparts. Compared with an siRNA-like approach, the requirement of perfect complementarity of the microRNA seed region to a given target sequence in the microRNA/target model has proven to be a more efficient strategy, accomplishing the selective targeting of point-mutated KRAS in vitro and in vivo.
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Villamor, Dan Edward V., and Kenneth C. Eastwell. "Multilocus Characterization, Gene Expression Analysis of Putative Immunodominant Protein Coding Regions, and Development of Recombinase Polymerase Amplification Assay for Detection of ‘Candidatus Phytoplasma Pruni’ in Prunus avium." Phytopathology® 109, no. 6 (June 2019): 983–92. http://dx.doi.org/10.1094/phyto-09-18-0326-r.
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Western X (WX) disease, caused by ‘Candidatus Phytoplasma pruni’, is a devastating disease of sweet cherry resulting in the production of small, bitter-flavored fruits that are unmarketable. Escalation of WX disease in Washington State prompted the development of a rapid detection assay based on recombinase polymerase amplification (RPA) to facilitate timely removal and replacement of diseased trees. Here, we report on a reliable RPA assay targeting putative immunodominant protein coding regions that showed comparable sensitivity to polymerase chain reaction (PCR) in detecting ‘Ca. Phytoplasma pruni’ from crude sap of sweet cherry tissues. Apart from the predominant strain of ‘Ca. Phytoplasma pruni’, the RPA assay also detected a novel strain of phytoplasma from several WX-affected trees. Multilocus sequence analyses using the immunodominant protein A (idpA), imp, rpoE, secY, and 16S ribosomal RNA regions from several ‘Ca. Phytoplasma pruni’ isolates from WX-affected trees showed that this novel phytoplasma strain represents a new subgroup within the 16SrIII group. Examination of high-throughput sequencing data from total RNA of WX-affected trees revealed that the imp coding region is highly expressed, and as supported by quantitative reverse transcription PCR data, it showed higher RNA transcript levels than the previously proposed idpA coding region of ‘Ca. Phytoplasma pruni’.
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Poruchynsky, M. S., and P. H. Atkinson. "Primary sequence domains required for the retention of rotavirus VP7 in the endoplasmic reticulum." Journal of Cell Biology 107, no. 5 (November 1, 1988): 1697–706. http://dx.doi.org/10.1083/jcb.107.5.1697.
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Rotavirus VP7 is a membrane-associated protein of the endoplasmic reticulum (ER). It is the product of rotavirus gene 9 which potentially encodes a protein of 326 amino acids that contains two amino terminal hydrophobic domains, h1 and h2, each preceded by an initiation codon. Comparison of the size of products derived from altered genes containing coding sequences for both h1 and h2 with those lacking the h1 sequence ('dhl' mutants), indicates that initiation takes place at M30 immediately preceding h2 (residues F32 to L48) and that h2 is cleaved, confirming the studies of others (Stirzaker, S.C., P.L. Whitfeld, D.L. Christie, A.R. Bellamy, and G.W. Both. 1987. J. Cell Biol. 105:2897-2903). Our previous work had shown that deletions in the carboxy end of h2, extending to amino acid 61 in the open reading frame, resulted in secretion of VP7. The region from amino acid number 51-61, present in wild-type VP7 but missing in the secreted mutant delta 47-61, was thus implicated to have a role in ER retention. To test this, a series of chimeric genes were constructed by fusing the first 63 codons of wild-type VP7, delta 1-14 or delta 51-61/dhl, to the mouse salivary alpha-amylase gene, a secretory protein, such that the fusion junction was located at the exact mature terminus of amylase. The chimeric proteins VP7(63)/amylase, delta 1-14(63)/amylase and delta 51-61(63)/dhl/amylase were secreted when expressed in cells and the h2 domain was cleaved when mRNA was translated in vitro. These results imply that the sequence 51-61 is necessary but not sufficient for ER retention. When a second series of VP7/amylase chimera were constructed extending the VP7 contribution to amino acid 111, the product expressed by delta 1-14(111)/amylase was not secreted whereas that of delta 47-61(111)/amylase was. Significantly, the intracellular delta 1-14(111)/amylase product exhibited an amylase enzymatic specific activity that was similar to that of the wild-type amylase product. We conclude that two regions of VP7 mediate its retention in the ER, the first lies within the sequence 51-61 and the second within the sequence 62-111, which contains the glycosylation site for VP7. Both regions are necessary for retention, though neither is sufficient alone.
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Yamaguchi, Kazunori, Keiko Hata, Koichi Koseki, Kazuhiro Shiozaki, Hirotoshi Akita, Tadashi Wada, Setsuko Moriya, and Taeko Miyagi. "Evidence for mitochondrial localization of a novel human sialidase (NEU4)." Biochemical Journal 390, no. 1 (August 9, 2005): 85–93. http://dx.doi.org/10.1042/bj20050017.
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Based on the human cDNA sequence predicted to represent the NEU4 sialidase gene in public databases, a cDNA covering the entire coding sequence was isolated from human brain and expressed in mammalian cells. The cDNA encodes two isoforms: one possessing an N-terminal 12-amino-acid sequence that is predicted to be a mitochondrial targeting sequence, and the other lacking these amino acids. Expression of the isoforms is tissuespecific, as assessed by reverse transcription–PCR. Brain, muscle and kidney contained both isoforms; liver showed the highest expression, and the short form was predominant in this organ. In transiently transfected COS-1 cells, enzyme activity was markedly increased with gangliosides as well as with glycoproteins and oligosaccharides as substrates compared with the control levels. This differs from findings with other human sialidases. Although the isoforms were not distinguishable with regard to substrate specificity, they exhibited differential subcellular localizations. Immunofluorescence microscopy and biochemical fractionation demonstrated that an exogenously expressed haemagglutinin-tagged long form of NEU4 was concentrated in mitochondria in several human culture cell types, whereas the short form was present in intracellular membranes, indicating that the sequence comprising the N-terminal 12 amino acid residues acts as a targeting signal for mitochondria. Co-localization of the long form to mitochondria was further supported by efficient targeting of the N-terminal region fused to enhanced green fluorescent protein, and by the targeting failure of a mutant with an amino acid substitution in this region. NEU4 is possibly involved in regulation of apoptosis by modulation of ganglioside GD3, which accumulates in mitochondria during apoptosis and is the best substrate for the sialidase.
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Morita, Yuji, Christie Gilmour, Devon Metcalf, and Keith Poole. "Translational Control of the Antibiotic Inducibility of the PA5471 Gene Required for mexXY Multidrug Efflux Gene Expression in Pseudomonas aeruginosa." Journal of Bacteriology 191, no. 15 (May 22, 2009): 4966–75. http://dx.doi.org/10.1128/jb.00073-09.
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ABSTRACT The PA5471 gene required for induction of the MexXY multidrug efflux system in response to ribosome-targeting antimicrobials was itself shown to be inducible by ribosome-targeting antimicrobials (Y. Morita, M. L. Sobel, and K. Poole, J. Bacteriol. 188:1847-1855, 2006). Using a lacZ transcriptional reporter, drug inducibility of PA5471 was shown to require the entirety of the 367-bp PA5472-PA5471 intergenic region. A constitutive promoter activity was, however, localized to the first 75 bp of this region, within which a single PA5471 transcription initiation site was mapped. That 3′ sequences of the intergenic region blocked PA5471 expression and made it antibiotic dependent was suggestive of an attenuation mechanism of control. A 13-amino-acid leader peptide (LP)-encoding open reading frame preceded by a Shine-Dalgarno sequence was identified ca. 250 bp upstream of the PA5471 coding sequence, and its expression and translation were confirmed using a lacZ translational reporter. Alteration of the initiation codon (M1T) or introduction of translational stop signals at codons 3 (Q3Am) and 8 (C8Op) of this LP sequence (PA5471.1) yielded high-level constitutive expression of PA5471, suggesting that interference with LP translation was linked to PA5471 gene expression. Consistent with this, a Q3K mutation in the LP sequence maintained the drug inducibility of PA5471 expression. Introduction of the LP Q3Am mutation into the chromosome of Pseudomonas aeruginosa yielded stronger expression of PA5471 than did antibiotic (chloramphenicol) exposure of wild-type P. aeruginosa, in agreement with lacZ transcriptional fusion data. Still, the Q3Am mutation yielded modest expression of mexXY, less than that seen for antibiotic-treated wild-type P. aeruginosa. These data suggest that PA5471 is not sufficient for MexXY recruitment in response to antibiotic exposure and that additional antibiotic-dependent effects are needed.
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Grasbon-Frodl, E. M., S. Kösel, O. Riess, U. Müller, P. Mehraein, and M. B. Graeber. "Analysis of Mitochondrial Targeting Sequence and Coding Region Polymorphisms of the Manganese Superoxide Dismutase Gene in German Parkinson Disease Patients." Biochemical and Biophysical Research Communications 255, no. 3 (February 1999): 749–52. http://dx.doi.org/10.1006/bbrc.1998.9998.
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Perota, A., I. Lagutina, R. Duchi, P. Turini, G. Crotti, S. Colleoni, G. Lazzari, F. Lucchini, and C. Galli. "215 LIVE PIGLETS GENERATED BY SOMATIC CELL NUCLEAR TRANSFER FOLLOWING TARGETING OF A PORCINE ENHANCED GREEN FLUORESCENT PROTEIN LINE MEDIATED BY ZINC-FINGER NUCLEASES TO ESTABLISH CLONED HYGROMYCIN-RESISTANT PRIMARY CELL LINES SUITABLE FOR Cre-MEDIATED RECOMBINASE-MEDIATED CASSETTE EXCHANGE." Reproduction, Fertility and Development 26, no. 1 (2014): 221. http://dx.doi.org/10.1071/rdv26n1ab215.
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Recently, site-specific nucleases (zinc-finger nucleases, ZFN; TAL effector nucleases; and CRISPR) emerged as powerful tools for gene modification of different cells types and enhanced green fluorescent protein (EGFP)-specific ZFN were successfully used in the rat (Geurtz et al. 2010) and in the pig (Watanabe et al. 2010; Whyte et al. 2010). Previously (Brunetti et al. 2008 Clon. Stem Cells), we generated an EGFP transgenic porcine line (Verro2GFP) characterised by a single integration of pCAGGS-EGFP cassette, high ubiquitous EGFP expression, Mendelian transgene transmission, and expression in F1. The aim of this work was to modify a transcriptionally active GFP-locus into one suitable for Cre-mediated recombinase-mediated cassette exchange (RMCE), using EGFP-specific ZFN. Homology arms for promoter-less targeting vector were derived from pCAGGS-EGFP vector (promoter fragment = left-homology-arm = LHA; polyA sequence = right-homology-arm = RHA). Cloning floxed (lox2272/lox5171) hygromycin resistance coding sequence between LHA and RHA sequences, we generated the targeting/RMCE vector (pB5′3′Hygro-PL) and its positive control (C+) for PCR set-up (100–1000 plasmid copies). Verro2GFP fibroblasts cultured in DMEM+M199(1 : 1) + 10% FCS, bFGF in 5% CO2, 5% O2, were transfected using Nucleofector (V-024 program). In ZFN-mediated gene targeting, 2 μg of each ZFN coding vector (Sigma-CompoZr®) and 2 μg of pB5′3′Hygro-PL/KpnI vector were used to “nucleofect” 1.4 × 106 Verro2GFP fibroblasts in 2 experiments. Transfected cells were plated in 20 Petri dishes (Ø = 150 mm) and cultured under hygromycin selection (200 μg mL–1) for 15 days. After 12 days of drug selection, 82 resistant colonies were picked up and expanded in 24 multiwell plates for SCNT. All colonies were PCR screened and 45 (54.9%) colonies were positive. Four colonies were used in zona-free SCNT experiments with 140 Day 6 compacted morulae/blastocysts transferred into 2 synchronized sows that both became pregnant. One pregnancy went to term and delivered 5 live animals and 5 stillborn with correct hygromycin cassette integration, detected by PCR. The PCR products were sequenced in 7 animals to verify integration of promoterless targeting vector and in all 7 sequenced samples we obtained a correct insertion without any substitution/deletion. Using hygromycin selection in these experiments, we demonstrated that ZFN-mediated gene targeting can be easily done with high efficiency and is compatible with living animals. Moreover, we have validated a feasible SCNT-tested platform for further Cre-mediated site-specific gene modifications. This work is supported by a grant (Superpig) co-financed by Lombardy Region through the Fund for Promoting Institutional Agreements.
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Head, Brian, Jane La Du, Carrie Barton, Jie Zhang, Carmen Wong, Emily Ho, Robyn L. Tanguay, and Maret G. Traber. "RedEfish: Generation of the Polycistronic mScarlet: GSG-T2A: Ttpa Zebrafish Line." Antioxidants 10, no. 6 (June 16, 2021): 965. http://dx.doi.org/10.3390/antiox10060965.
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The vitamin E regulatory protein, the alpha-tocopherol transfer protein (Ttpa), is necessary for zebrafish embryo development. To evaluate zebrafish embryo Ttpa function, we generated a fluorescent-tagged zebrafish transgenic line using CRISPR-Cas9 technology. One-cell stage embryos (from Casper (colorless) zebrafish adults) were injected the mScarlet coding sequence in combination with cas9 protein complexed to single guide RNA molecule targeting 5′ of the ttpa genomic region. Embryos were genotyped for proper insertion of the mScarlet coding sequence, raised to adulthood and successively in-crossed to produce the homozygote RedEfish (mScarlet: GSG-T2A: Ttpa). RedEfish were characterized by in vivo fluorescence detection at 1, 7 and 14 days post-fertilization (dpf). Fluorescent color was detectable in RedEfish embryos at 1 dpf; it was distributed throughout the developing brain, posterior tailbud and yolk sac. At 7 dpf, the RedEfish was identifiable by fluorescence in olfactory pits, gill arches, pectoral fins, posterior tail region and residual yolk sac. Subsequently (14 dpf), the mScarlet protein was found in olfactory pits, distributed throughout the digestive tract, along the lateral line and especially in caudal vertebrae. No adverse morphological outcomes or developmental delays were observed. The RedEfish will be a powerful model to study Ttpa function during embryo development.
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Xu, Shengyu, Katja Linher-Melville, Burton B. Yang, De Wu, and Julang Li. "Micro-RNA378 (miR-378) Regulates Ovarian Estradiol Production by Targeting Aromatase." Endocrinology 152, no. 10 (August 16, 2011): 3941–51. http://dx.doi.org/10.1210/en.2011-1147.
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Estradiol is a steroid hormone that not only plays an important role in ovarian follicular development but also is associated with many reproductive disorders. Owing to the importance of aromatase in the production of estradiol, the regulation of aromatase gene expression at the transcriptional level has been an extensive area of study for over two decades. However, its regulation at the posttranscriptional level has remained unclear. Here, we show that micro-RNA378 (miR-378) is spatiotemporally expressed in porcine granulosa cells, the cells that generate estradiol in the ovary during follicular development, in an inverse manner compared with the expression of aromatase. In vitro overexpression and inhibition experiments revealed that aromatase expression, and therefore estradiol production, by granulosa cells, is posttranscriptionally down-regulated by miR-378. Furthermore, site-directed mutation studies identified two binding sites in the 3′-untranslated region (3′-UTR) of the aromatase coding sequence that are critical for the action of miR-378. Interestingly, overexpression of the aromatase 3′-UTR enhanced aromatase expression at the protein level in granulosa cells, possibly mediated by the binding of miR-378 within this region, thereby reducing the binding of this micro-RNA to the endogenous aromatase 3′-UTR.
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Park, Sung Hee, Bao N. Nguyen, Justin K. Kirkham, Tu N. Nguyen, and Arthur Günzl. "A New Strategy of RNA Interference That Targets Heterologous Sequences Reveals CITFA1 as an Essential Component of Class I Transcription Factor A in Trypanosoma brucei." Eukaryotic Cell 13, no. 6 (April 11, 2014): 785–95. http://dx.doi.org/10.1128/ec.00014-14.
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ABSTRACTConditional gene silencing by RNA interference inTrypanosoma bruceican be inconclusive if knockdowns are inefficient or have off-target effects. To enable efficient, specific silencing of single-copy genes in mammalian-infective, bloodstream form trypanosomes, we developed a system that targets the heterologous and functionalTrypanosoma cruziU2AF353′ untranslated region (UTR) (Tc3) or, alternatively, the sequence of the PTP tag, which can be fused to any mRNA of interest. Two cell lines were created, single-marker Tc3 (smTc3) and smPTP, which conditionally express Tc3 and PTP double-stranded RNA (dsRNA), respectively. The system depends on manipulating both alleles of the gene of interest so that cells exclusively express the target mRNA as a fusion to one of these heterologous sequences. We generated allele integration vectors in which the C-terminal part of a gene's coding sequence can be fused to either heterologous sequence in a single cloning step. We first tested this system withCITFA7, which encodes a well-characterized subunit of the class I transcription factor A (CITFA), an essential factor for transcription initiation by RNA polymerase I. Targeting either Tc3 or PTP fused to theCITFA7mRNA resulted in gene knockdowns that were as efficient and specific as targeting the endogenousCITFA7mRNA. Moreover, application of this system toCITFA1, which could not be silenced by established methods, demonstrated that the gene encodes an essential CITFA subunit that mediates binding of the transcription factor complex to RNA polymerase I promoters.
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Deshaies, R. J., and R. Schekman. "Structural and functional dissection of Sec62p, a membrane-bound component of the yeast endoplasmic reticulum protein import machinery." Molecular and Cellular Biology 10, no. 11 (November 1990): 6024–35. http://dx.doi.org/10.1128/mcb.10.11.6024.
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SEC62 is required for the import of secretory protein precursors into the endoplasmic reticulum (ER) of Saccharomyces cerevisiae. The DNA sequence of SEC62 predicts a 32-kDa polypeptide with two potential membrane-spanning segments. Two antisera directed against different portions of the SEC62 coding region specifically detected a 30-kDa polypeptide in cell extracts. A combination of subcellular fractionation, detergent and alkali extraction, and indirect immunofluorescence studies indicated that Sec62p is intimately associated with the ER membrane. Protease digestion of intact microsomes and analysis of the oligosaccharide content of a set of Sec62p-invertase hybrid proteins suggested that Sec62p spans the ER membrane twice, displaying hydrophilic amino- and carboxy-terminal domains towards the cytosol. Sec62p-invertase hybrid proteins that lack the Sec62p C terminus failed to complement the sec62-l mutation and dramatically inhibited the growth of sec62-l cells at a normally permissive temperature. The inhibitory action of toxic Sec62p-invertase hybrids was partially counteracted by the overexpression of Sec63p. Taken together, these data suggest that the C-terminal domain of Sec62p performs an essential function and that the N-terminal domain associates with other components of the translocation machinery, including Sec63p.
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Deshaies, R. J., and R. Schekman. "Structural and functional dissection of Sec62p, a membrane-bound component of the yeast endoplasmic reticulum protein import machinery." Molecular and Cellular Biology 10, no. 11 (November 1990): 6024–35. http://dx.doi.org/10.1128/mcb.10.11.6024-6035.1990.
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SEC62 is required for the import of secretory protein precursors into the endoplasmic reticulum (ER) of Saccharomyces cerevisiae. The DNA sequence of SEC62 predicts a 32-kDa polypeptide with two potential membrane-spanning segments. Two antisera directed against different portions of the SEC62 coding region specifically detected a 30-kDa polypeptide in cell extracts. A combination of subcellular fractionation, detergent and alkali extraction, and indirect immunofluorescence studies indicated that Sec62p is intimately associated with the ER membrane. Protease digestion of intact microsomes and analysis of the oligosaccharide content of a set of Sec62p-invertase hybrid proteins suggested that Sec62p spans the ER membrane twice, displaying hydrophilic amino- and carboxy-terminal domains towards the cytosol. Sec62p-invertase hybrid proteins that lack the Sec62p C terminus failed to complement the sec62-l mutation and dramatically inhibited the growth of sec62-l cells at a normally permissive temperature. The inhibitory action of toxic Sec62p-invertase hybrids was partially counteracted by the overexpression of Sec63p. Taken together, these data suggest that the C-terminal domain of Sec62p performs an essential function and that the N-terminal domain associates with other components of the translocation machinery, including Sec63p.
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Pedder, Christopher M., Dianne Ford, and John E. Hesketh. "Targeting of transcripts encoding membrane proteins in polarized epithelia: RNA–protein binding studies of the SGLT1 3′-UTR." Biochemical Society Transactions 36, no. 3 (May 21, 2008): 525–27. http://dx.doi.org/10.1042/bst0360525.
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mRNA stability, mRNA translation and spatial localization of mRNA species within a cell can be governed by signals in the 3′-UTR (3′-untranslated region). Local translation of proteins is essential for the development of many eukaryotic cell types, such as the Drosophila embryo, where the spatial and temporal localization of bicoid and gurken mRNAs, among others, is required to establish morphogen gradients. More recent studies have suggested that mRNA localization also occurs with transcripts coding for membrane-based or secreted proteins, and that localization at organelles such as the endoplasmic reticulum directs translation more efficiently to specific subdomains, so as to aid correct protein localization. In human epithelial cells, the mRNA coding for SGLT1 (sodium–glucose co-transporter 1), an apical membrane protein, has been shown to be localized apically in polarized cells. However, the nature of the signals and RNA-binding proteins involved are unknown. Ongoing work is aimed at identifying the localization signals in the SGLT1 3′-UTR and the corresponding binding proteins. Using a protein extract from polarized Caco-2 cells, both EMSAs (electrophoretic mobility-shift assays) and UV cross-linking assays have shown that a specific protein complex is formed with the first 300 bases of the 3′-UTR sequence. MFold predictions suggest that this region folds into a complex structure and ongoing studies using a series of strategic deletions are being carried out to identify the precise nature of the motif involved, particularly the role of the sequence or RNA secondary structure, as well as to identify the main proteins present within the complex. Such information will provide details of the post-transcriptional events that lead to apical localization of the SGLT1 transcript and may reveal mechanisms of more fundamental importance in the apical localization of proteins in polarized epithelia.
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Lee, Hui Sun, Jeonghyun Ahn, Youngmee Jee, Il Sun Seo, Eun Jung Jeon, Eun-Seok Jeon, Chul Hyun Joo, Yoo Kyum Kim, and Heuiran Lee. "Universal and mutation-resistant anti-enteroviral activity: potency of small interfering RNA complementary to the conserved cis-acting replication element within the enterovirus coding region." Journal of General Virology 88, no. 7 (July 1, 2007): 2003–12. http://dx.doi.org/10.1099/vir.0.82633-0.
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The promising potential of RNA interference-based antiviral therapies has been well established. However, the antiviral efficacy is largely limited by genomic diversity and genetic instability of various viruses, including human enterovirus B (HEB). In this work, the first evidence supporting the anti-HEB activity of the small interfering RNA (siRNA) targeting the highly conserved cis-acting replication element (CRE) within virus coding region 2C is presented. HeLa cells pre-treated with siRNA complementary to the conserved sequence of the loop region of CRE(2C) were effectively rescued from the cytopathic effects of HEBs. Downregulation of virus replication and attenuation of cytotoxicity were consistently observed in various reference strains and clinical isolates. Cells treated with this siRNA were resistant to the emergence of viable escape mutants and showed sustained antiviral ability. Collectively, the data suggest that the siRNA based on the disordered structure within the highly conserved cis-acting coding region has potential as a universal, persistent anti-HEB agent. The same strategy can be successfully applied to the development of siRNA with consistent antiviral effects in other virus groups possessing similar RNA elements.
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Wilson, Joyce A., and Christopher D. Richardson. "Hepatitis C Virus Replicons Escape RNA Interference Induced by a Short Interfering RNA Directed against the NS5b Coding Region." Journal of Virology 79, no. 11 (June 1, 2005): 7050–58. http://dx.doi.org/10.1128/jvi.79.11.7050-7058.2005.
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ABSTRACT RNA interference represents an exciting new technology that could have therapeutic applications for the treatment of viral infections. Hepatitis C virus (HCV) is a major cause of chronic liver disease and affects over 270 million individuals worldwide. The HCV genome is a single-stranded RNA that functions as both an mRNA and a replication template, making it an attractive target for therapeutic approaches using short interfering RNA (siRNA). We have shown previously that double-stranded siRNA molecules designed to target the HCV genome block gene expression and RNA synthesis from hepatitis C replicons propagated in human liver cells. However, we now show that this block is not complete. After several treatments with a highly effective siRNA, we have shown growth of replicon RNAs that are resistant to subsequent treatment with the same siRNA. However, these replicon RNAs were not resistant to siRNA targeting another part of the genome. Sequence analysis of the siRNA-resistant replicons showed the generation of point mutations within the siRNA target sequence. In addition, the use of a combination of two siRNAs together severely limited escape mutant evolution. This suggests that RNA interference activity could be used as a treatment to reduce the devastating effects of HCV replication on the liver and the use of multiple siRNAs could prevent the emergence of resistant viruses.
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Lefèbvre, Laurent, Vincenzo Ciminale, Alain Vanderplasschen, Donna D'Agostino, Arsène Burny, Luc Willems, and Richard Kettmann. "Subcellular Localization of the Bovine Leukemia Virus R3 and G4 Accessory Proteins." Journal of Virology 76, no. 15 (August 1, 2002): 7843–54. http://dx.doi.org/10.1128/jvi.76.15.7843-7854.2002.
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ABSTRACT Bovine leukemia virus (BLV) is a complex retrovirus that belongs to the Deltaretrovirus genus, which also includes Human T-cell leukemia virus type 1 (HTLV-1). Both viruses contain an X region coding for at least four proteins: Tax and Rex, which are involved in transcriptional and posttranscriptional regulation, respectively, and the accessory proteins R3 and G4 (for BLV) and p12I, p13II, and p30II (for HTLV-1). The present study was aimed at characterizing the subcellular localization of BLV R3 and G4. The results of immunofluorescence experiments on transfected HeLa Tat cells demonstrated that R3 is located in the nucleus and in cellular membranes, as previously reported for HTLV-1 p12I. In contrast, G4, like p13II, is localized both in the nucleus and in mitochondria. In addition, we have shown that G4 harbors a mitochondrial targeting signal consisting of a hydrophobic region and an amphipathic α-helix. Thus, despite a lack of significant primary sequence homology, R3 and p12I and G4 and p13II exhibit similar targeting properties, suggesting possible overlap in their functional properties.
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Goldoni, Dana, Janet M. Yarham, Mary K. McGahon, Anna O’Connor, Jasenka Guduric-Fuchs, Kevin Edgar, Denise M. McDonald, David A. Simpson, and Anthony Collins. "A novel dual-fluorescence strategy for functionally validating microRNA targets in 3′ untranslated regions: regulation of the inward rectifier potassium channel Kir2.1 by miR-212." Biochemical Journal 448, no. 1 (October 18, 2012): 103–13. http://dx.doi.org/10.1042/bj20120578.
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Gene targeting by microRNAs is important in health and disease. We developed a functional assay for identifying microRNA targets and applied it to the K+ channel Kir2.1 [KCNJ2 (potassium inwardly-rectifying channel, subfamily J, member 2)] which is dysregulated in cardiac and vascular disorders. The 3′UTR (untranslated region) was inserted downstream of the mCherry red fluorescent protein coding sequence in a mammalian expression plasmid. MicroRNA sequences were inserted into the pSM30 expression vector which provides enhanced green fluorescent protein as an indicator of microRNA expression. HEK (human embryonic kidney)-293 cells were co-transfected with the mCherry-3′UTR plasmid and a pSM30-based plasmid with a microRNA insert. The principle of the assay is that functional targeting of the 3′UTR by the microRNA results in a decrease in the red/green fluorescence intensity ratio as determined by automated image analysis. The method was validated with miR-1, a known down-regulator of Kir2.1 expression, and was used to investigate the targeting of the Kir2.1 3′UTR by miR-212. The red/green ratio was lower in miR-212-expressing cells compared with the non-targeting controls, an effect that was attenuated by mutating the predicted target site. miR-212 also reduced inward rectifier current and Kir2.1 protein in HeLa cells. This novel assay has several advantages over traditional luciferase-based assays including larger sample size, amenability to time course studies and adaptability to high-throughput screening.
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Kubo, Nakao, Shin-ichi Arimura, Nobuhiro Tsutsumi, Koh-ichi Kadowaki, and Masashi Hirai. "Isolation and characterization of the pea cytochrome c oxidase Vb gene." Genome 49, no. 11 (November 2006): 1481–89. http://dx.doi.org/10.1139/g06-105.
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Three copies of the gene that encodes cytochrome c oxidase subunit Vb were isolated from the pea (PscoxVb-1, PscoxVb-2, and PscoxVb-3). Northern Blot and reverse transcriptase-PCR analyses suggest that all 3 genes are transcribed in the pea. Each pea coxVb gene has an N-terminal extended sequence that can encode a mitochondrial targeting signal, called a presequence. The localization of green fluorescent proteins fused with the presequence strongly suggests the targeting of pea COXVb proteins to mitochondria. Each pea coxVb gene has 5 intron sites within the coding region. These are similar to Arabidopsis and rice, although the intron lengths vary greatly. A phylogenetic analysis of coxVb suggests the occurrence of gene duplication events during angiosperm evolution. In particular, 2 duplication events might have occurred in legumes, grasses, and Solanaceae. A comparison of amino acid sequences in COXVb or its counterpart shows the conservation of several amino acids within a zinc finger motif. Interestingly, a homology search analysis showed that bacterial protein COG4391 and a mitochondrial complex I 13 kDa subunit also have similar amino acid compositions around this motif. Such similarity might reflect evolutionary relationships among the 3 proteins.
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Germer, Jeff J., Paul N. Rys, Jill N. Thorvilson, and David H. Persing. "Determination of Hepatitis C Virus Genotype by Direct Sequence Analysis of Products Generated with the Amplicor HCV Test." Journal of Clinical Microbiology 37, no. 8 (1999): 2625–30. http://dx.doi.org/10.1128/jcm.37.8.2625-2630.1999.
Full textAbstract:
Consistent with other members of the familyFlaviviridae, hepatitis C virus (HCV) demonstrates a high degree of sequence variation throughout the coding regions of its genome. However, there is a high degree of sequence conservation found within the 5′ untranslated region (UTR) of the genome, making this region a target of choice for most nucleic acid amplification-based detection assays. In this study, the Amplicor HCV test, a commercially available assay which detects the 5′UTR, was used for the detection of HCV RNA in 669 serum samples obtained from a cohort of liver transplantation patients. Amplification products obtained from the HCV-positive cases were subjected to direct sequencing and genotyping based upon seven phylogenetically informative regions within the 5′UTR. Of the 669 specimens, 416 (62.2%) tested positive for the presence of HCV RNA. Of these, 372 (89.4%) specimens were successfully classified into 11 HCV genotypes and subtypes after computer-assisted analysis of the sequence data. Forty-four (10.6%) of the HCV RNA-positive specimens were not classifiable, the majority corresponding to low-titer specimens as determined by the Chiron Quantiplex HCV RNA 2.0 assay. Additional comparative studies targeting the NS-5 region of the viral genome generally confirmed the accuracy and sensitivity of the 5′UTR-based classifications, with the exception of the misclassification of a small number of type 1a cases as type 1b. We conclude that although the high sequence conservation within the 5′UTR results in the misclassification of a small number of HCV subtypes, the overall gains of efficiency, the shorter turnaround time, the inclusion of contamination control measures, and the low rate of test failure compared to that of methods based on the NS-5 gene together constitute significant advantages over other techniques.
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Loy, J. Dustin, Mark A. Mogler, Duan S. Loy, Bruce Janke, Kurt Kamrud, Edward D. Scura, D. L. Hank Harris, and Lyric C. Bartholomay. "dsRNA provides sequence-dependent protection against infectious myonecrosis virus in Litopenaeus vannamei." Journal of General Virology 93, no. 4 (April 1, 2012): 880–88. http://dx.doi.org/10.1099/vir.0.038653-0.
Full textAbstract:
Viral diseases are significant impediments to the sustainability of shrimp aquaculture. In addition to endemic disease, new viral diseases continue to emerge and cause significant impact on the shrimp industry. Disease caused by infectious myonecrosis virus (IMNV) has caused tremendous losses in farmed Pacific white shrimp (Litopenaeus vannamei) since it emerged in Brazil and translocated to Indonesia. There are no existing antiviral interventions, outside of pathogen exclusion, to mitigate disease in commercial shrimp operations. Here, we describe an iterative process of panning the genome of IMNV to discover RNA interference trigger sequences that initiate a robust and long-lasting protective response against IMNV in L. vannamei. Using this process, a single, low dose (0.02 µg) of an 81 or 153 bp fragment, with sequence corresponding to putative cleavage protein 1 in ORF1, protected 100 % of animals from disease and mortality caused by IMNV. Furthermore, animals that were treated with highly efficacious dsRNA survived an initial infection and were resistant to subsequent infections over 50 days later with a 100-fold greater dose of virus. This protection is probably sequence dependent, because targeting the coding regions for the polymerase or structural genes of IMNV conferred lesser or no protection. Interestingly, non-sequence specific dsRNA did not provide any degree of protection to animals as had been described for other shrimp viruses. Our data indicate that the targeted region for dsRNA is a crucial factor in maximizing the degree of protection and lowering the dose required to induce a protective effect against IMNV infection in shrimp.
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Tidwell, Timothy, Jeremy Wechsler, and Marshall S. Horwitz. "Novel Isoforms of Neutrophil Elastase Produced by Neutropenia-Associated Mutations of the Initiation Codon and an Internal Ribosomal Entry Site (IRES) of ELANE." Blood 120, no. 21 (November 16, 2012): 9. http://dx.doi.org/10.1182/blood.v120.21.9.9.
Full textAbstract:
Abstract Abstract 9 Severe congenital neutropenia is most commonly caused by mutations in the gene, ELANE, encoding neutrophil elastase, through a mechanism that is not fully understood. Two prevalent hypotheses point to mislocalization of neutrophil elastase or, alternatively, endoplasmic reticulum (ER) stress resulting from protein misfolding. We have recently identified disease-causing mutations in the “Kozak” ribosome-binding sequence and the initiation codon that do not easily fit with either theory. In cell culture models of neutrophil elastase expression, we found that when the ribosome binding site of ELANE is mutated, at least four polypeptides are expressed, all shorter than the wild type. All of the isoforms are reactive to a carboxyl-terminal antibody, indicating that they are likely produced from alternate start sites or represent amino-terminal truncations. ELANE contains three downstream in-frame initiation codons (ATG) that potentially could be utilized as alternate translation start sites, and mutations in the vicinity of these sequences predictably correlate with production of each of the shorter isoforms. Furthermore, a protein-coding region of ELANE mRNA is complementary to the 18s ribosomal RNA subunit and demonstrates internal ribosome entry site (IRES) activity, when tested using a bicistronic luciferase assay. Neutropenia-associated mutations within the identified IRES also affect expression of the shorter isoforms of neutrophil elastase. These findings suggest that some ELANE mutations could cause neutropenia, not through disturbing the primary sequence of full-length neutrophil elastase protein, but instead by altering mRNA-ribosome interactions, thus generating shorter isoforms of normal sequence that are initiated from internal translational start sites. We have therefore biochemically characterized the shorter isoforms. We found that they do not demonstrate proteolytic activity. Because they lack signal sequences and cannot be trafficked through the ER, it is also not surprising that they fail to induce the ER stress response. They do not trigger apoptosis, as measured in several assays. Nevertheless, they do reduce myeloid cell viability in a colony forming test. We propose that these shortened isoforms contribute to the pathogenesis of ELANE-associated neutropenia by impairing myeloid cell development. Because a diversity of ELANE mutations from different patients seem to have identical effects, these shorter neutrophil elastase polypeptides, common to multiple patients regardless of mutation, may offer promise as targets for drug development. Disclosures: No relevant conflicts of interest to declare.
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Slabas, A. R., D. Chase, I. Nishida, N. Murata, C. Sidebottom, R. Safford, P. S. Sheldon, R. G. Kekwick, D. G. Hardie, and R. W. Mackintosh. "Molecular cloning of higher-plant 3-oxoacyl-(acyl carrier protein) reductase. Sequence identities with the nodG-gene product of the nitrogen-fixing soil bacterium Rhizobium meliloti." Biochemical Journal 283, no. 2 (April 15, 1992): 321–26. http://dx.doi.org/10.1042/bj2830321.
Full textAbstract:
cDNA clones encoding the fatty-acid- biosynthetic enzyme NADPH-linked 3-oxoacyl-(acyl carrier protein) (ACP) reductase were isolated from a Brassica napus (rape) developing seed library and from an Arabidopsis thaliana (thale cress) leaf library. The N-terminal end of the coding region shows features typical of a stromal-targeting plastid-transit peptide. The deduced amino acid sequences have 41% and 55% identity respectively with the nodG-gene product of Rhizobium meliloti, one of the host-specific genes that restrict infectivity of this bacterium to a small range of host plants. The probability that the nodG-gene product is a oxoreductase strengthens the hypothesis that some of the host-specific nod-gene products are enzymes which synthesize polyketides that uniquely modify the Rhizobium nodulation signal molecule.
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Rose, A. M., P. B. Joyce, A. K. Hopper, and N. C. Martin. "Separate information required for nuclear and subnuclear localization: additional complexity in localizing an enzyme shared by mitochondria and nuclei." Molecular and Cellular Biology 12, no. 12 (December 1992): 5652–58. http://dx.doi.org/10.1128/mcb.12.12.5652.
Full textAbstract:
The TRM1 gene of Saccharomyces cerevisiae codes for a tRNA modification enzyme, N2,N2-dimethylguanosine-specific tRNA methyltransferase (m2(2)Gtase), shared by mitochondria and nuclei. Immunofluorescent staining at the nuclear periphery demonstrates that m2(2)Gtase localizes at or near the nuclear membrane. In determining sequences necessary for targeting the enzyme to nuclei and mitochondria, we found that information required to deliver the enzyme to the nucleus is not sufficient for its correct subnuclear localization. We also determined that mislocalizing the enzyme from the nucleus to the cytoplasm does not destroy its biological function. This change in location was caused by altering a sequence similar to other known nuclear targeting signals (KKSKKKRC), suggesting that shared enzymes are likely to use the same import pathway as proteins that localize only to the nucleus. As with other well-characterized mitochondrial proteins, the mitochondrial import of the shared methyltransferase depends on amino-terminal amino acids, and removal of the first 48 amino acids prevents its import into mitochondria. While this truncated protein is still imported into nuclei, the immunofluorescent staining is uniform throughout rather than at the nuclear periphery, a staining pattern identical to that described for a fusion protein consisting of the first 213 amino acids of m2(2)Gtase in frame with beta-galactosidase. As both of these proteins together contain the entire m2(2)Gtase coding region, the information necessary for association with the nuclear periphery must be more complex than the short linear sequence necessary for nuclear localization.
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Rose, A. M., P. B. Joyce, A. K. Hopper, and N. C. Martin. "Separate information required for nuclear and subnuclear localization: additional complexity in localizing an enzyme shared by mitochondria and nuclei." Molecular and Cellular Biology 12, no. 12 (December 1992): 5652–58. http://dx.doi.org/10.1128/mcb.12.12.5652-5658.1992.
Full textAbstract:
The TRM1 gene of Saccharomyces cerevisiae codes for a tRNA modification enzyme, N2,N2-dimethylguanosine-specific tRNA methyltransferase (m2(2)Gtase), shared by mitochondria and nuclei. Immunofluorescent staining at the nuclear periphery demonstrates that m2(2)Gtase localizes at or near the nuclear membrane. In determining sequences necessary for targeting the enzyme to nuclei and mitochondria, we found that information required to deliver the enzyme to the nucleus is not sufficient for its correct subnuclear localization. We also determined that mislocalizing the enzyme from the nucleus to the cytoplasm does not destroy its biological function. This change in location was caused by altering a sequence similar to other known nuclear targeting signals (KKSKKKRC), suggesting that shared enzymes are likely to use the same import pathway as proteins that localize only to the nucleus. As with other well-characterized mitochondrial proteins, the mitochondrial import of the shared methyltransferase depends on amino-terminal amino acids, and removal of the first 48 amino acids prevents its import into mitochondria. While this truncated protein is still imported into nuclei, the immunofluorescent staining is uniform throughout rather than at the nuclear periphery, a staining pattern identical to that described for a fusion protein consisting of the first 213 amino acids of m2(2)Gtase in frame with beta-galactosidase. As both of these proteins together contain the entire m2(2)Gtase coding region, the information necessary for association with the nuclear periphery must be more complex than the short linear sequence necessary for nuclear localization.
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Wang, Hanzhou, Rong Li, and Yanfen Hu. "The Alternative Noncoding Exons 1 of Aromatase (Cyp19) Gene Modulate Gene Expression in a Posttranscriptional Manner." Endocrinology 150, no. 7 (March 12, 2009): 3301–7. http://dx.doi.org/10.1210/en.2008-1812.
Full textAbstract:
Aromatase (Cyp19) is a key enzyme in estrogen biosynthesis and an important target in endocrine therapy for estrogen receptor (ER)-positive postmenopausal breast cancer. Aromatase transcription is driven by multiple tissue-specific promoters, which result in the production of various mRNA transcripts that contain an alternative noncoding exon 1 followed by a common protein-coding region. Transcriptional activity of these promoters is the only known determinant for aromatase protein abundance in a given tissue or cellular context. To determine whether aromatase expression could be influenced by additional regulatory mechanisms, we used a common heterologous promoter to drive the expression of multiple aromatase cDNA sequences that differ only by the alternative exon 1 sequence. These expression vectors gave rise to vastly different levels of aromatase mRNA and protein in multiple cell lines examined. Furthermore, the relative abundance of several mRNA variants did not correlate with that of the corresponding protein product. The variation in mRNA and protein levels is most likely due to a negative effect of certain alternative exons 1 on RNA stability and protein translation. Deletional analyses indicate that the 5′ regions of the adipose tissue-specific exons I.3 and I.4 contain the cis-acting elements responsible for modulation of aromatase levels. Thus, our work uncovers an important role of the alternative exons 1 in posttranscriptional regulation of aromatase gene expression.
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Raj, Shriya, Karthik Krishnan, David S. Askew, Olivier Helynck, Peggy Suzanne, Aurélien Lesnard, Sylvain Rault, et al. "The Toxicity of a Novel Antifungal Compound Is Modulated by Endoplasmic Reticulum-Associated Protein Degradation Components." Antimicrobial Agents and Chemotherapy 60, no. 3 (December 14, 2015): 1438–49. http://dx.doi.org/10.1128/aac.02239-15.
Full textAbstract:
In a search for new antifungal compounds, we screened a library of 4,454 chemicals for toxicity against the human fungal pathogenAspergillus fumigatus. We identified sr7575, a molecule that inhibits growth of the evolutionary distant fungiA. fumigatus,Cryptococcus neoformans,Candida albicans, andSaccharomyces cerevisiaebut lacks acute toxicity for mammalian cells. To gain insight into the mode of inhibition, sr7575 was screened against 4,885S. cerevisiaemutants from the systematic collection of haploid deletion strains and 977 barcoded haploid DAmP (decreased abundance by mRNA perturbation) strains in which the function of essential genes was perturbed by the introduction of a drug resistance cassette downstream of the coding sequence region. Comparisons with previously published chemogenomic screens revealed that the set of mutants conferring sensitivity to sr7575 was strikingly narrow, affecting components of the endoplasmic reticulum-associated protein degradation (ERAD) stress response and the ER membrane protein complex (EMC). ERAD-deficient mutants were hypersensitive to sr7575 in bothS. cerevisiaeandA. fumigatus, indicating a conserved mechanism of growth inhibition between yeast and filamentous fungi. Although the unfolded protein response (UPR) is linked to ERAD regulation, sr7575 did not trigger the UPR inA. fumigatusand UPR mutants showed no enhanced sensitivity to the compound. The data from this chemogenomic analysis demonstrate that sr7575 exerts its antifungal activity by disrupting ER protein quality control in a manner that requires ERAD intervention but bypasses the need for the canonical UPR. ER protein quality control is thus a specific vulnerability of fungal organisms that might be exploited for antifungal drug development.
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Goguel, V., A. Delahodde, and C. Jacq. "Connections between RNA splicing and DNA intron mobility in yeast mitochondria: RNA maturase and DNA endonuclease switching experiments." Molecular and Cellular Biology 12, no. 2 (February 1992): 696–705. http://dx.doi.org/10.1128/mcb.12.2.696.
Full textAbstract:
The intron-encoded proteins bI4 RNA maturase and aI4 DNA endonuclease can be faithfully expressed in yeast cytoplasm from engineered forms of their mitochondrial coding sequences. In this work we studied the relationships between these two activities associated with two homologous intron-encoded proteins: the bI4 RNA maturase encoded in the fourth intron of the cytochrome b gene and the aI4 DNA endonuclease (I-SceII) encoded in the fourth intron of the gene coding for the subunit I of cytochrome oxidase. Taking advantage of both the high recombinogenic properties of yeast and the similarities between the two genes, we constructed in vivo a family of hybrid genes carrying parts of both RNA maturase and DNA endonuclease coding sequences. The presence of a sequence coding for a mitochondrial targeting peptide upstream from these hybrid genes allowed us to study the properties of their translation products within the mitochondria in vivo. We thus could analyze the ability of the recombinant proteins to complement RNA maturase deficiencies in different strains. Many combinations of the two parental intronic sequences were found in the recombinants. Their structural and functional analysis revealed the following features. (i) The N-terminal half of the bI4 RNA maturase could be replaced in total by its equivalent from the aI4 DNA endonuclease without affecting the RNA maturase activity. In contrast, replacing the C-terminal half of the bI4 RNA maturase with its equivalent from the aI4 DNA endonuclease led to a very weak RNA maturase activity, indicating that this region is more differentiated and linked to the maturase activity. (ii) None of the hybrid proteins carrying an RNA maturase activity kept the DNA endonuclease activity, suggesting that the latter requires the integrity of the aI4 protein. These observations are interesting because the aI4 DNA endonuclease is known to promote the propagation, at the DNA level, of the aI4 intron, whereas the bI4 RNA maturase, which is required for the splicing of its coding intron, also controls the splicing process of the aI4 intron. We propose a scenario for the evolution of these intronic proteins that relies on a switch from DNA endonuclease to RNA maturase activity.
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Goguel, V., A. Delahodde, and C. Jacq. "Connections between RNA splicing and DNA intron mobility in yeast mitochondria: RNA maturase and DNA endonuclease switching experiments." Molecular and Cellular Biology 12, no. 2 (February 1992): 696–705. http://dx.doi.org/10.1128/mcb.12.2.696-705.1992.
Full textAbstract:
The intron-encoded proteins bI4 RNA maturase and aI4 DNA endonuclease can be faithfully expressed in yeast cytoplasm from engineered forms of their mitochondrial coding sequences. In this work we studied the relationships between these two activities associated with two homologous intron-encoded proteins: the bI4 RNA maturase encoded in the fourth intron of the cytochrome b gene and the aI4 DNA endonuclease (I-SceII) encoded in the fourth intron of the gene coding for the subunit I of cytochrome oxidase. Taking advantage of both the high recombinogenic properties of yeast and the similarities between the two genes, we constructed in vivo a family of hybrid genes carrying parts of both RNA maturase and DNA endonuclease coding sequences. The presence of a sequence coding for a mitochondrial targeting peptide upstream from these hybrid genes allowed us to study the properties of their translation products within the mitochondria in vivo. We thus could analyze the ability of the recombinant proteins to complement RNA maturase deficiencies in different strains. Many combinations of the two parental intronic sequences were found in the recombinants. Their structural and functional analysis revealed the following features. (i) The N-terminal half of the bI4 RNA maturase could be replaced in total by its equivalent from the aI4 DNA endonuclease without affecting the RNA maturase activity. In contrast, replacing the C-terminal half of the bI4 RNA maturase with its equivalent from the aI4 DNA endonuclease led to a very weak RNA maturase activity, indicating that this region is more differentiated and linked to the maturase activity. (ii) None of the hybrid proteins carrying an RNA maturase activity kept the DNA endonuclease activity, suggesting that the latter requires the integrity of the aI4 protein. These observations are interesting because the aI4 DNA endonuclease is known to promote the propagation, at the DNA level, of the aI4 intron, whereas the bI4 RNA maturase, which is required for the splicing of its coding intron, also controls the splicing process of the aI4 intron. We propose a scenario for the evolution of these intronic proteins that relies on a switch from DNA endonuclease to RNA maturase activity.
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Garbitt, Rachel A., Karen R. Bone, and Leslie J. Parent. "Insertion of a Classical Nuclear Import Signal into the Matrix Domain of the Rous Sarcoma Virus Gag Protein Interferes with Virus Replication." Journal of Virology 78, no. 24 (December 15, 2004): 13534–42. http://dx.doi.org/10.1128/jvi.78.24.13534-13542.2004.
Full textAbstract:
ABSTRACT The Rous sarcoma virus Gag protein undergoes transient nuclear trafficking during virus assembly. Nuclear import is mediated by a nuclear targeting sequence within the MA domain. To gain insight into the role of nuclear transport in replication, we investigated whether addition of a “classical ” nuclear localization signal (NLS) in Gag would affect virus assembly or infectivity. A bipartite NLS derived from nucleoplasmin was inserted into a region of the MA domain of Gag that is dispensable for budding and infectivity. Gag proteins bearing the nucleoplasmin NLS insertion displayed an assembly defect. Mutant virus particles (RC.V8.NLS) were not infectious, although they were indistinguishable from wild-type virions in Gag, Gag-Pol, Env, and genomic RNA incorporation and Gag protein processing. Unexpectedly, postinfection viral DNA synthesis was also normal, as similar amounts of two-long-terminal-repeat junction molecules were detected for RC.V8.NLS and wild type, suggesting that the replication block occurred after nuclear entry of proviral DNA. Phenotypically revertant viruses arose after continued passage in culture, and sequence analysis revealed that the nucleoplasmin NLS coding sequence was deleted from the gag gene. To determine whether the nuclear targeting activity of the nucleoplasmin sequence was responsible for the infectivity defect, two critical basic amino acids in the NLS were altered. This virus (RC.V8.KR/AA) had restored infectivity, and the MA.KR/AA protein showed reduced nuclear localization, comparable to the wild-type MA protein. These data demonstrate that addition of a second NLS, which might direct MA and/or Gag into the nucleus by an alternate import pathway, is not compatible with productive virus infection.
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Trimbur, G. M., J. L. Goeckeler, J. L. Brodsky, and C. J. Walsh. "Cloning, sequencing, and nucleolar targeting of the basal-body-binding nucleolar protein BN46/51." Journal of Cell Science 112, no. 8 (April 15, 1999): 1159–68. http://dx.doi.org/10.1242/jcs.112.8.1159.
Full textAbstract:
BN46/51 is an acidic protein found in the granular component of the nucleolus of the amebo-flagellate Naegleria gruberi. When Naegleria amebae differentiate into swimming flagellates, BN46/51 is found associated with the basal body complex at the base of the flagella. In order to determine the factors responsible for targeting BN46/51 to a specific subnucleolar region, cDNAs coding for both subunits were isolated and sequenced. Two clones, JG4.1 and JG12.1 representing the 46 kDa and 51 kDa subunits, respectively, were investigated in detail. JG12.1 encoded a polypeptide of 263 amino acids with a predicted size of 30.1 kDa that co-migrated with the 51 kDa subunit of BN46/51 when expressed in yeast. JG4.1 encoded a polypeptide of 249 amino acids with a predicted size of 28.8 kDa that co-migrated with the 46 kDa subunit of BN46/51. JG4.1 was identical to JG12.1 except for the addition of an aspartic acid between positions 94 and 95 of the JG12.1 sequence and the absence of 45 amino acids beginning at position 113. The predicted amino acid sequences were not closely related to any previously reported. However, the sequences did have 26–31% identity to a group of FKPBs (FK506 binding proteins) but lacked the peptidyl-prolyl cis-trans isomerase domain of the FKBPs. Both subunits contained two KKE and three KKX repeats found in other nucleolar proteins and in some microtubule binding proteins. Using ‘Far Western’ blots of nucleolar proteins, BN46/51 bound to polypeptides of 44 kDa and 74 kDa. The 44 kDa component was identified as the Naegleria homologue of fibrillarin. BN46/51 bound specifically to the nucleoli of fixed mammalian cells, cells which lack a BN46/51 related polypeptide. When the JG4.1 and JG12.1 cDNAs were expressed in yeast, each subunit was independently targeted to the yeast nucleolus. We conclude that BN46/51 represents a unique nucleolar protein that can form specific complexes with fibrillarin and other nucleolar proteins. We suggest that the association of BN46/51 with the MTOC of basal bodies may reflect its role in connecting the nucleolus with the MTOC activity for the mitotic spindle. This would provide a mechanism for nucleolar segregation during the closed mitosis of Naegleria amebae.
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Garcia, P. D., J. H. Ou, W. J. Rutter, and P. Walter. "Targeting of the hepatitis B virus precore protein to the endoplasmic reticulum membrane: after signal peptide cleavage translocation can be aborted and the product released into the cytoplasm." Journal of Cell Biology 106, no. 4 (April 1, 1988): 1093–104. http://dx.doi.org/10.1083/jcb.106.4.1093.
Full textAbstract:
The major hepatitis B virus (HBV) core protein is a viral structural protein involved in nucleic acid binding. Its coding sequence contains an extension of 29 codons (the "precore" region) at the amino terminus of the protein which is present in a fraction of the viral transcripts. This region is evolutionarily conserved among mammalian and avian HBVs, suggesting it has functional importance, although at least for duck HBV it has been shown to be nonessential for replication of infectious virions. Using in vitro assays for protein translocation across the endoplasmic reticulum membrane, we found that the precore region of the HBV genome encodes a signal sequence. This signal sequence was recognized by signal recognition particle, which targeted the nascent precore protein to the endoplasmic reticulum membrane with efficiencies comparable to those of other mammalian secretory proteins. A 19-amino acid signal peptide was removed by signal peptidase on the lumenal side of the microsomal membrane, generating a protein similar to the HBV major core protein, but containing 10 additional amino acids from the precore region at its amino terminus. Surprisingly, we found that 70-80% of this signal peptidase-cleaved product was localized on the cytoplasmic side of the microsomal vesicles and was not associated with the membranes. We conclude that translocation was aborted by an unknown mechanism, then the protein disengaged from the translocation machinery and was released back into the cytoplasm. Thus, a cytoplasmically disposed protein was created whose amino terminus resulted from signal peptidase cleavage. The remaining 20-30% appeared to be completely translocated into the lumen of the microsomes. A deletion mutant lacking the carboxy-terminal nucleic acid binding domain of the precore protein was similarly partitioned between the lumen of the microsomes and the cytoplasmic compartment, indicating that this highly charged domain is not responsible for the aborted translocation. We discuss the implications of our findings for the protein translocation process and suggest a possible role in the virus life cycle.