Your search keyword '"Gibson assembly"' showing total 9 results

1. User-Friendly Replication-Competent MAdV-1 Vector System with a Cloning Capacity of 3.3 Kilobases.

Author

Zhang, Zhichao, Guo, Xiaojuan, Hou, Wenzhe, Zou, Xiaohui, Wang, Yongjin, Liu, Shuqing, and Lu, Zhuozhuang

Subjects

*GENE expression, *RECOMBINANT viruses, *GENETIC vectors, *GENETIC transformation, *PLASMIDS, *REVERSE genetics, *GENES, *TRANSGENE expression, *REPORTER genes

Abstract

Mouse adenoviruses (MAdV) play important roles in studying host–adenovirus interaction. However, easy-to-use reverse genetics systems are still lacking for MAdV. An infectious plasmid pKRMAV1 was constructed by ligating genomic DNA of wild-type MAdV-1 with a PCR product containing a plasmid backbone through Gibson assembly. A fragment was excised from pKRMAV1 by restriction digestion and used to generate intermediate plasmid pKMAV1-ER, which contained E3, fiber, E4, and E1 regions of MAdV-1. CMV promoter-controlled GFP expression cassette was inserted downstream of the pIX gene in pKMAV1-ER and then transferred to pKRMAV1 to generate adenoviral plasmid pKMAV1-IXCG. Replacement of transgene could be conveniently carried out between dual BstZ17I sites in pKMAV1-IXCG by restriction-assembly, and a series of adenoviral plasmids were generated. Recombinant viruses were rescued after transfecting linearized adenoviral plasmids to mouse NIH/3T3 cells. MAdV-1 viruses carrying GFP or firefly luciferase genes were characterized in gene transduction, plaque-forming, and replication in vitro or in vivo by observing the expression of reporter genes. The results indicated that replication-competent vectors presented relevant properties of wild-type MAdV-1 very well. By constructing viruses bearing exogenous fragments with increasing size, it was found that MAdV-1 could tolerate an insertion up to 3.3 kb. Collectively, a replication-competent MAdV-1 vector system was established, which simplified procedures for the change of transgene or modification of E1, fiber, E3, or E4 genes. [ABSTRACT FROM AUTHOR]

Published

2024

2. The Application of the Gibson Assembly Method in the Production of Two pKLS3 Vector-Derived Infectious Clones of Foot-and-Mouth Disease Virus.

Author

Semkum, Ploypailin, Thangthamniyom, Nattarat, Chankeeree, Penpitcha, Keawborisuth, Challika, Theerawatanasirikul, Sirin, and Lekcharoensuk, Porntippa

Subjects

VIRUS cloning, FOOT & mouth disease, VIRUS diseases, NUCLEOTIDE sequence, PRODUCTION methods

Abstract

The construction of a full-length infectious clone, essential for molecular virological study and vaccine development, is quite a challenge for viruses with long genomes or possessing complex nucleotide sequence structures. Herein, we have constructed infectious clones of foot-and-mouth disease virus (FMDV) types O and A by joining each viral coding region with our pKLS3 vector in a single isothermal reaction using Gibson Assembly (GA). pKLS3 is a 4.3-kb FMDV minigenome. To achieve optimal conditions for the DNA joining, each FMDV coding sequence was divided into two overlapping fragments of approximately 3.8 and 3.2 kb, respectively. Both DNA fragments contain the introduced linker sequences for assembly with the linearized pKLS3 vector. FMDV infectious clones were produced upon directly transfecting the GA reaction into baby hamster kidney-21 (BHK-21) cells. After passing in BHK-21 cells, both rescued FMDVs (rO189 and rNP05) demonstrated growth kinetics and antigenicity similar to their parental viruses. Thus far, this is the first report on GA-derived, full-length infectious FMDV cDNA clones. This simple DNA assembly method and the FMDV minigenome would facilitate the construction of FMDV infectious clones and enable genetic manipulation for FMDV research and custom-made FMDV vaccine production. [ABSTRACT FROM AUTHOR]

Published

2023

3. Restriction-Assembly: A Solution to Construct Novel Adenovirus Vector.

Author

Guo, Xiaojuan, Sun, Yangyang, Chen, Juan, Zou, Xiaohui, Hou, Wenzhe, Tan, Wenjie, Hung, Tao, and Lu, Zhuozhuang

Subjects

*ADENOVIRUSES, *CHRONIC myeloid leukemia, *VIRUS cloning, *DNA vaccines, *GENE therapy, *GENETIC transformation

Abstract

Gene therapy and vaccine development need more novel adenovirus vectors. Here, we attempt to provide strategies to construct adenovirus vectors based on restriction-assembly for researchers with little experience in this field. Restriction-assembly is a combined method of restriction digestion and Gibson assembly, by which the major part of the obtained plasmid comes from digested DNA fragments instead of PCR products. We demonstrated the capability of restriction-assembly in manipulating the genome of simian adenovirus 1 (SAdV-1) in this study. A PCR product of the plasmid backbone was combined with SAdV-1 genomic DNA to construct an infectious clone, plasmid pKSAV1, by Gibson assembly. Restriction-assembly was performed repeatedly in the steps of intermediate plasmid isolation, modification, and restoration. The generated adenoviral plasmid was linearized by restriction enzyme digestion and transfected into packaging 293 cells to rescue E3-deleted replication-competent SAdV1XE3-CGA virus. Interestingly, SAdV1XE3-CGA could propagate in human chronic myelogenous leukemia K562 cells. The E1 region was similarly modified to generate E1/E3-deleted replication-defective virus SAdV1-EG. SAdV1-EG had a moderate gene transfer ability to adherent mammalian cells, and it could efficiently transduce suspension cells when compared with the human adenovirus 5 control vector. Restriction-assembly is easy to use and can be performed without special experimental materials and instruments. It is highly effective with verifiable outcomes at each step. More importantly, restriction-assembly makes the established vector system modifiable, upgradable and under sustainable development, and it can serve as the instructive method or strategy for the synthetic biology of adenoviruses. [ABSTRACT FROM AUTHOR]

Published

2022

4. Identification and Heterologous Expression of the Biosynthetic Gene Cluster Encoding the Lasso Peptide Humidimycin, a Caspofungin Activity Potentiator

Author

Marina Sánchez-Hidalgo, Jesús Martín, and Olga Genilloud

Subjects

0301 basic medicine, Microbiology (medical), Gibson assembly, Peptide, Humidimycin, Biochemistry, Microbiology, Article, Streptomyces humidus, 03 medical and health sciences, chemistry.chemical_compound, Gene cluster, lasso peptide, genome mining, RiPP, Pharmacology (medical), General Pharmacology, Toxicology and Pharmaceutics, chemistry.chemical_classification, MDN-0010, 030102 biochemistry & molecular biology, biology, biosynthetic gene cluster, lcsh:RM1-950, heterologous expression, Potentiator, biology.organism_classification, 030104 developmental biology, Infectious Diseases, lcsh:Therapeutics. Pharmacology, chemistry, Heterologous expression, Caspofungin, Bacteria

Abstract

Humidimycin (MDN-0010) is a ribosomally synthesized and post-translationally modified peptide (RiPP) belonging to class I lasso peptides, and is structurally related to siamycins, which have been shown to have strong antimicrobial activities against Gram-positive bacteria and to possess anti-HIV activity. Humidimycin was isolated from the strain Streptomyces humidus CA-100629, and was shown to synergize the activity of the fungal cell wall inhibitor caspofungin. In this work, the biosynthetic gene cluster of humidimycin was identified by genome mining of S. humidus CA-100629, cloned by Gibson assembly, and heterologously expressed.

Published

2020

5. Simple and Rapid Assembly of TALE Modules Based on the Degeneracy of the Codons and Trimer Repeats.

Author

Cheng, Lingyin, Zhou, Xiaoqing, Zheng, Yuling, Tang, Chengcheng, Liu, Yu, Zheng, Shuwen, Liu, Yang, Zhou, Jizeng, Li, Chuan, Chen, Min, Lai, Liangxue, and Zou, Qingjian

Subjects

*GENETIC code, *GENETIC transcription regulation, *DNA sequencing, *MOLECULAR biology, *GENOME editing

Abstract

Transcription activator-like effectors (TALEs) have been effectively used for targeted genome editing, transcriptional regulation, epigenetic modification, and locus-specific DNA imaging. However, with the advent of the clustered regularly interspaced short palindromic repeat/Cas9 system, an easy-to-use tool with the same function as TALEs, TALEs have recently been abandoned because of their complexity, time consumption, and difficult handling in common labs. Here, we described a degenerated codon-based TALE assembly system for simple, rapid, and efficient TALE assembly. TALE trimers with nonrepetitive DNA sequences were amplified by PCR and sequentially assembled via Gibson assembly. Our method is cost-effective, requires only commonly used basic molecular biology reagents, and takes only 2 h from target sequence analysis to completion. This simple, rapid, and lab-friendly TALE assembly method will restore the value of TALEs in DNA targeting. [ABSTRACT FROM AUTHOR]

Published

2021

6. User-Friendly Reverse Genetics System for Modification of the Right End of Fowl Adenovirus 4 Genome.

Author

Yan, Bingyu, Zou, Xiaohui, Liu, Xinglong, Zhao, Jiaming, Zhang, Wenfeng, Guo, Xiaojuan, Wang, Min, Lv, Yingtao, and Lu, Zhuozhuang

Subjects

*REVERSE genetics, *GENOMES, *POULTRY, *POULTRY industry, *VIRAL genes, *RECOMBINANT viruses, *ADENOVIRUSES

Abstract

A novel fowl adenovirus 4 (FAdV-4) has caused significant economic losses to the poultry industry in China since 2015. We established an easy-to-use reverse genetics system for modification of the whole right and partial left ends of the novel FAdV-4 genome, which worked through cell-free reactions of restriction digestion and Gibson assembly. Three recombinant viruses were constructed to test the assumption that species-specific viral genes of ORF4 and ORF19A might be responsible for the enhanced virulence: viral genes of ORF1, ORF1b and ORF2 were replaced with GFP to generate FAdV4-GFP, ORF4 was replaced with mCherry in FAdV4-GFP to generate FAdV4-GX4C, and ORF19A was deleted in FAdV4-GFP to generate FAdV4-CX19A. Deletion of ORF4 made FAdV4-GX4C form smaller plaques while ORF19A deletion made FAdV4-CX19A form larger ones on chicken LMH cells. Coding sequence (CDS) replacement with reporter mCherry demonstrated that ORF4 had a weak promoter. Survival analysis showed that FAdV4-CX19A-infected chicken embryos survived one more day than FAdV4-GFP- or FAdV4-GX4C-infected ones. The results illustrated that ORF4 and ORF19A were non-essential genes for FAdV-4 replication although deletion of either gene influenced virus growth. This work would help function study of genes on the right end of FAdV-4 genome and facilitate development of attenuated vaccines. [ABSTRACT FROM AUTHOR]

Published

2020

7. Rapid and Effective Generation of Nanobody Based CARs using PCR and Gibson Assembly.

Author

De Munter, Stijn, Van Parys, Alexander, Bral, Layla, Ingels, Joline, Goetgeluk, Glenn, Bonte, Sarah, Pille, Melissa, Billiet, Lore, Weening, Karin, Verhee, Annick, Van der Heyden, Jose, Taghon, Tom, Leclercq, Georges, Kerre, Tessa, Tavernier, Jan, and Vandekerckhove, Bart

Subjects

*CHIMERIC antigen receptors, *COMPACT cars, *ANTIGEN presenting cells, *CLINICAL drug trials, *CELL membranes

Abstract

Recent approval of chimeric antigen receptor (CAR) T cell therapy by the European Medicines Agency (EMA)/Federal and Drug Administration (FDA) and the remarkable results of CAR T clinical trials illustrate the curative potential of this therapy. While CARs against a multitude of different antigens are being developed and tested (pre)clinically, there is still a need for optimization. The use of single-chain variable fragments (scFvs) as targeting moieties hampers the quick generation of functional CARs and could potentially limit the efficacy. Instead, nanobodies may largely circumvent these difficulties. We used an available nanobody library generated after immunization of llamas against Cluster of Differentiation (CD) 20 through DNA vaccination or against the ectodomain of CD33 using soluble protein. The nanobody specific sequences were amplified by PCR and cloned by Gibson Assembly into a retroviral vector containing two different second-generation CAR constructs. After transduction in T cells, we observed high cell membrane nanoCAR expression in all cases. Following stimulation of nanoCAR-expressing T cells with antigen-positive cell lines, robust T cell activation, cytokine production and tumor cell lysis both in vitro and in vivo was observed. The use of nanobody technology in combination with PCR and Gibson Assembly allows for the rapid and effective generation of compact CARs. [ABSTRACT FROM AUTHOR]

Published

2020

8. Identification and Heterologous Expression of the Biosynthetic Gene Cluster Encoding the Lasso Peptide Humidimycin, a Caspofungin Activity Potentiator.

Author

Sánchez-Hidalgo, Marina, Martín, Jesús, and Genilloud, Olga

Subjects

GENE clusters, GENE expression, FUNGAL cell walls, GRAM-positive bacteria, STREPTOMYCES

Abstract

Humidimycin (MDN-0010) is a ribosomally synthesized and post-translationally modified peptide (RiPP) belonging to class I lasso peptides, and is structurally related to siamycins, which have been shown to have strong antimicrobial activities against Gram-positive bacteria and to possess anti-HIV activity. Humidimycin was isolated from the strain Streptomyces humidus CA-100629, and was shown to synergize the activity of the fungal cell wall inhibitor caspofungin. In this work, the biosynthetic gene cluster of humidimycin was identified by genome mining of S. humidus CA-100629, cloned by Gibson assembly, and heterologously expressed. [ABSTRACT FROM AUTHOR]

Published

2020

9. Rapid Construction of a Replication-Competent Infectious Clone of Human Adenovirus Type 14 by Gibson Assembly.

Author

Pan, Haibin, Yan, Yuqian, Zhang, Jing, Zhao, Shan, Feng, Liqiang, Ou, Junxian, Cao, Na, Li, Min, Zhao, Wei, Wan, Chengsong, Ismail, Ashrafali M., Rajaiya, Jaya, Chodosh, James, and Zhang, Qiwei

Subjects

*ADENOVIRUS diseases, *ADULT respiratory distress syndrome, *IMMUNOFLUORESCENCE, *DNA viruses, *DNA replication

Abstract

In 1955, Human adenovirus type 14 (HAdV-B14p) was firstly identified in a military trainee diagnosed as acute respiratory disease (ARD) in the Netherlands. Fifty years later, a genomic variant, HAdV-B14p1, re-emerged in the U.S. and caused large and fatal ARD outbreaks. Subsequently, more and more ARD outbreaks occurred in Canada, the UK, Ireland, and China, in both military and civil settings. To generate a tool for the efficient characterization of this new genomic variant, a full-length infectious genomic clone of HAdV-B14 was successfully constructed using one-step Gibson Assembly method in this study. Firstly, the full genome of HAdV-B14p1 strain GZ01, the first HAdV-B14 isolate in China, was assembled into pBR322 plasmid by Gibson Assembly. The pBRAdV14 plasmid, generated by Gibson Assembly, was analyzed and verified by PCR, restriction enzymes digestion and the sequencing. Secondly, viruses were rescued from pBRAdV14-transfected A549 cells. The integrity of the rescued viruses was identified by restriction enzyme analysis. The complete sequence of the infectious clone was further sequenced. No mutation was found in the infectious clone during the construction when compared with the parental virus and pBR322 sequences. The direct immunofluorescence assay indicated the expression of the hexon protein. Finally, typical virions were observed; the one-step growth curves further showed that the DNA replication and viral reproduction efficiency of pBRAd14 derived viruses was similar with that of wild-type HAdV-B14 strain. The successful construction of the replication-competent infectious clone of pBRAdV14 facilitates the development of vaccine and antiviral drugs against HAdV-B14, as well as provides a novel strategy for rapid construction of infectious viral clones for other large-genome DNA viruses. [ABSTRACT FROM AUTHOR]

Published

2018