Your search keyword '"reporter gene"' showing total 58 results

1. Magnetic resonance imaging based on a granzyme B promoter-driven reporter gene expression monitors CAR-T cell activation

Author

NI Xiaoying, QIN Yong, and HE Xiaoya

Subjects

granzyme b, ferritin, reporter gene, magnetic resonance imaging, chimeric antigen receptor t cells, disialoganglioside, Medicine (General), R5-920

Abstract

Objective To investigate the feasibility of granzyme B (GB) promoter-controlled ferritin heavy chain (FTH1) reporter gene expression for monitoring the activation status of chimeric antigen receptor T cells (CAR-T) by magnetic resonance imaging (MRI). Methods Cytotoxic T lymphocytes (CTLs) were screened by Ficoll density gradient centrifugation and flow sorting. The GB promoter and FTH1 gene were ligated together with disialoganglioside 2 (GD2) CAR, and lentiviral vectors were transfected into CTLs to construct GD2-CAR-T/pGB-FTH1 cells. GD2-CAR-T/pCMV-FTH1, GD2-CAR-T, and T cells served as control cells. CytoTox96@non-radioactive cytotoxicity was used to detect the killing effect of each group of cells after co-culture with human neuroblastoma cells (SK-N-SH). ELISA was employed to detect the coincubation factor as well as the amount of GB secretion. Western blotting, Prussian blue staining and cellular MRI were applied to detect the expression of the FTH1 gene after co-culture. Results CTLs were successfully obtained, and then GD2-CAR-T/pGB-FTH1, GD2-CAR-T/pCMV-FTH1 and GD2-CAR-T cells were constructed. The killing effect, co-incubation factor and GB secretion of the above 3 groups of cells were significantly higher than those of the T cells, and the level of GB expression was highest at day 1, and then decreased in order at day 3 and day 7 after co-culturing with SK-N-SH cells. The relative expression of FTH1 and iron content of the GD2-CAR-T/pGB-FTH1 cells showed the same trend as GB expression, and the MRI signals were gradually increased. There were no significant differences in the relative expression of FTH1, iron content and MRI signals in the GD2-CAR-T/pCMV-FTH1 cells at all time points. No FTH1 expression or iron aggregation was observed in the GD2-CAR-T and T cells groups. Conclusion MRI based on the FTH1 reporter gene driven by the granzyme B promoter can reflect the GB expression level and tumor killing effect of CAR-T cells, which provides a potential real-time visual means to monitor the cell activation status for CAR-T therapy.

Published

2024

2. Engineering water exchange is a safe and effective method for magnetic resonance imaging in diverse cell types

Author

Austin D.C. Miller, Soham P. Chowdhury, Hadley W. Hanson, Sarah K. Linderman, Hannah I. Ghasemi, Wyatt D. Miller, Meghan A. Morrissey, Chris D. Richardson, Brooke M. Gardner, and Arnab Mukherjee

Subjects

aquaporin-1, Diffusion, MRI, Reporter gene, Unfolded protein response, Cell physiology, Biology (General), QH301-705.5

Abstract

Abstract Aquaporin-1 (Aqp1), a water channel, has garnered significant interest for cell-based medicine and in vivo synthetic biology due to its ability to be genetically encoded to produce magnetic resonance signals by increasing the rate of water diffusion in cells. However, concerns regarding the effects of Aqp1 overexpression and increased membrane diffusivity on cell physiology have limited its widespread use as a deep-tissue reporter. In this study, we present evidence that Aqp1 generates strong diffusion-based magnetic resonance signals without adversely affecting cell viability or morphology in diverse cell lines derived from mice and humans. Our findings indicate that Aqp1 overexpression does not induce ER stress, which is frequently associated with heterologous expression of membrane proteins. Furthermore, we observed that Aqp1 expression had no detrimental effects on native biological activities, such as phagocytosis, immune response, insulin secretion, and tumor cell migration in the analyzed cell lines. These findings should serve to alleviate any lingering safety concerns regarding the utilization of Aqp1 as a genetic reporter and should foster its broader application as a noninvasive reporter for in vivo studies.

Published

2024

3. Expanding the genetic toolbox for the obligate human pathogen Streptococcus pyogenes

Author

Nina Lautenschläger, Katja Schmidt, Carolin Schiffer, Thomas F. Wulff, Karin Hahnke, Knut Finstermeier, Moïse Mansour, Alexander K. W. Elsholz, and Emmanuelle Charpentier

Subjects

Streptococcus pyogenes, plasmid collection, inducible promoter, genetic engineering, reporter gene, scarless gene deletion, Biotechnology, TP248.13-248.65

Abstract

Genetic tools form the basis for the study of molecular mechanisms. Despite many recent advances in the field of genetic engineering in bacteria, genetic toolsets remain scarce for non-model organisms, such as the obligatory human pathogen Streptococcus pyogenes. To overcome this limitation and enable the straightforward investigation of gene functions in S. pyogenes, we have developed a comprehensive genetic toolset. By adapting and combining different tools previously applied in other Gram-positive bacteria, we have created new replicative and integrative plasmids for gene expression and genetic manipulation, constitutive and inducible promoters as well as fluorescence reporters for S. pyogenes. The new replicative plasmids feature low- and high-copy replicons combined with different resistance cassettes and a standardized multiple cloning site for rapid cloning procedures. We designed site-specific integrative plasmids and verified their integration by nanopore sequencing. To minimize the effect of plasmid integration on bacterial physiology, we screened publicly available RNA-sequencing datasets for transcriptionally silent sites. We validated this approach by designing the integrative plasmid pSpy0K6 targeting the transcriptionally silent gene SPy_1078. Analysis of the activity of different constitutive promoters indicated a wide variety of strengths, with the lactococcal promoter P23 showing the strongest activity and the synthetic promoter PxylS2 showing the weakest activity. Further, we assessed the functionality of three inducible regulatory elements including a zinc- and an IPTG-inducible promoter as well as an erythromycin-inducible riboswitch that showed low-to-no background expression and high inducibility. Additionally, we demonstrated the applicability of two codon-optimized fluorescent proteins, mNeongreen and mKate2, as reporters in S. pyogenes. We therefore adapted the chemically defined medium called RPMI4Spy that showed reduced autofluorescence and enabled efficient signal detection in plate reader assays and fluorescence microscopy. Finally, we developed a plasmid-based system for genome engineering in S. pyogenes featuring the counterselection marker pheS*, which enabled the scarless deletion of the sagB gene. This new toolbox simplifies previously laborious genetic manipulation procedures and lays the foundation for new methodologies to study gene functions in S. pyogenes, leading to a better understanding of its virulence mechanisms and physiology.

Published

2024

4. Engineering recombinant replication-competent bluetongue viruses expressing reporter genes for in vitro and non-invasive in vivo studies

Author

Sergio Utrilla-Trigo, Luis Jiménez-Cabello, Alejandro Marín-López, Miguel Illescas-Amo, Germán Andrés, Eva Calvo-Pinilla, Gema Lorenzo, Piet A. van Rijn, Javier Ortego, and Aitor Nogales

Subjects

bluetongue virus (BTV), non-structural protein 1 (NS1), reverse genetics, reporter gene, luciferase, fluorescent protein, Microbiology, QR1-502

Abstract

ABSTRACTBluetongue virus (BTV) is the causative agent of the important livestock disease bluetongue (BT), which is transmitted via Culicoides bites. BT causes severe economic losses associated with its considerable impact on health and trade of animals. By reverse genetics, we have designed and rescued reporter-expressing recombinant (r)BTV expressing NanoLuc luciferase (NLuc) or Venus fluorescent protein. To generate these viruses, we custom synthesized a modified viral segment 5 encoding NS1 protein with the reporter genes located downstream and linked by the Porcine teschovirus-1 (PTV-1) 2A autoproteolytic cleavage site. Therefore, fluorescent signal or luciferase activity is only detected after virus replication and expression of non-structural proteins. Fluorescence or luminescence signals were detected in cells infected with rBTV/Venus or rBTV/NLuc, respectively. Moreover, the marking of NS2 protein confirmed that reporter genes were only expressed in BTV-infected cells. Growth kinetics of rBTV/NLuc and rBTV/Venus in Vero cells showed replication rates similar to those of wild-type and rBTV. Infectivity studies of these recombinant viruses in IFNAR(−/−) mice showed a higher lethal dose for rBTV/NLuc and rBTV/Venus than for rBTV indicating that viruses expressing the reporter genes are attenuated in vivo. Interestingly, luciferase activity was detected in the plasma of viraemic mice infected with rBTV/NLuc. Furthermore, luciferase activity quantitatively correlated with RNAemia levels of infected mice throughout the infection. In addition, we have investigated the in vivo replication and dissemination of BTV in IFNAR (−/−) mice using BTV/NLuc and non-invasive in vivo imaging systems.IMPORTANCEThe use of replication-competent viruses that encode a traceable fluorescent or luciferase reporter protein has significantly contributed to the in vitro and in vivo study of viral infections and the development of novel therapeutic approaches. In this work, we have generated rBTV that express fluorescent or luminescence proteins to track BTV infection both in vitro and in vivo. Despite the availability of vaccines, BTV and other related orbivirus are still associated with a significant impact on animal health and have important economic consequences worldwide. Our studies may contribute to the advance in orbivirus research and pave the way for the rapid development of new treatments, including vaccines.

Published

2024

5. Enrichment of transgene integrations by transient CRISPR activation of a silent reporter gene

Author

Nanna S. Mikkelsen, Sabina S. Hernandez, Trine I. Jensen, Jessica L. Schneller, and Rasmus O. Bak

Subjects

transgene integration, enrichment, selection, CRISPR, reporter gene, CAR T, Genetics, QH426-470, Cytology, QH573-671

Abstract

CRISPR-Cas-mediated site-specific integration of transgenes by homology-directed repair (HDR) is challenging, especially in primary cells, where inferior editing efficiency may impede the development of gene- and cellular therapies. Various strategies for enrichment of cells with transgene integrations have been developed, but most strategies either generate unwanted genomic scars or rely on permanent integration and expression of a reporter gene used for selection. However, stable expression of a reporter gene may perturb cell homeostasis and function. Here we develop a broadly applicable and versatile enrichment strategy by harnessing the capability of CRISPR activation (CRISPRa) to transiently induce expression of a therapeutically relevant reporter gene used for immunomagnetic enrichment. This strategy is readily adaptable to primary human T cells and CD34+ hematopoietic stem and progenitor cells (HSPCs), where enrichment of 1.8- to 3.3-fold and 3.2- to 3.6-fold was achieved, respectively. Furthermore, chimeric antigen receptor (CAR) T cells were enriched 2.5-fold and demonstrated improved cytotoxicity over non-enriched CAR T cells. Analysis of HDR integrations showed a proportion of cells harboring deletions of the transgene cassette arising either from impartial HDR or truncated adeno-associated virus (AAV) vector genomes. Nonetheless, this novel enrichment strategy expands the possibility to enrich for transgene integrations in research settings and in gene and cellular therapies.

Published

2023

6. Establishment of a mouse embryonic stem cell line carrying a reporter of mT-F2A-EGFP based on CRISPR/Cas9n technology

Author

WANG Jingyi and WANG Qiong

Subjects

mouse embryonic stem cell (mesc), crispr/cas9n, mesendoderm differentiation, enhanced green fluorescent protein (egfp), reporter gene, brachyury, foot-and-mouth disease virus 2a (f2a), Medicine

Abstract

Objective·To establish a T-box transcription factor Brachyury (T gene) fluorescence reporter cell line, in which foot-and-mouth disease virus 2A (F2A) and enhanced green fluorescent protein (EGFP) were knocked in at the end of mouse T gene (mT-F2A-EGFP) in mouse embryonic stem cells (mESCs) by CRISPR/Cas9n (clustered regularly interspaced short palindromic repeats/CRISPR-associated protein 9 nickase)-mediated homologous-directed repair (HDR) technology.Methods·First of all, the specific single guide RNA (sgRNA) plasmid targeting the sequence near the stop codon of the mouse T gene and the plasmid donor containing F2A-EGFP were constructed. These two plasmids were co-delivered into mESCs E14Tg2a (E14) by electroporation. In this way, the desired fluorescent marker EGFP with self-cleaving peptide F2A were introduced into the end of T gene via HDR. Then, the monoclonal cells, obtained after drug selection and verified by sequencing, were induced for differentiation as embryonic bodies (EB), of which the fluorescence signals of mT-F2A-EGFP were monitored by fluorescence microscope and flow cytometry. These reporter clones were also selected before and after differentiation by real-time quantitative reverse transcription polymerase chain reaction (RT-qPCR), which detected the transcription levels of marker genes determing pluripotency, mesendoderm differentiation or ectoderm differentiation. In addition, the cell cycle and growth curve of these clones were detected. Meanwhile, alkaline phosphatase (AP) staining was used to detect the stem cell characteristics of these candidate clones. Finally, the clone T1 carrying mT-F2A-EGFP was selected for EB differentiation. Flow cytometry was used to sort out EGFP expression cells (EGFP＋) and non-EGFP expressing cells (EGFP－) from the EBs comprising multiple lineage cells upon differentiation, of which cell lineage markers were checked by RT-qPCR.Results·EGFP was correctly inserted after the T gene in E14, whose fluorescence intensity reflected the expression level of endogenous T without observed side effects. When the fluorescence reporter clone T1 was differentiated, the EGFP+ cells sorted by flow cytometry mainly expressed mesendoderm marker genes.Conclusion·The establishment of mESC line carrying mT-F2A-EGFP can realize rapid monitoring of the degree of T regulation, and track mesendoderm cells expressing T marker, EGFP in real time during differentiation.

Published

2023

7. In vivo labeling and quantitative imaging of neuronal populations using MRI

Author

Shana Li, Xiang Xu, Canjun Li, Ziyan Xu, Ke Wu, Qiong Ye, Yan Zhang, Xiaohua Jiang, Chunlei Cang, Changlin Tian, and Jie Wen

Subjects

Reporter gene, In vivo MRI, Neuronal labeling, Oatp1a1, Gd-EOB-DTPA, Quantitative analysis, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The study of neural circuits, which underlies perception, cognition, emotion, and behavior, is essential for understanding the mammalian brain, a complex organ consisting of billions of neurons. To study the structure and function of the brain, in vivo neuronal labeling and imaging techniques are crucial as they provide true physiological information that ex vivo methods cannot offer. In this paper, we present a new strategy for in vivo neuronal labeling and quantification using MRI. We demonstrate the efficacy of this method by delivering the oatp1a1 gene to the target neurons using rAAV2-retro virus. OATP1A1 protein expression on the neuronal membrane increased the uptake of a specific MRI contrast agent (Gd-EOB-DTPA), leading to hyperintense signals on T1W images of labeled neuronal populations. We also used dynamic contrast enhancement-based methods to obtain quantitative information on labeled neuronal populations in vivo.

Published

2023

8. Reporter gene assays and chromatin-level assays define substantially non-overlapping sets of enhancer sequences

Author

Daniel Lindhorst and Marc S. Halfon

Subjects

Cis-regulation, Enhancer, CRM, Gene regulation, Reporter gene, ATAC-seq, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Transcriptional enhancers are essential for gene regulation, but how these regulatory elements are best defined remains a significant unresolved question. Traditional definitions rely on activity-based criteria such as reporter gene assays, while more recently, biochemical assays based on chromatin-level phenomena such as chromatin accessibility, histone modifications, and localized RNA transcription have gained prominence. Results We examine here whether these two types of definitions, activity-based and chromatin-based, effectively identify the same sets of sequences. We find that, concerningly, the overlap between the two groups is strikingly limited. Few of the data sets we compared displayed statistically significant overlap, and even for those, the degree of overlap was typically small (below 40% of sequences). Moreover, a substantial batch effect was observed in which experiment set rather than experimental method was a primary driver of whether or not chromatin-defined enhancers showed a strong overlap with reporter gene-defined enhancers. Conclusions Our results raise important questions as to the appropriateness of both old and new enhancer definitions, and suggest that new approaches are required to reconcile the poor agreement among existing methods for defining enhancers.

Published

2023

9. High‐efficiency genome editing of an extreme thermophile Thermus thermophilus using endogenous type I and type III CRISPR‐Cas systems

Author

Jinting Wang, Junwei Wei, Haijuan Li, and Yingjun Li

Subjects

endogenous CRISPR‐Cas system, genome editing, reporter gene, SOD production, Thermus thermophilus, Microbiology, QR1-502

Abstract

Abstract Thermus thermophilus is an attractive species in the bioindustry due to its valuable natural products, abundant thermophilic enzymes, and promising fermentation capacities. However, efficient and versatile genome editing tools are not available for this species. In this study, we developed an efficient genome editing tool for T. thermophilus HB27 based on its endogenous type I‐B, I‐C, and III‐A/B CRISPR‐Cas systems. First, we systematically characterized the DNA interference capabilities of the different types of the native CRISPR‐Cas systems in T. thermophilus HB27. We found that genomic manipulations such as gene deletion, mutation, and in situ tagging could be easily implemented by a series of genome‐editing plasmids carrying an artificial self‐targeting mini‐CRISPR and a donor DNA responsible for the recombinant recovery. We also compared the genome editing efficiency of different CRISPR‐Cas systems and the editing plasmids with donor DNAs of different lengths. Additionally, we developed a reporter gene system for T. thermophilus based on a heat‐stable β‐galactosidase gene TTP0042, and constructed an engineered strain with a high production capacity of superoxide dismutases by genome modification.

Published

2022

10. Biogenic Imaging Contrast Agents

Author

Qing Dan, Xinpeng Jiang, Run Wang, Zhifei Dai, and Desheng Sun

Subjects

biogenic, contrast agent, imaging, reporter gene, Science

Abstract

Abstract Imaging contrast agents are widely investigated in preclinical and clinical studies, among which biogenic imaging contrast agents (BICAs) are developing rapidly and playing an increasingly important role in biomedical research ranging from subcellular level to individual level. The unique properties of BICAs, including expression by cells as reporters and specific genetic modification, facilitate various in vitro and in vivo studies, such as quantification of gene expression, observation of protein interactions, visualization of cellular proliferation, monitoring of metabolism, and detection of dysfunctions. Furthermore, in human body, BICAs are remarkably helpful for disease diagnosis when the dysregulation of these agents occurs and can be detected through imaging techniques. There are various BICAs matched with a set of imaging techniques, including fluorescent proteins for fluorescence imaging, gas vesicles for ultrasound imaging, and ferritin for magnetic resonance imaging. In addition, bimodal and multimodal imaging can be realized through combining the functions of different BICAs, which helps overcome the limitations of monomodal imaging. In this review, the focus is on the properties, mechanisms, applications, and future directions of BICAs.

Published

2023

11. A primer on in vivo cell tracking using MRI

Author

Hai-Ling Margaret Cheng

Subjects

cellular imaging and cell tracking, manganese, iron oxide, gadolinium, reporter gene, ferritin, Medicine (General), R5-920

Abstract

Cell tracking by in vivo magnetic resonance imaging (MRI) offers a collection of multiple advantages over other imaging modalities, including high spatial resolution, unlimited depth penetration, 3D visualization, lack of ionizing radiation, and the potential for long-term cell monitoring. Three decades of innovation in both contrast agent chemistry and imaging physics have built an expansive array of probes and methods to track cells non-invasively across a diverse range of applications. In this review, we describe both established and emerging MRI cell tracking approaches and the variety of mechanisms available for contrast generation. Emphasis is given to the advantages, practical limitations, and persistent challenges of each approach, incorporating quantitative comparisons where possible. Toward the end of this review, we take a deeper dive into three key application areas – tracking cancer metastasis, immunotherapy for cancer, and stem cell regeneration – and discuss the cell tracking techniques most suitable to each.

Published

2023

12. Reporter Gene-Based qRT-PCR Assay for Rho-Dependent Termination In Vivo

Author

Monford Paul Abishek N, Heungjin Jeon, Xun Wang, and Heon M. Lim

Subjects

Rho-dependent termination, reporter gene, qRT-PCR, operon, Cytology, QH573-671

Abstract

In bacteria, the Rho protein mediates Rho-dependent termination (RDT) by identifying a non-specific cytosine-rich Rho utilization site on the newly synthesized RNA. As a result of RDT, downstream RNA transcription is reduced. Due to the bias in reverse transcription and PCR amplification, we could not identify the RDT site by directly measuring the amount of mRNA upstream and downstream of RDT sites. To overcome this difficulty, we employed a 77 bp reporter gene argX, (coding tRNAarg) from Brevibacterium albidum, and we transcriptionally fused it to the sequences to be assayed. We constructed a series of plasmids by combining a segment of the galactose (gal) operon sequences, both with and without the RDT regions at the ends of cistrons (galE, galT, and galM) upstream of argX. The RNA polymerase will transcribe the gal operon sequence and argX unless it encounters the RDT encoded by the inserted sequence. Since the quantitative real-time PCR (qRT-PCR) method detects the steady state following mRNA synthesis and degradation, we observed that tRNAarg is degraded at the same rate in these transcriptional fusion plasmids. Therefore, the amount of tRNAarg can directly reflect the mRNA synthesis. Using this approach, we were able to effectively assay the RDTs and Rho-independent termination (RIT) in the gal operon by quantifying the relative amount of tRNAarg using qRT-PCR analyses. The resultant RDT% for galET, galTK, and at the end of galM were 36, 26, and 63, individually. The resultant RIT% at the end of the gal operon is 33%. Our findings demonstrate that combining tRNAarg with qRT-PCR can directly measure RIT, RDT, or any other signal that attenuates transcription efficiencies in vivo, making it a useful tool for gene expression research.

Published

2023

13. The protein kinase FvRIPK1 regulates plant morphogenesis by ABA signaling using seed genetic transformation in strawberry

Author

Xuexue Chen, Xiaojiao Gu, Fan Gao, Jiaxuan Guo, and Yuanyue Shen

Subjects

strawberry, Agrobacterium-mediated transformation of germinating seeds, reporter gene, CHLH/ABAR, RIPK1, ABA, Plant culture, SB1-1110

Abstract

A strawberry RIPK1, a leu-rich repeat receptor-like protein kinase, is previously demonstrated to be involved in fruit ripening as a positive regulator; however, its role in vegetable growth remains unknown. Here, based on our first establishment of Agrobacterium-mediated transformation of germinating seeds in diploid strawberry by FvCHLH/FvABAR, a reporter gene that functioned in chlorophyll biosynthesis, we got FvRIPK1-RNAi mutants. Downregulation of FvRIPK1 inhibited plant morphogenesis, showing curled leaves; also, this silencing significantly reduced FvABAR and FvABI1 transcripts and promoted FvABI4, FvSnRK2.2, and FvSnRK2.6 transcripts. Interestingly, the downregulation of the FvCHLH/ABAR expression could not affect FvRIPK1 transcripts but remarkably reduced FvABI1 transcripts and promoted FvABI4, FvSnRK2.2, and FvSnRK2.6 transcripts in the contrast of the non-transgenic plants to the FvCHLH/FvABAR-RNAi plants, in which chlorophyll contents were not affected but had abscisic acid (ABA) response in stomata movement and drought stress. The distinct expression level of FvABI1 and FvABI4, together with the similar expression level of FvSnRK2.2 and FvSnRK2.6 in the FvRIPK1- and FvABAR/CHLH-RNAi plants, suggested that FvRIPK1 regulated plant morphogenesis probably by ABA signaling. In addition, FvRIPK1 interacted with FvSnRK2.6 and phosphorylated each other, thus forming the FvRIPK1–FvSnRK2.6 complex. In conclusion, our results provide new insights into the molecular mechanism of FvRIPK1 in plant growth.

Published

2022

14. Development of Zika Virus Mini-Replicon Based Single-Round Infectious Particles as Gene Delivery Vehicles

Author

Joh-Sin Wu, Ju-Ying Kan, Hsueh-Chou Lai, and Cheng-Wen Lin

Subjects

Zika virus, single-round infectious particle, mini-replicon, reporter gene, hACE2, gene delivery vehicle, Microbiology, QR1-502

Abstract

Zika virus (ZIKV) is a type of RNA virus that belongs to the Flaviviridae family. We have reported the construction of a DNA-launched replicon of the Asian-lineage Natal RGN strain and the production of single-round infectious particles (SRIPs) via the combination of prM/E virus-like particles with the replicon. The main objective of the study was to engineer the ZIKV replicon as mammalian expression vectors and evaluate the potential of ZIKV mini-replicon-based SRIPs as delivery vehicles for heterologous gene expression in vitro and in vivo. The mini-replicons contained various genetic elements, including NS4B, an NS5 methyltransferase (MTase) domain, and an NS5 RNA-dependent RNA polymerase (RdRp) domain. Among these mini-replicons, only ZIKV mini-replicons 2 and 3, which contained the full NS5 and NS4B-NS5 genetic elements, respectively, exhibited the expression of reporters (green fluorescent protein (GFP) and cyan fluorescent protein–yellow fluorescent fusion protein (CYP)) and generated self-replicating RNAs. When the mini-replicons were transfected into the cells expressing ZIKV prM/E, this led to the production of ZIKV mini-replicon-based SRIPs. ZIKV mini-replicon 3 SRIPs showed a significantly higher yield titer and a greater abundance of self-replicating replicon RNAs when compared to ZIKV mini-replicon 2 SRIPs. Additionally, there were disparities in the dynamics of CYP expression and cytotoxic effects observed in various infected cell types between ZIKV mini-replicon 2-CYP and 3-CYP SRIPs. In particular, ZIKV mini-replicon 3-CYP SRIPs led to a substantial decrease in the survival rates of infected cells at a MOI of 2. An in vivo gene expression assay indicated that hACE2 expression was detected in the lung and brain tissues of mice following the intravenous administration of ZIKV mini-replicon 3-hACE2 SRIPs. Overall, this study highlights the potential of ZIKV mini-replicon-based SRIPs as promising vehicles for gene delivery applications in vitro and in vivo.

Published

2023

15. mCherry contains a fluorescent protein isoform that interferes with its reporter function

Author

Maxime Fages-Lartaud, Lisa Tietze, Florence Elie, Rahmi Lale, and Martin Frank Hohmann-Marriott

Subjects

mCherry, fluorescent protein, reporter gene, alternative translation initiation site, gene expression, fusion protein, Biotechnology, TP248.13-248.65

Abstract

Fluorescent proteins are essential reporters in cell and molecular biology. Here, we found that red-fluorescent proteins possess an alternative translation initiation site that produces a short functional protein isoform in both prokaryotes and eukaryotes. The short isoform creates significant background fluorescence that biases the outcome of expression studies. In this study, we identified the short protein isoform, traced its origin, and determined the extent of the issue within the family of red fluorescent protein. Our analysis showed that the short isoform defect of the red fluorescent protein family may affect the interpretation of many published studies. We provided a re-engineered mCherry variant that lacks background expression as an improved tool for imaging and protein expression studies.

Published

2022

16. Introducing a new reporter gene, membrane-anchored Cypridina luciferase, for multiplex bioluminescence imaging

Author

Maxim A. Moroz, Juan Zurita, Anna Moroz, Ekaterina Nikolov, Yury Likar, Konstantin Dobrenkov, Jason Lee, Larissa Shenker, Ronald Blasberg, Inna Serganova, and Vladimir Ponomarev

Subjects

bioluminescence imaging, BLI, luciferase reporters, reporter gene, multiplex imaging, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Bioluminescence reporter gene imaging is a robust, high-throughput imaging modality that is useful for tracking cells and monitoring biological processes, both in cell culture and in small animals. We introduced and characterized a novel bioluminescence reporter—membrane-anchored Cypridina luciferase (maCLuc)—paired with a unique vargulin substrate. This luciferase-substrate pair has no cross-reactivity with established d-luciferin- or coelenterazine-based luciferase reporters. We compare maCLuc with several established luciferase-based reporter systems (firefly, click beetle, Renilla, and Gaussia luciferases), using both in vitro and in vivo models. We demonstrate the different imaging characteristics of these reporter systems, which allow for multiplexed-luciferase imaging of 3 and 4 separate targets concurrently in the same animal within 24 h. The imaging paradigms described here can be directly applied for simultaneous in vivo monitoring of multiple cell populations, the activity of selected signal transduction pathways, or a combination of both constitutive and inducible reporter imaging.

Published

2021

17. Specific Bacterial Pathogen Phytosensing Is Enabled by a Synthetic Promoter-Transcription Factor System in Potato

Author

Ramona Persad-Russell, Mitra Mazarei, Tayler Marie Schimel, Lana Howe, Manuel J. Schmid, Tayebeh Kakeshpour, Caitlin N. Barnes, Holly Brabazon, Erin M. Seaberry, D. Nikki Reuter, Scott C. Lenaghan, and C. Neal Stewart

Subjects

phytosensors, pathogens, synthetic biology, synthetic promoter, reporter gene, Plant culture, SB1-1110

Abstract

Phytosensors are genetically engineered plant-based sensors that feature synthetic promoters fused to reporter genes to sense and report the presence of specific biotic and abiotic stressors on plants. However, when induced reporter gene output is below detectable limits, owing to relatively weak promoters, the phytosensor may not function as intended. Here, we show modifications to the system to amplify reporter gene signal by using a synthetic transcription factor gene driven by a plant pathogen-inducible synthetic promoter. The output signal was unambiguous green fluorescence when plants were infected by pathogenic bacteria. We produced and characterized a phytosensor with improved sensing to specific bacterial pathogens with targeted detection using spectral wavelengths specific to a fluorescence reporter at 3 m standoff detection. Previous attempts to create phytosensors revealed limitations in using innate plant promoters with low-inducible activity since they are not sufficient to produce a strong detectable fluorescence signal for standoff detection. To address this, we designed a pathogen-specific phytosensor using a synthetic promoter-transcription factor system: the S-Box cis-regulatory element which has low-inducible activity as a synthetic 4xS-Box promoter, and the Q-system transcription factor as an amplifier of reporter gene expression. This promoter-transcription factor system resulted in 6-fold amplification of the fluorescence after infection with a potato pathogen, which was detectable as early as 24 h post-bacterial infection. This novel bacterial pathogen-specific phytosensor potato plant demonstrates that the Q-system may be leveraged as a powerful orthogonal tool to amplify a relatively weak synthetic inducible promoter, enabling standoff detection of a previously undetectable fluorescence signal. Pathogen-specific phytosensors would be an important asset for real-time early detection of plant pathogens prior to the display of disease symptoms on crop plants.

Published

2022

18. Genetically Encoded Reporter Genes for MicroRNA Imaging in Living Cells and Animals

Author

Yingzhuang Song, Zhijing Xu, and Fu Wang

Subjects

miRNA, imaging, reporter gene, Therapeutics. Pharmacology, RM1-950

Abstract

MicroRNAs (miRNAs) are small non-coding RNAs that regulate gene expression by base paring with the complementary sequences of the target mRNAs, and then exert their function through degrading mRNA or inhibiting protein translation. They play a significant role as a regulatory factor in biological processes of organism development, cell proliferation, differentiation, and cell death. Some of the traditional methods for studying miRNAs, such as northern blot, real-time PCR, or microarray, have been extensively used to investigate the biological properties and expression patterns of miRNAs. However, these methods often require considerable time, cell samples, and the design of effective primers or specific probes. Therefore, in order to gain a deeper understanding of the role of miRNAs in biological processes and accelerate the clinical application of miRNAs in the field of disease treatment, non-invasive, sensitive, and efficient imaging methods are needed to visualize the dynamic expression of miRNAs in living cells and animals. In this study, we reviewed the recent progress in the genetically encoded reporter genes for miRNA imaging.

Published

2020

19. Anthocyanin, a novel and user-friendly reporter for convenient, non-destructive, low cost, directly visual selection of transgenic hairy roots in the study of rhizobia-legume symbiosis

Author

Yinglun Fan, Xiuyuan Wang, Haiyun Li, Shuang Liu, Liangshen Jin, Yanyan Lyu, Mengdi Shi, Sirui Liu, Xinyue Yang, and Shanhua Lyu

Subjects

Reporter gene, Anthocyanin, Hairy root, Rhizobia-legume symbiosis, Soybean (Glycine max (L.) Merr.), Lotus japonicus, Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

Abstract Background Agrobacterium rhizogenes-mediated hairy root transformation provides a powerful tool for investigating the functions of plant genes involved in rhizobia-legume symbiosis. However, in the traditional identification methods of transgenic hairy roots based on reporter genes, an expensive chemical substrate or equipment is required. Results Here, we report a novel, low cost, and robust reporter for convenient, non-destructive, and directly visual selection of transgenic hairy roots by naked eye, which can be used in the study of rhizobia-legume symbiosis. The reporter gene AtMyb75 in Arabidopsis, encoding an R2R3 type MYB transcription factor, was ectopically expressed in hairy roots-mediated by A. rhizogenes, which induced purple/red colored anthocyanin accumulation in crop species like soybean (Glycine max (L.) Merr.) and two model legume species, Lotus japonicas and Medicago truncatula. Transgenic hairy roots of legumes containing anthocyanin can establish effective symbiosis with rhizobia. We also demonstrated the reliability of AtMyb75 as a reporter gene by CRISPR/Cas9-targeted mutagenesis of the soybean resistance to nodulation Rfg1 gene in the soybean PI377578 (Nod-) inoculated with Sinorhizobium fredii USDA193. Without exception, mature nitrogen-fixation nodules, were formed on purple transgenic hairy roots containing anthocyanin. Conclusions Anthocyanin is a reliable, user-friendly, convenient, non-destructive, low cost, directly visual reporter for studying symbiotic nitrogen-fixing nodule development and could be widely applied in broad leguminous plants.

Published

2020

20. Outer Membrane Integrity-Dependent Fluorescence of the Japanese Eel UnaG Protein in Live Escherichia coli Cells

Author

Céline S. M. Richard, Hymonti Dey, Frode Øyen, Munazza Maqsood, and Hans-Matti Blencke

Subjects

reporter gene, synthetic biology, UnaG, outer membrane, bilirubin, biosensor, Biotechnology, TP248.13-248.65

Abstract

Reporter genes are important tools in many biological disciplines. The discovery of novel reporter genes is relatively rare. However, known reporter genes are constantly applied to novel applications. This study reports the performance of the bilirubin-dependent fluorescent protein UnaG from the Japanese eel Anguilla japonicas in live Escherichia coli cells in response to the disruption of outer membrane (OM) integrity at low bilirubin (BR) concentrations. Using the E. coli wild-type strain MC4100, its isogenic OM-deficient mutant strain NR698, and different OM-active compounds, we show that BR uptake and UnaG fluorescence depend on a leaky OM at concentrations of 10 µM BR and below, while fluorescence is mostly OM integrity-independent at concentrations above 50 µM BR. We suggest that these properties of the UnaG–BR couple might be applied as a biosensor as an alternative to the OM integrity assays currently in use.

Published

2023

21. A Multiplex Molecular Cell-Based Sensor to Detect Ligands of PPARs: An Optimized Tool for Drug Discovery in Cyanobacteria

Author

Inês Páscoa, Rita Biltes, João Sousa, Marco Aurélio Correia Preto, Vitor Vasconcelos, Luís Filipe Castro, Raquel Ruivo, and Isabel Cunha

Subjects

luciferase, reporter gene, PPAR agonist, bioactive compound, assay-guided drug discovery, limit of detection, Chemical technology, TP1-1185

Abstract

Cyanobacteria produce a wealth of secondary metabolites. Since these organisms attach fatty acids into molecules in unprecedented ways, cyanobacteria can serve as a novel source for bioactive compounds acting as ligands for Peroxisome Proliferator-Activated Receptors (PPAR). PPARs (PPARα, PPARβ/δ and PPARγ) are ligand-activated nuclear receptors, involved in the regulation of various metabolic and cellular processes, thus serving as potential drug targets for a variety of pathologies. Yet, given that PPARs’ agonists can have pan-, dual- or isoform-specific action, some controversy has been raised over currently approved drugs and their side effects, highlighting the need for novel molecules. Here, we expand and validate a cell-based PPAR transactivation activity biosensor, and test it in a screening campaign to guide drug discovery. Biosensor upgrades included the use of different reporter genes to increase signal intensity and stability, a different promoter to modulate reporter gene expression, and multiplexing to improve efficiency. Sensor’s limit of detection (LOD) ranged from 0.36–0.89 nM in uniplex and 0.89–1.35 nM in multiplex mode. In triplex mode, the sensor’s feature screening, a total of 848 fractions of 96 cyanobacteria extracts were screened. Hits were confirmed in multiplex mode and in uniplex mode, yielding one strain detected to have action on PPARα and three strains to have dual action on PPARα and -β.

Published

2023

22. Visualization of microRNA-21 Dynamics in Neuroblastoma Using Magnetic Resonance Imaging Based on a microRNA-21-Responsive Reporter Gene

Author

Guangcheng Bao, Jun Sun, Helin Zheng, Jingxin Hou, Jie Huang, Jie Wei, Yuanqiao Fu, Jiawen Qiu, Xuefeng Zou, Bin Xiang, and Jinhua Cai

Subjects

microRNA-21, reporter gene, ferritin heavy chain, magnetic resonance imaging, neuroblastoma, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

BackgroundMicroRNAs (miRs) have been shown to be closely associated with the occurrence and development of tumors and to have potential as diagnostic and therapeutic targets. The detection of miRs by noninvasive imaging technology is crucial for deeply understanding their biological functions. Our aim was to develop a novel miR-21-responsive gene reporter system for magnetic resonance imaging (MRI) visualization of the miR-21 dynamics in neuroblastoma.MethodsThe reporter gene ferritin heavy chain (FTH1) was modified by the addition of 3 copies of the sequence completely complementary to miR-21 (3xC_miR-21) to its 3’-untranslated region (3’ UTR) and transduced into SK-N-SH cells to obtain SK-N-SH/FTH1-3xC_miR-21 cells. Then, the antagomiR-21 was delivered into cells by graphene oxide functionalized with polyethylene glycol and dendrimer. Before and after antagomiR-21 delivery, FTH1 expression, MRI contrast and intracellular iron uptake were assayed in vitro and in vivo.ResultsIn the SK-N-SH/FTH1-3xC_miR-21 cells, FTH1 expression was in an “off” state due to the combination of intratumoral miR-21 with the 3’ UTR of the reporter gene. AntagomiR-21 delivered into the cells bound to miR-21 and thereby released it from the 3’ UTR of the reporter gene, thus “switching on” FTH1 expression in a dose-dependent manner. This phenomenon resulted in intracellular iron accumulation and allowed MRI detection in vitro and in vivo.ConclusionMRI based on the miR-21-responsive gene reporter may be a potential method for visualization of the endogenous miR-21 activity in neuroblastoma and its response to gene therapy.

Published

2021

23. Labeling Ebola Virus with a Self-Splicing Fluorescent Reporter

Author

Baylee Heiden, Elke Mühlberger, Christopher W. Lennon, and Adam J. Hume

Subjects

intein, Ebola virus, reporter gene, Biology (General), QH301-705.5

Abstract

Inteins (intervening proteins) are polypeptides that interrupt the sequence of other proteins and remove themselves through protein splicing. In this intein-catalyzed reaction, the two peptide bonds surrounding the intein are rearranged to release the intein from the flanking protein sequences, termed N- and C-exteins, which are concurrently joined by a peptide bond. Because of this unique functionality, inteins have proven exceptionally useful in protein engineering. Previous work has demonstrated that heterologous proteins can be inserted within an intein, with both the intein and inserted protein retaining function, allowing for intein-containing genes to coexpress additional coding sequences. Here, we show that a fluorescent protein (ZsGreen) can be inserted within the Pyrococcus horikoshii RadA intein, with the hybrid protein (ZsG-Int) maintaining fluorescence and splicing capability. We used this system to create a recombinant Ebola virus expressing a fluorescent protein. We first tested multiple potential insertion sites for ZsG-Int within individual Ebola virus proteins, identifying a site within the VP30 gene that facilitated efficient intein splicing in mammalian cells while also preserving VP30 function. Next, we successfully rescued a virus containing the ZsG-Int-VP30 fusion protein, which displayed fluorescence in the infected cells. We thus report a new intein-based application for adding reporters to systems without the need to add additional genes. Further, this work highlights a novel reporter design, whereby the reporter is only made if the protein of interest is translated and does not remain fused to the protein of interest.

Published

2022

24. Expanding the bioluminescent reporter toolkit for plant science with NanoLUC

Author

Uriel Urquiza-García and Andrew J. Millar

Subjects

Chronobiology, Reporter gene, Luciferase, Arabidopsis, Synthetic biology, Gene expression, Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

Abstract Background Protein data over circadian time scale is scarce for clock transcription factors. Further work in this direction is required for refining quantitative clock models. However, gathering highly resolved dynamics of low-abundance transcription factors has been a major challenge in the field. In this work we provide a new tool that could help this major issue. Bioluminescence is an important tool for gathering data on circadian gene expression. It allows data collection over extended time periods for low signal levels, thanks to a large signal-to-noise ratio. However, the main reporter so far used, firefly luciferase (FLUC), presents some disadvantages for reporting total protein levels. For example, the rapid, post-translational inactivation of this luciferase will result in underestimation of protein numbers. A more stable reporter protein could in principle tackle this issue. We noticed that NanoLUC might fill this gap, given its reported brightness and the stability of both enzyme and substrate. However, no data in plant systems on the circadian time scale had been reported. Results We tested NanoLUC activity under different scenarios that will be important for generating highly quantitative data. These include enzyme purification for calibration curves, expression in transient plant systems, stable transgenic plants and in planta time series over circadian time scales. Furthermore, we show that the difference in substrate use between firefly luciferase and NanoLUC allows tracking of two different reporters from the same samples. We show this by exploring the impact of a BOAp:BOA-NanoLUC construct transformed into a Col-0 CCA1p:FLUC background. Conclusions We concluded that NanoLUC reporters are compatible with established instrumentation and protocols for firefly luciferase. Overall, our results provide guidelines for researchers gathering dynamic protein data over different time scales and experimental setups.

Published

2019

25. Chromatin Dynamics Contribute to the Spatiotemporal Expression Pattern of Virulence Genes in a Fungal Plant Pathogen

Author

Lukas Meile, Jules Peter, Guido Puccetti, Julien Alassimone, Bruce A. McDonald, and Andrea Sánchez-Vallet

Subjects

chromatin, effector gene, filamentous fungi, histone methylation, plant pathogens, reporter gene, Microbiology, QR1-502

Abstract

ABSTRACT Dynamic changes in transcription profiles are key for the success of pathogens in colonizing their hosts. In many pathogens, genes associated with virulence, such as effector genes, are located in regions of the genome that are rich in transposable elements and heterochromatin. The contribution of chromatin modifications to gene expression in pathogens remains largely unknown. Using a combination of a reporter gene-based approach and chromatin immunoprecipitation, we show that the heterochromatic environment of effector genes in the fungal plant pathogen Zymoseptoria tritici is a key regulator of their specific spatiotemporal expression patterns. Enrichment in trimethylated lysine 27 of histone H3 dictates the repression of effector genes in the absence of the host. Chromatin decondensation during host colonization, featuring a reduction in this repressive modification, indicates a major role for epigenetics in effector gene induction. Our results illustrate that chromatin modifications triggered during host colonization determine the specific expression profile of effector genes at the cellular level and, hence, provide new insights into the regulation of virulence in fungal plant pathogens. IMPORTANCE Fungal plant pathogens possess a large repertoire of genes encoding putative effectors, which are crucial for infection. Many of these genes are expressed at low levels in the absence of the host but are strongly induced at specific stages of the infection. The mechanisms underlying this transcriptional reprogramming remain largely unknown. We investigated the role of the genomic environment and associated chromatin modifications of effector genes in controlling their expression pattern in the fungal wheat pathogen Zymoseptoria tritici. Depending on their genomic location, effector genes are epigenetically repressed in the absence of the host and during the initial stages of infection. Derepression of effector genes occurs mainly during and after penetration of plant leaves and is associated with changes in histone modifications. Our work demonstrates the role of chromatin in shaping the expression of virulence components and, thereby, the interaction between fungal pathogens and their plant hosts.

Published

2020

26. CAR Chase: Where Do Engineered Cells Go in Humans?

Author

Simone Krebs, Megan M. Dacek, Lukas M. Carter, David A. Scheinberg, and Steven M. Larson

Subjects

CAR T cells, TCR T cells, PET/CT, reporter gene, T cell trafficking, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Chimeric antigen receptor (CAR) – and T-cell receptor (TCR) – modified T-cells are rapidly emerging as a viable treatment option for cancer patients. While initial clinical trials for these CAR T cells showed response rates of over 90% in some cases, retrospective studies have revealed a wide variability in patient responses as well as a significant proportion of patients relapsing after an initial response. In addition, patients often have severe adverse reactions to this therapy (e.g., cytokine release and neurologic syndromes). As a result, much research is still needed to be able to predict both therapeutic outcomes and possible toxicities. Furthermore, little success has been seen in treating solid tumors with engineered T cells and uncovering modes of failure is a topic of much research. Finally, little is known about the T cells’ pharmacokinetics after infusion into the patient, as standard methods of tracking the cells analyze peripheral blood and tumor biopsies – both of which lack spatiotemporal information. Herein, we propose that reporter gene-based imaging of engineered T cells in humans would be tremendously valuable in elucidating the fate of the transplanted T cells and would greatly facilitate clinical translation of new CAR and TCR technologies. Currently, there are no FDA-approved reporter genes and few methods have advanced to human studies. Herein, we outline current reporter gene approaches to track engineered cells in vivo, analyze why current reporter genes have not progressed into the clinic, and propose “rules” for designing a widely applicable reporter gene for use in humans.

Published

2020

27. Tyrosinase-Based Reporter Gene for Photoacoustic Imaging of MicroRNA-9 Regulated by DNA Methylation in Living Subjects

Author

Haifeng Zheng, Lin Zhou, Yaru Shi, Jie Tian, and Fu Wang

Subjects

miRNAs, tyrosinase, reporter gene, photoacoustic imaging, Therapeutics. Pharmacology, RM1-950

Abstract

MicroRNAs (miRNAs) are a class of negative regulators of gene expression and play critical roles in various biological processes. Conventional approaches for detecting miRNAs, such as northern blotting, microarray, and real-time PCR, usually require the lysis of cell samples and could not provide the in vivo information about miRNAs in living organisms. Here, we designed a tyrosinase (TYR)-based reporter to monitor miR-9 expression that is regulated by DNA methylation in living cells and animals. During DNA methylation of A549 cells treated by 5-aza-2′-deoxycytidine (5-Aza-dC), the CMV/TYR-3xTS reporter-transfected cells demonstrated a gradual decrease in melanin content, TYR activity, and photoacoustic signal because of the gradual activation of miR-9 expression. The miR-9-regulated repression of TYR activity also resulted in a significant decrease in photoacoustic signal from the flank of mice with 5-Aza-dC treatment, whereas the bioluminescence signal from internal control had no obvious change. The TYR-based miRNA reporter may serve as a new imaging probe for monitoring the dynamic expression of miRNAs during various cellular or disease progression in cells and living animals.

Published

2018

28. Engineering a palette of eukaryotic chromoproteins for bacterial synthetic biology

Author

Josefine Liljeruhm, Saskia K. Funk, Sandra Tietscher, Anders D. Edlund, Sabri Jamal, Pikkei Wistrand-Yuen, Karl Dyrhage, Arvid Gynnå, Katarina Ivermark, Jessica Lövgren, Viktor Törnblom, Anders Virtanen, Erik R. Lundin, Erik Wistrand-Yuen, and Anthony C. Forster

Subjects

Chromoprotein, Fluorescent protein, Coral, Escherichia coli, Genetic marker, Reporter gene, Biology (General), QH301-705.5

Abstract

Abstract Background Coral reefs are colored by eukaryotic chromoproteins (CPs) that are homologous to green fluorescent protein. CPs differ from fluorescent proteins (FPs) by intensely absorbing visible light to give strong colors in ambient light. This endows CPs with certain advantages over FPs, such as instrument-free detection uncomplicated by ultra-violet light damage or background fluorescence, efficient Förster resonance energy transfer (FRET) quenching, and photoacoustic imaging. Thus, CPs have found utility as genetic markers and in teaching, and are attractive for potential cell biosensor applications in the field. Most near-term applications of CPs require expression in a different domain of life: bacteria. However, it is unclear which of the eukaryotic CP genes might be suitable and how best to assay them. Results Here, taking advantage of codon optimization programs in 12 cases, we engineered 14 CP sequences (meffRed, eforRed, asPink, spisPink, scOrange, fwYellow, amilGFP, amajLime, cjBlue, meffBlue, aeBlue, amilCP, tsPurple and gfasPurple) into a palette of Escherichia coli BioBrick plasmids. BioBricks comply with synthetic biology’s most widely used, simplified, cloning standard. Differences in color intensities, maturation times and fitness costs of expression were compared under the same conditions, and visible readout of gene expression was quantitated. A surprisingly large variation in cellular fitness costs was found, resulting in loss of color in some overnight liquid cultures of certain high-copy-plasmid-borne CPs, and cautioning the use of multiple CPs as markers in competition assays. We solved these two problems by integrating pairs of these genes into the chromosome and by engineering versions of the same CP with very different colors. Conclusion Availability of 14 engineered CP genes compared in E. coli, together with chromosomal mutants suitable for competition assays, should simplify and expand CP study and applications. There was no single plasmid-borne CP that combined all of the most desirable features of intense color, fast maturation and low fitness cost, so this study should help direct future engineering efforts.

Published

2018

29. Highly Sensitive Luminescent Bioassay Using Recombinant Escherichia coli Biosensor for Rapid Detection of Low Cr(VI) Concentration in Environmental Water

Author

Guey-Horng Wang, Chiu-Yu Cheng, Teh-Hua Tsai, Pin-Kuan Chiang, and Ying-Chien Chung

Subjects

biosensor, hexavalent chromium, limit of detection, reporter gene, Biotechnology, TP248.13-248.65

Abstract

In this study, we constructed a recombinant Escherichia coli strain with different promoters inserted between the chromate-sensing regulator chrB and the reporter gene luxAB to sense low hexavalent chromium (Cr(VI)) concentrations (lux-expressing E. coli with the T7 promoter (T7-lux-E. coli, limit of detection (LOD) = 0.0005 mg/L) had the highest luminescence intensity or was the most sensitive for Cr(VI) detection, followed by E. coli with the T3 promoter (T3-lux-E. coli, LOD = 0.001 mg/L) and that with the SP6 promoter (SP6-lux-E. coli, LOD = 0.005 mg/L). All biosensors could be used to determine whether the Cr(VI) standard was met in terms of water quality, even when using thawing frozen cells as biosensors after 90-day cryogenic storage. The SP6-lux-E. coli biosensor had the shortest detection time (0.5 h) and the highest adaptability to environmental interference. The T7-lux-E. coli biosensor—with the optimal LOD, a wide measurement range (0.0005–0.5 mg/L), and low deviation (−5.0–7.9%) in detecting Cr(VI) from industrial effluents, domestic effluents, and surface water—is an efficient Cr(VI) biosensor. This unprecedented study is to evaluate recombinant lux E. coli with dissimilar promoters for their possible practice in Cr(VI) measurement in water bodies, and the biosensor performance is clearly superior to that of past systems in terms of detection time, LOD, and detection deviation for real water samples.

Published

2021

30. A novel medium-throughput biological assay system for HTLV-1 infectivity and drug discovery

Author

Mojtaba Fattahi Abdizadeh, Manoochehr Makvandi, Alireza Samarbafzadeh, and Kayhan Azadmanesh

Subjects

Biological Assay, Drug screening, HTLV-1, Hut102, Luciferase, Reporter gene, Medicine

Abstract

Objective(s): Here, a reporter cell line containing two reporter vectors were developed, in order to monitor the Human T-Lymphotropic Virus type1(HTLV-1) infectivity and the cell viability simultaneously. Materials and Methods: The reporter cell line was constructed by stably transfected baby hamster's kidney cell line (BHK-21), with the genomes expressing two different reporters in separate plasmids.The first reporter gene is transactivated by the HTLV-1 tax protein, while the second reporter is continuously expressed when introduced into a mammalian cell. In order to show its functionality, the effect of the drug mix on HTLV-1 was assayed by this system and was compared to the results obtained by other methods. Results: HTLV-1 reporter cell line was found to produce high level of luciferase when co-cultured with MT-2 and Hut-102 cells but not with Jurkat cell. Moreover, the combination therapy against HTLV-1 can reduce luciferase expression of the cell when co-cultured with MT-2 and Hut-102 comparable to the ELISA (R=0.932, P-value =0.002). In addition, the results revealed the superiority of the present system over the molecular methods. Conclusion: The results demonstrated that the biological assay system is a beneficial tool for the medium-throughput anti-HTLV-1 drug screening and inhibitory effect.

Published

2017

31. Improvement of clavulanic acid production in Streptomyces clavuligerus F613-1 by using a claR-neo reporter strategy

Author

Ronghuo Qin, Chuanqing Zhong, Gongli Zong, Jiafang Fu, Xiuhua Pang, and Guangxiang Cao

Subjects

claR, Clavulanic acid biosynthesis, Co-transcription, Fermentation, Fusion, Kanamycin, Mutagenesis, Mutagens, Promoter-less, Reporter gene, Transcriptional regulator, Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5

Abstract

Background: Streptomyces clavuligerus was the producer of clavulanic acid, claR, a pathway-specific transcriptional regulator in S. clavuligerus, positively regulates clavulanic acid biosynthesis. In this study, the promoter-less kanamycin resistance gene neo was fused with claR to obtain strain NEO from S. clavuligerus F613-1. The claR-neo fusion strain NEO was mutated using physical and chemical mutagens and then screened under high concentrations of kanamycin for high-yield producers of clavulanic acid. Results: The reporter gene neo was fused downstream of claR and used as an indicator for expression levels of claR in strain NEO. After three rounds of continuous treatment and screening, the high-yield clavulanic acid-producing strain M3-19 was obtained. In the shaking flask model, the clavulanic acid titer of M3-19 reached 4.33 g/L, which is an increase of 33% over the titer of 3.26 g/L for the starting strains S. clavuligerus F613-1 and NEO. Conclusions: Our results indicate that neo can be effectively used as a reporter for the expression of late-stage biosynthetic genes when screening for high-yield strains and that this approach has strong potential for improving Streptomyces strains of industrial value.

Published

2017

32. Replication-Competent ΔNS1 Influenza A Viruses Expressing Reporter Genes

Author

Aitor Nogales, Michael Schotsaert, Raveen Rathnasinghe, Marta L. DeDiego, Adolfo García-Sastre, and Luis Martinez-Sobrido

Subjects

influenza A virus, NS1, reporter gene, luciferase, fluorescent protein, mCherry, Microbiology, QR1-502

Abstract

The influenza A virus (IAV) is able to infect multiple mammalian and avian species, and in humans IAV is responsible for annual seasonal epidemics and occasional pandemics of respiratory disease with significant health and economic impacts. Studying IAV involves laborious secondary methodologies to identify infected cells. Therefore, to circumvent this requirement, in recent years, multiple replication-competent infectious IAV expressing traceable reporter genes have been developed. These IAVs have been very useful for in vitro and/or in vivo studies of viral replication, identification of neutralizing antibodies or antivirals, and in studies to evaluate vaccine efficacy, among others. In this report, we describe, for the first time, the generation and characterization of two replication-competent influenza A/Puerto Rico/8/1934 H1N1 (PR8) viruses where the viral non-structural protein 1 (NS1) was substituted by the monomeric (m)Cherry fluorescent or the NanoLuc luciferase (Nluc) proteins. The ΔNS1 mCherry was able to replicate in cultured cells and in Signal Transducer and Activator of Transcription 1 (STAT1) deficient mice, although at a lower extent than a wild-type (WT) PR8 virus expressing the same mCherry fluorescent protein (WT mCherry). Notably, expression of either reporter gene (mCherry or Nluc) was detected in infected cells by fluorescent microscopy or luciferase plate readers, respectively. ΔNS1 IAV expressing reporter genes provide a novel approach to better understand the biology and pathogenesis of IAV, and represent an excellent tool to develop new therapeutic approaches against IAV infections.

Published

2021

33. Genistein modulates MMP-26 and estrogen receptor expression in endometrial cancer cells

Author

Xiaoli Liu, Xiaoou Xue, Hao Wang, and Xiaomei Xu

Subjects

Genistein, Endometrial disease, Estrogen receptor, MMP-26, Reporter gene, Miscellaneous systems and treatments, RZ409.7-999

Abstract

Objective: To explore the mechanism of the estrogen-like effect of genistein by observing the expression of Matrix metalloproteinases-26 (MMP-26) and ERα in human endometrial cancer cells (Ishikawa and HEC-1B) in vitro. Methods: The effect of genistein on MMP-26 and ERα expression was examined by western blot in cultured Ishikawa and HEC-1B cells. Additionally, the effects of genistein on ERα-ERE-luc and ERβ-ERE-luc reporter gene expression in HEC-1B cells were analyzed by luciferase activity assays. Results: MMP-26 and ERα protein expression was down-regulated by genistein treatment in Ishikawa cell induced by high concentration E2, whereas MMP-26 and ERα protein expression was up-regulated by genistein treatment in Ishikawa cells induced by low concentration E2. Expression of the ERα-ERE-luc and ERβ-ERE-luc reporter genes was significantly increased after E2 induction and was further up-regulated by genistein. Expression of ERα-ERE-luc and ERβ-ERE-luc reporter genes decreased significantly following genistein treatment in high E2 concentrations, and increased significantly following genistein treatment in low E2 concentrations. Conclusions: Genistein showed estrogen-like effects in endometrial cancer cells and influenced estrogen receptor signaling by modulating ERα and ERβ expression.

Published

2016

34. Whisker-mediated transformation of peanut with chitinase gene enhances resistance to leaf spot disease

Author

Mahmood ul Hassan, Zahid Akram, Shaukat Ali, Ghulam Muhammad Ali, Yusuf Zafar, Zahid Hussain Shah, and Fahad Alghabari

Subjects

Transgenic, callus, reporter gene, cell wall, Plant culture, SB1-1110, Biotechnology, TP248.13-248.65

Abstract

Peanut (Arachis hypogaea) is an important legume and oilseed crop, native to South America and grown in all tropical and temperate regions of the world. A simplified and rapid direct gene delivery system in peanut was developed by vortexing silicon carbide whiskers with callus and with plasmid harboring chitinase and hygromcin genes. The effects of callus age and whisker quantity on transformation efficiency were evaluated. Transformation efficiency (6.88%) was highest when 200 mg of whiskers were used with 5 µg plasmid for 2 g of 20-day-old callus. Hygromcin-resistant calli were regenerated to complete plants which produced seeds normally. Transgene insertion and number of transgene copieswere confirmed by PCR and southern blot analyses, respectively. Transgene expression was evaluated by a pathogenecity test and RT-PCR analysis. In transgenic events, the resistance level to leaf spot disease was far higher than in control plants.

Published

2016

35. Early detection of the orchid flowering gene PaFT1 in tobacco cells using a GFP reporter

Author

Sri Wahyuningsih, Muhammad Dylan Lawrie, Budi Setiadi Daryono, Sukarti Moeljopawiro, Soenghoe Jang, and Endang Semiarti

Subjects

early flowering, GFP, PaFT1, reporter gene, tobacco, Medicine, Biology (General), QH301-705.5

Abstract

Here we describe a novel method of using green fluorescence protein (GFP) as a reporter gene for early detection of an integrated T­DNA containing the orchid flowering gene, PaFT1 (Phalaenopsis aphrodite Flowering locus T1) in the tobacco genome. Functional assays that report the presence of exogenous DNA early in development are especially useful in plants where the desired phenotype is only apparent after long periods of vegetative growth. The objective of this study is to establish a method for detecting an inserted Phalaenopsis orchid flowering gene and examining its function in tobacco. The p35S::PaFT1­ 35S::GFP construct was introduced into Agrobacterium tumefaciens strain EHA101. Transformed tobacco leaves were cultured on MS medium with addition of 1 mgL-1 NAA+3 mgL-1 BAP+50 mgL-1 Kanamycin+300 mgL-1 timentin for selection. Results showed bright green GFP fluorescent signals in 11 out of 15 (73%) tobacco leaf cells at a 2­month time point after transformation. GFP and PaFT1 fragments were amplified in genomic PCR using GFP and PaFT1 specific primers. The accumulated PaFT1 transcripts were observed in 3 month­old transgenic tobacco plants containing p35S::PaFT1­35S::GFP. Green florescence was observed only in the transgenic plants at the 5 month­old stage but not in the wild type controls.

Published

2016

36. The Human Sodium Iodide Symporter as a Reporter Gene for Studying Middle East Respiratory Syndrome Coronavirus Pathogenesis

Author

Svetlana Chefer, Jurgen Seidel, Adam S. Cockrell, Boyd Yount, Jeffrey Solomon, Katie R. Hagen, David X. Liu, Louis M. Huzella, Mia R. Kumar, Elena Postnikova, J. Kyle Bohannon, Matthew G. Lackemeyer, Kurt Cooper, Ariel Endlich-Frazier, Heema Sharma, David Thomasson, Christopher Bartos, Philip J. Sayre, Amy Sims, Julie Dyall, Michael R. Holbrook, Peter B. Jahrling, Ralph S. Baric, and Reed F. Johnson

Subjects

MERS, coronavirus, medical imaging, reporter gene, Microbiology, QR1-502

Abstract

ABSTRACT Single photon emission computed tomography (SPECT) is frequently used in oncology and cardiology to evaluate disease progression and/or treatment efficacy. Such technology allows for real-time evaluation of disease progression and when applied to studying infectious diseases may provide insight into pathogenesis. Insertion of a SPECT-compatible reporter gene into a virus may provide insight into mechanisms of pathogenesis and viral tropism. The human sodium iodide symporter (hNIS), a SPECT and positron emission tomography reporter gene, was inserted into Middle East respiratory syndrome coronavirus (MERS-CoV), a recently emerged virus that can cause severe respiratory disease and death in afflicted humans to obtain a quantifiable and sensitive marker for viral replication to further MERS-CoV animal model development. The recombinant virus was evaluated for fitness, stability, and reporter gene functionality. The recombinant and parental viruses demonstrated equal fitness in terms of peak titer and replication kinetics, were stable for up to six in vitro passages, and were functional. Further in vivo evaluation indicated variable stability, but resolution limits hampered in vivo functional evaluation. These data support the further development of hNIS for monitoring infection in animal models of viral disease. IMPORTANCE Advanced medical imaging such as single photon emission computed tomography with computed tomography (SPECT/CT) enhances fields such as oncology and cardiology. Application of SPECT/CT, magnetic resonance imaging, and positron emission tomography to infectious disease may enhance pathogenesis studies and provide alternate biomarkers of disease progression. The experiments described in this article focus on insertion of a SPECT/CT-compatible reporter gene into MERS-CoV to demonstrate that a functional SPECT/CT reporter gene can be inserted into a virus.

Published

2018

37. Genome-Wide Analysis of β-Galactosidases in Xanthomonas campestris pv. campestris 8004

Author

Huiqi Wang, Chenyi Shi, Qingbiao Xie, Yaxin Wang, Shiyao Liu, Chunxia Li, Chaozu He, and Jun Tao

Subjects

β-galactosidase, glycosyl hydrolase (GH) family 2 and 35, LacZ, reporter gene, Xanthomonas campestris pv. campestris, Microbiology, QR1-502

Abstract

Bacterial β-galactosidase is involved in lactose metabolism and acts as a prevalent reporter enzyme used in studying the activities of prokaryotic and eukaryotic promoters. Xanthomonas campestris pv. campestris (Xcc) is the pathogen of black rot disease in crucifers. β-Galactosidase activity can be detected in Xcc culture, which makes Escherichia coli LacZ unable to be used as a reporter enzyme in Xcc. To systemically understand the β-galactosidase in Xcc and construct a β-galactosidase -deficient strain for promoter activity analysis using LacZ as a reporter, we here analyzed the putative β-galactosidases in Xcc 8004. As glycosyl hydrolase (GH) family 2 (GH2) and 35 (GH35) family enzymes were reported to have beta-galactosidase activities, we studied all of them encoded by Xcc 8004. When expressed in E. coli, only two of the enzymes, XC1214 and XC2985, were found to have β-galactosidase activity. When deleted from the Xcc 8004 genome, only the XC1214 mutant had no β-galactosidase activity, and other GH2 and GH35 gene deletions resulted in no significant reduction in β-galactosidase activity. Therefore, XC1214 is the main β-galactosidase in Xcc 8004. Notably, we have constructed a β-galactosidase-free strain that can be employed in gene traps using LacZ as a reporter in Xcc. The results reported herein should facilitate the development of high-capacity screening assays that utilize the LacZ reporter system in Xcc.

Published

2018

38. Drosophila melanogaster White Mutant w1118 Undergo Retinal Degeneration

Author

María José Ferreiro, Coralia Pérez, Mariana Marchesano, Santiago Ruiz, Angel Caputi, Pedro Aguilera, Rosa Barrio, and Rafael Cantera

Subjects

Drosophila, transgenic lines construction, reporter gene, white mutation, neurodegeneration, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Key scientific discoveries have resulted from genetic studies of Drosophila melanogaster, using a multitude of transgenic fly strains, the majority of which are constructed in a genetic background containing mutations in the white gene. Here we report that white mutant flies from w1118 strain undergo retinal degeneration. We observed also that w1118 mutants have progressive loss of climbing ability, shortened life span, as well as impaired resistance to various forms of stress. Retinal degeneration was abolished by transgenic expression of mini-white+ in the white null background w1118. We conclude that beyond the classical eye-color phenotype, mutations in Drosophila white gene could impair several biological functions affecting parameters like mobility, life span and stress tolerance. Consequently, we suggest caution and attentiveness during the interpretation of old experiments employing white mutant flies and when planning new ones, especially within the research field of neurodegeneration and neuroprotection. We also encourage that the use of w1118 strain as a wild-type control should be avoided.

Published

2018

39. Bioimaging of microRNA124a‐independent neuronal differentiation of human G2 neural stem cells

Author

Jonghwan Lee, Do Won Hwang, Seung U. Kim, Dong Soo Lee, Yong Seung Lee, Hyejung Heo, Bahy A. Ali, Abdulaziz A. Al-Khedhairy, and Soonhag Kim

Subjects

G2 human neural stem cells, microRNAs, In vivo imaging, Neuronal differentiation, Reporter gene, Biology (General), QH301-705.5

Abstract

Evaluation of the function of microRNAs (miRNAs or miRs) through miRNA expression profiles during neuronal differentiation plays a critical role not only in identifying unique miRNAs relevant to cellular development but also in understanding regulatory functions of the cell‐specific miRNAs in living organisms. Here, we examined the microarray‐based miRNA expression profiles of G2 cells (recently developed human neural stem cells) and monitored the expression pattern of known neuron‐specific miR‐9 and miR‐124a during neuronal differentiation of G2 cellsin vitro andin vivo. Of 500 miRNAs analyzed by microarray of G2 cells, the expression of 90 miRNAs was significantly increased during doxycycline‐dependent neuronal differentiation of G2 cells and about 60 miRNAs showed a gradual enhancement of gene expression as neuronal differentiation progressed. Real‐time PCR showed that expression of endogenous mature miR‐9 was continuously and gradually increased in a pattern dependent on the period of neuronal differentiation of G2 cells while the increased expression of neuron‐specific mature miR‐124a was barely observed during neurogenesis. Our recently developed miRNA reporter imaging vectors (CMV/Gluc/3×PT_miR‐9 and CMV/Gluc/3×PT_miR‐124a) containing Gaussia luciferase, CMV promoter and three copies of complementary nucleotides of each corresponding miRNA showed that luciferase activity from CMV/Gluc/3×PT_miR‐9 was gradually decreased bothin vitro andin vivo in G2 cells induced to differentiate into neurons. However,in vitro andin vivo bioluminescence signals for CMV/Gluc/3×PT_miR‐124a were not significantly different between undifferentiated and differentiated G2 cells. Our results demonstrate that biogenesis of neuron‐specific miR‐124a is not necessary for doxycycline‐dependent neurogenesis of G2 cells.

Published

2015

40. A Sensitive Sensor Cell Line for the Detection of Oxidative Stress Responses in Cultured Human Keratinocytes

Author

Ute Hofmann, Melanie Priem, Christine Bartzsch, Thomas Winckler, and Karl-Heinz Feller

Subjects

cell-based assay, whole-cell biosensor, heat shock protein, reporter gene, oxidative stress, Chemical technology, TP1-1185

Abstract

In the progress of allergic and irritant contact dermatitis, chemicals that cause the generation of reactive oxygen species trigger a heat shock response in keratinocytes. In this study, an optical sensor cell line based on cultured human keratinocytes (HaCaT cells) expressing green fluorescent protein (GFP) under the control of the stress-inducible HSP70B’ promoter were constructed. Exposure of HaCaT sensor cells to 25 µM cadmium, a model substance for oxidative stress induction, provoked a 1.7-fold increase in total glutathione and a ~300-fold induction of transcript level of the gene coding for heat shock protein HSP70B’. An extract of Arnica montana flowers resulted in a strong induction of the HSP70B’ gene and a pronounced decrease of total glutathione in keratinocytes. The HSP70B’ promoter-based sensor cells conveniently detected cadmium-induced stress using GFP fluorescence as read-out with a limit of detection of 6 µM cadmium. In addition the sensor cells responded to exposure of cells to A. montana extract with induction of GFP fluorescence. Thus, the HaCaT sensor cells provide a means for the automated detection of the compromised redox status of keratinocytes as an early indicator of the development of human skin disorders and could be applied for the prediction of skin irritation in more complex in vitro 3D human skin models and in the development of micro-total analysis systems (µTAS) that may be utilized in dermatology, toxicology, pharmacology and drug screenings.

Published

2014

41. PITX2C loss-of-function mutations responsible for idiopathic atrial fibrillation

Author

Xing-Biao Qiu, Ying-Jia Xu, Ruo-Gu Li, Lei Xu, Xu Liu, Wei-Yi Fang, Yi-Qing Yang, and Xin-Kai Qu

Subjects

Atrial Fibrillation, Transcriptional Factor, PITX2c, Genetics, Reporter Gene, Medicine (General), R5-920

Abstract

OBJECTIVE: This study aimed to identify novel PITX2c mutations responsible for idiopathic atrial fibrillation. METHODS: A cohort of 210 unrelated patients with idiopathic atrial fibrillation and 200 unrelated, ethnically matched healthy individuals used as controls were recruited. The whole coding exons and splice junctions of the PITX2c gene, which encodes a paired-like homeobox transcription factor required for normal cardiovascular morphogenesis, were sequenced in 210 patients and 200 control subjects. The causative potentials of the identified mutations were automatically predicted by MutationTaster and PolyPhen-2. The functional characteristics of the PITX2c mutations were explored using a dual-luciferase reporter assay system. RESULTS: Two novel heterozygous PITX2c mutations (p.Q105L and p.R122C) were identified in 2 of the 210 unrelated patients with idiopathic atrial fibrillation. These missense mutations were absent in the 400 control chromosomes and were both predicted to be pathogenic. Multiple alignments of PITX2c protein sequences across various species showed that the altered amino acids were highly evolutionarily conserved. A functional analysis demonstrated that the mutant PITX2c proteins were both associated with significantly reduced transcriptional activity compared with their wild-type counterparts. CONCLUSION: The findings of this study associate PITX2c loss-of-function mutations with atrial fibrillation, supporting the hypothesis that dysfunctional PITX2c confers enhanced susceptibility to atrial fibrillation and suggesting potential implications for early prophylaxis and allele-specific therapy for this common arrhythmia.

Published

2014

42. Generation of Epichloë Strains Expressing Fluorescent Proteins Suitable for Studying Host-Endophyte Interactions and Characterisation of a T-DNA Integration Event

Author

Inoka K. Hettiarachchige, Emma J. Ludlow, Piyumi N. Ekanayake, Natasha D. Brohier, Sareena Sahab, Timothy I. Sawbridge, German C. Spangenberg, and Kathryn M. Guthridge

Subjects

epichloë, endophyte, reporter gene, green fluorescent protein, dsred, a. tumefaciens-mediated transformation, transformants, t-dna integration, sequencing, Biology (General), QH301-705.5

Abstract

Methods for the identification and localisation of endophytic fungi are required to study the establishment, development, and progression of host-symbiont interactions, as visible reactions or disease symptoms are generally absent from host plants. Fluorescent proteins have proved valuable as reporter gene products, allowing non-invasive detection in living cells. This study reports the introduction of genes for two fluorescent proteins, green fluorescent protein (GFP) and red fluorescent protein, DsRed, into the genomes of two distinct perennial ryegrass (Lolium perenne L.)-associated Epichloë endophyte strains using A. tumefaciens-mediated transformation. Comprehensive characterisation of reporter gene-containing endophyte strains was performed using molecular genetic, phenotypic, and bioinformatic tools. A combination of long read and short read sequencing of a selected transformant identified a single complex T-DNA insert of 35,530 bp containing multiple T-DNAs linked together. This approach allowed for comprehensive characterisation of T-DNA integration to single-base resolution, while revealing the unanticipated nature of T-DNA integration in the transformant analysed. These reporter gene endophyte strains were able to establish and maintain stable symbiotum with the host. In addition, the same endophyte strain labelled with two different fluorescent proteins were able to cohabit the same plant. This knowledge can be used to provide the basis to develop strategies to gain new insights into the host-endophyte interaction through independent and simultaneous monitoring in planta throughout its life cycle in greater detail.

Published

2019

43. The HKT Transporter Gene from Arabidopsis, AtHKT1;1, Is Dominantly Expressed in Shoot Vascular Tissue and Root Tips and Is Mild Salt Stress-Responsive

Author

Yuichi Tada

Subjects

AtHKT1, promoter, reporter gene, salt-responsive, vascular tissue-specific expression, Botany, QK1-989

Abstract

The Arabidopsis high-affinity K+ transporter (AtHKT1;1) plays roles in salt tolerance by unloading Na+ from the root xylem to the xylem parenchyma cells and/or uploading Na+ from the shoot/leaf xylem to the xylem parenchyma cells. To use this promoter for the molecular breeding of salt-tolerant plants, I evaluated the expression profile of the AtHKT1;1 promoter in detail. Approximately 1.1 kbp of sequence upstream from the start codon of AtHKT1;1 was polymerase chain reaction (PCR)-amplified, fused to the β-glucuronidase (GUS) gene, and introduced into Arabidopsis. The resultant transformants were evaluated under nonstressed and salt-stress conditions at the seedling and reproductive stages. Histochemical analysis showed that GUS activity was detected in vascular bundle tissue in roots, hypocotyls, petioles, leaves, and petals, and in root tips. GUS enzyme activity in shoots tended to be higher than that in roots at both stages. After treatment with 50 mM NaCl for 24 h, GUS transcription levels and GUS enzyme activity were enhanced in transgenic lines. These results indicate that the AtHKT1;1 promoter isolated in this study could be useful in expressing transgenes specifically in vascular tissue and root tips, and in a mild salt-stress-responsive manner. The data provide novel insights into the functions of AtHKT1;1.

Published

2019

44. Comparison between Effects of Retroactivity and Resource Competition upon Change in Downstream Reporter Genes of Synthetic Genetic Circuits

Author

Takefumi Moriya, Tomohiro Yamaoka, Yuki Wakayama, Shotaro Ayukawa, Zicong Zhang, Masayuki Yamamura, Shinji Wakao, and Daisuke Kiga

Subjects

synthetic biology, systems biology, retroactivity, resource competition, reporter gene, protein-binding site, Science

Abstract

Reporter genes have contributed to advancements in molecular biology. Binding of an upstream regulatory protein to a downstream reporter promoter allows quantification of the activity of the upstream protein produced from the corresponding gene. In studies of synthetic biology, analyses of reporter gene activities ensure control of the cell with synthetic genetic circuits, as achieved using a combination of in silico and in vivo experiments. However, unexpected effects of downstream reporter genes on upstream regulatory genes may interfere with in vivo observations. This phenomenon is termed as retroactivity. Using in silico and in vivo experiments, we found that a different copy number of regulatory protein-binding sites in a downstream gene altered the upstream dynamics, suggesting retroactivity of reporters in this synthetic genetic oscillator. Furthermore, by separating the two sources of retroactivity (titration of the component and competition for degradation), we showed that, in the dual-feedback oscillator, the level of the fluorescent protein reporter competing for degradation with the circuits’ components is important for the stability of the oscillations. Altogether, our results indicate that the selection of reporter promoters using a combination of in silico and in vivo experiments is essential for the advanced design of genetic circuits.

Published

2019

45. Prevalence and spectrum of Nkx2.5 mutations associated with idiopathic atrial fibrillation

Author

Wen-Hui Xie, Cheng Chang, Ying-Jia Xu, Ruo-Gu Li, Xin-Kai Qu, Wei-Yi Fang, Xu Liu, and Yi-Qing Yang

Subjects

Atrial Fibrillation, Transcriptional Factor, Nkx2.5, Genetics, Reporter Gene, Medicine (General), R5-920

Abstract

OBJECTIVE: The aim of this study was to evaluate the prevalence and spectrum of Nkx2.5 mutations associated with idiopathic atrial fibrillation (AF). METHODS: A cohort of 136 unrelated patients with idiopathic atrial fibrillation and 200 unrelated, ethnically matched healthy controls were enrolled. The coding exons and splice junctions of the Nkx2.5 gene were sequenced in 136 atrial fibrillation patients, and the available relatives of mutation carriers and 200 controls were subsequently genotyped for the identified mutations. The functional characteristics of the mutated Nkx2.5 gene were analyzed using a dual-luciferase reporter assay system. RESULTS: Two novel heterozygous Nkx2.5 mutations (p.N19D and p.F186S) were identified in 2 of the 136 unrelated atrial fibrillation cases, with a mutational prevalence of approximately 1.47%. These missense mutations co-segregated with atrial fibrillation in the families and were absent in the 400 control chromosomes. Notably, 2 mutation carriers also had congenital atrial septal defects and atrioventricular block. Multiple alignments of the Nkx2.5 protein sequences across various species revealed that the altered amino acids were completely conserved evolutionarily. Functional analysis demonstrated that the mutant Nkx2.5 proteins were associated with significantly reduced transcriptional activity compared to their wild-type counterpart. CONCLUSION: These findings associate the Nkx2.5 loss-of-function mutation with atrial fibrillation and atrioventricular block and provide novel insights into the molecular mechanism involved in the pathogenesis of atrial fibrillation. These results also have potential implications for early prophylaxis and allele-specific therapy of this common arrhythmia.

Published

2013

46. The Luc2 gene enhances reliability of bicistronic assays

Author

Mašek Tomáš, Vopalenský Václav, and Pospíšek Martin

Subjects

luciferase, cryptic transcription, reporter gene, bicistronic vector, ires, Biology (General), QH301-705.5

Published

2013

47. [Untitled]

Author

Sabrina R.A. Queiroz, Andréa N.M.R. Silva, Jefferson J.S. Santos, Ernesto T.A. Marques Jr, Giovani R. Bertani, and Laura H.V.G. Gil

Subjects

técnica de clonagem, recombinação homóloga, replicon, gene repórter, vírus da febre amarela, cloning technique, homologous recombination, reporter gene, yellow fever virus, Science

Abstract

RNA replicon derived from Flavivirus genome is a valuable tool for studying viral replication independent of virion assembly and maturation, besides being a great potencial for heterologous gene expression. In this study we described the construction of subgenomic replicons of yellow fever virus by yeast-based homologous recombination technique. The plasmid containing the yellow fever 17D strain replicon (pBSC-repYFV-17D), previously characterized, was handled to heterologous expression of the green fluorescent protein (repYFV-17D-GFP) and firefly luciferase (repYFV-17D-Luc) reporter genes. Both replicons were constructed by homologous recombination between the linearized vector pBSC-repYFV-17D and the PCR product containing homologous 25 nucleotides ends incorporated into PCR primers. The genomic organization of these constructs is similar to repYFV-17D, but with insertion of the reporter gene between the remaining 63 N-terminal nucleotides of the capsid protein and 72 C-terminal nucleotides of the E protein. The replicons repYFV-17D-GFP and repYFV-17D-Luc showed efficient replication and expression of the reporter genes. The yeast-based homologous recombination technique used in this study proved to be applicable for manipulation of the yellow fever virus genome in order to construct subgenomic replicons.O replicon de RNA derivado do genoma de Flavivirus é uma ferramenta valiosa para o estudo de replicação viral independente da montagem e da maturação do virion, além de possuir um grande potencial para expressão de genes heterólogos. Neste estudo nós descrevemos a construção de replicons subgenômicos do vírus da febre amarela utilizando a técnica de recombinação homóloga em levedura. O plasmídeo contendo o replicon do vírus febre amarela cepa 17D (pBSC-repYFV-17D), caracterizado anteriormente, foi manipulado para a expressão heteróloga dos genes repórteres green fluorescent protein (repYFV-17D-GFP) e firelly luciferase (repYFV-17D-Luc). Ambos os replicons foram construídos por recombinação homóloga entre o vetor pBSC-repYFV-17D linearizado e o produto de PCR contendo 25 nucleotídeos terminais homólogos incorporados aos oligonucleotídeos iniciadores. A organização genômica dos construídos é semelhante ao repYFV-17D, com inserção de um gene repórter entre os restantes 63 nucleotídeos N-terminais da proteína do capsídeo e 72 nucleotídeos C-terminais da proteína E. Os replicons repYFV-17D-GFP e repYFV-17D-Luc mostraram uma eficiente replicação e expressão dos genes repórteres. A técnica de recombinação homóloga em levedura usada neste estudo demonstrou ser aplicável à manipulação do genoma do vírus da febre amarela para a construção de replicons subgenômicos.

Published

2013

48. Novel GATA5 loss-of-function mutations underlie familial atrial fibrillation

Author

Jian-Yun Gu, Jia-Hong Xu, Hong Yu, and Yi-Qing Yang

Subjects

Atrial Fibrillation, Transcriptional Factor, GATA5, Genetics, Reporter Gene, Medicine (General), R5-920

Abstract

OBJECTIVE: This study aimed to identify novel GATA5 mutations that underlie familial atrial fibrillation. METHODS: A total of 110 unrelated patients with familial atrial fibrillation and 200 unrelated, ethnically matched healthy controls were recruited. The entire coding region of the GATA5 gene was sequenced in 110 atrial fibrillation probands. The available relatives of the mutation carriers and 200 controls were subsequently genotyped for the identified mutations. The functional effect of the mutated GATA5 was characterized using a luciferase reporter assay system. RESULTS: Two novel heterozygous GATA5 mutations (p.Y138F and p.C210G) were identified in two of the 110 unrelated atrial fibrillation families. These missense mutations cosegregated with AF in the families and were absent in the 400 control chromosomes. A cross-species alignment of GATA5 protein sequence showed that the altered amino acids were completely conserved evolutionarily. A functional analysis revealed that the mutant GATA5 proteins were associated with significantly decreased transcriptional activation when compared with their wild-type counterpart. CONCLUSION: The findings expand the spectrum of GATA5 mutations linked to AF and provide novel insights into the molecular mechanism involved in the pathogenesis of atrial fibrillation, suggesting potential implications for the early prophylaxis and personalized treatment of this common arrhythmia.

Published

2012

49. Identification of Leaf Promoters for Use in Transgenic Wheat

Author

Saqer S. Alotaibi, Caroline A. Sparks, Martin A. J. Parry, Andrew J. Simkin, and Christine A. Raines

Subjects

promoter, wheat, tissue specific, photosynthesis, reporter gene, yield, Botany, QK1-989

Abstract

Wheat yields have plateaued in recent years and given the growing global population there is a pressing need to develop higher yielding varieties to meet future demand. Genetic manipulation of photosynthesis in elite wheat varieties offers the opportunity to significantly increase yields. However, the absence of a well-defined molecular tool-box of promoters to manipulate leaf processes in wheat hinders advancements in this area. Two promoters, one driving the expression of sedoheptulose-1,7-bisphosphatase (SBPase) and the other fructose-1,6-bisphosphate aldolase (FBPA) from Brachypodium distachyon were identified and cloned into a vector in front of the GUS reporter gene. Both promoters were shown to be functionally active in wheat in both transient assays and in stably transformed wheat plants. Analysis of the stable transformants of wheat (cv. Cadenza) showed that both promoters controlled gus expression throughout leaf development as well as in other green tissues. The availability of these promoters provides new tools for the expression of genes in transgenic wheat leaves and also paves the way for multigene manipulation of photosynthesis to improve yields.

Published

2018

50. Agrobacterium-mediated genetic transformation of yam (Dioscorea rotundata): an important tool for functional study of genes and crop improvement

Author

Evans eNyaboga, Jaindra Nath Tripathi, Rajesh eManoharan, and Leena eTripathi

Subjects

Agrobacterium-mediated transformation, Dioscorea rotundata, Axillary buds, Selection marker gene, Reporter gene, Plant culture, SB1-1110

Abstract

Although genetic transformation of clonally propagated crops has been widely studied as a tool for crop improvement and as a vital part of the development of functional genomics resources, there has been no report of any existing Agrobacterium-mediated transformation of yam (Dioscorea spp.) with evidence of stable integration of T-DNA. Yam is an important crop in the tropics and subtropics providing food security and income to over 300 million people. However, yam production remains constrained by increasing levels of field and storage pests and diseases. A major constraint to the development of biotechnological approaches for yam improvement has been the lack of an efficient and robust transformation and regeneration system. In this study, we developed an Agrobacterium-mediated transformation of Dioscorea rotundata using axillary buds as explants. Two cultivars of D. rotundata were transformed using Agrobacterium tumefaciens harboring the binary vectors containing selectable marker and reporter genes. After selection with appropriate concentrations of antibiotic, shoots were developed on shoot induction and elongation medium. The elongated antibiotic-resistant shoots were subsequently rooted on medium supplemented with selection agent. Successful transformation was confirmed by PCR, Southern blot analysis and reporter genes assay. Expression of gusA gene in transgenic plants was also verified by RT-PCR analysis. Transformation efficiency varied from 9.4% to 18.2% depending on the cultivars, selectable marker genes and the Agrobacterium strain used for transformation. It took 3–4 months from Agro-infection to regeneration of complete transgenic plant. Here we report an efficient, fast and reproducible protocol for Agrobacterium-mediated transformation of D. rotundata using axillary buds as explants, which provides a useful platform for future genetic engineering studies in this economically important crop.

Published

2014