Various genetic switches have been developed to let engineered cells perform designed functions. However, a sustained input is often needed to maintain the on/off state, which is energy-consuming and sensitive to perturbation. Therefore, we developed a set of transcriptional switches for cell states control that were constructed by the inversion effect of site-specific recombinases on terminators. Such a switch could respond to a pulse signal and maintain the new state by itself until the next input. With a bottom-up design principle, we first characterized the terminators and recombinases. Then the mutual interference was studied to select compatible pairs, which were used to achieve one-time and two-time state transitions. Finally, we constructed a biological seven-segment display as a demonstration to prove such switch's immense potential for application.
Recombinases ; metabolism

Animals ; Biological Assay ; Nucleic Acid Amplification Techniques ; Phlebovirus/isolation & purification* ; Psychodidae/virology* ; Recombinases/metabolism* ; Reverse Transcription

This investigation is to delete the most of the coding sequence (1104 bp) of the IV a2 gene in an adenovirus genome by a lambda-Red recombinase system-mediated PCR-targeting approach and rescue a recombinant adenovirus with IV a2 deletion. First, the template pAK of PCR targeting, containing kanamycin cassette, was constructed. Then, a linear fragment for PCR targeting, which had 39 bp homologous arms at both of its terminus, was amplified by PCR from the pAK. The pFG140 and the linear fragment were electroporated into E. coli BW25113/pIJ790 sequentially and the recombinant pFG140-deltaIV a2 (1104) was established by homologous recombination between the linear fragment and the pFG140 with aid of X-Red recombinase. The precise deletion of 1 104 bp fragment from IV a2 was confirmed by restriction endonucleases digestion and DNA sequencing. ORF of IV a2 was amplified by PCR from pFG140 and then cloned into the pAAV2neo vector. The recombinant adenovirus Ad5delta IV a2 (1104) was rescued by co-transfection of pFG140-deltaIV a2 (1104) and pAAV2neo-IV a2 into HEK293 cells. It was shown by Western Blot that IV a2 could not be detected in the Ad5deltaIV a2 (1104)- infected HEK293 cells. This study established a PCR-targeting strategy for manipulating adenovirus genome directly by a lambda-Red recombinase system, and a recombinant adenovirus with IV a2 deletion was obtained.
Adenoviridae ; genetics ; Genome, Viral ; HEK293 Cells ; Humans ; Polymerase Chain Reaction ; Recombinases ; metabolism ; Sequence Deletion ; Viral Proteins ; genetics ; Virus Assembly

A new neo/E counterselection technique was set up using Red recombination, which could be used in constructing recombinant plasmid. Firstly, linear targeting cassettes were amplified by PCR; secondly, two steps of homology recombination occurred in vivo: (1) The neo/E counterselection targeting cassette, consisting of a unique endonuclease recognition site and an antibiotic resistance gene, was introduced into the targeted region. (2) The neo/E cassette was replaced in the second round of recombination by another linear targeting cassettes DNA fragment carrying the targeted gene. For selecting a correct recombinant plasmid from the mixture of nonrecombinant and recombinant clones, the unique endonuclease recognition site in the nonrecombinant clones was cut by endonuclease and then transformed into the E. coli competent cells, up to 20% correct recombinants were yielded. A recombinant plasmid of pGL3-Basic PC1900T was successfully constructed in this way. Application of this technique offers a new and highly efficient way for recombinant plasmids construction.
Bacteriophage lambda ; genetics ; DNA, Recombinant ; genetics ; Escherichia coli ; genetics ; Genetic Engineering ; Plasmids ; genetics ; Rec A Recombinases ; genetics ; metabolism ; Recombinant Proteins ; biosynthesis ; genetics

Fanconi anemia (FA) is an autosomal or X-linked recessive disorder characterized by chromosomal instability, bone marrow failure, cancer susceptibility, and a profound sensitivity to agents that produce DNA interstrand cross-link (ICL). To date, 15 genes have been identified that, when mutated, result in FA or an FA-like syndrome. It is believed that cellular resistance to DNA interstrand cross-linking agents requires all 15 FA or FA-like proteins. Here, we review our current understanding of how these FA proteins participate in ICL repair and discuss the molecular mechanisms that regulate the FA pathway to maintain genome stability.
DNA Damage ; DNA Repair ; Exodeoxyribonucleases ; genetics ; metabolism ; Fanconi Anemia ; genetics ; metabolism ; pathology ; Fanconi Anemia Complementation Group N Protein ; Fanconi Anemia Complementation Group Proteins ; genetics ; metabolism ; Humans ; Nuclear Proteins ; genetics ; metabolism ; Recombinases ; genetics ; metabolism ; Tumor Suppressor Proteins ; genetics ; metabolism ; Ubiquitination

OBJECTIVETo construct a red fluorescent shuttle vector controlled by recA operon promoter to transform Streptococcus mutans.

METHODSThe promoter of recA was amplified from Streptococcus mutans UA159, and connected to plasmid pDsRed2-N1 to construct pRred with a red fluorescent coding gene, which was then inserted into the shuttle vector pDL276 to construct pLRred.

RESULTSpLRred was successfully constructed, and Escherichia coli transformed with the pLRred plasmid could express reporter gene DsRed.

CONCLUSIONSThe recombination plasmid pLRred can be used in the further research of the expression of cariogenic virulence factor gene by Streptococcus mutans in biofilm.

Escherichia coli ; genetics ; metabolism ; Fluorescent Dyes ; Genes, Essential ; Genes, Reporter ; Genetic Vectors ; Luminescent Proteins ; genetics ; Operon ; Plasmids ; Promoter Regions, Genetic ; Rec A Recombinases ; genetics ; metabolism ; Recombinant Proteins ; genetics ; metabolism ; Streptococcus mutans ; genetics ; Transformation, Bacterial

BmNPV bacmid constructed recently and Red recombinant system were used to rapidly disrupted Bombyx monri nucleopolyhedrovirus (BmNPV) orf60 in Escherichia coli (E. coli) BW25113. BmNPV bacmid isolated from E. coli BmDH10Bac was electroporated into E. coli BW25113, which harbors plasmid pKD46 encoding lamda Red recombinase,to produce E. coli BW25113-Bac, which could be used for gene deletion of BmNPV. A linear fragment was amplified by PCR from plasmid pKD3 (containing a chloramphenicol acetyltransferase gene cat) using a pair of primers with length of 63bp,which had 45 bp homologous to the orf60 gene and 18bp homologous to cat sequences. The linear fragment was electroporated into E. coli BW25113-Bac and homologous recombination occurred between the linear fragment and orf60 with the help of lamda Red recombinase. Three specific primer pairs were used to confirm the replacement of orf60 by cat gene. Western blot analysis showed that orf60 was not expressed in BmN cells infected with knockout bacmid.
Animals ; Bacteriophage lambda ; enzymology ; genetics ; Bombyx ; virology ; Electroporation ; Escherichia coli ; genetics ; metabolism ; Gene Expression ; Gene Knockout Techniques ; Genes, Viral ; genetics ; Nucleopolyhedrovirus ; enzymology ; genetics ; Open Reading Frames ; genetics ; physiology ; Recombinases ; genetics ; metabolism ; Viral Proteins ; genetics ; metabolism

Recombineering, a new genetic engineering technology based on high efficiency in vivo homologous recombination, can be used in target DNA knock-in, knock-out and gene cloning. In the process of gene subcloning mediated by Recombineering technique, high-quality target DNA fragments were difficult to obtain using in vitro overlapping PCR,therefore the efficiency of in vivo homologous recombination was severely interrupted. To solve this problem, some technology improvements have been established based on the principle of Red recombinases. The PCR DNA fragments of egfp and kan genes with complementary sequences on the end of each fragment were co-introduced into a pcDNA3.1 vector and Red recombinases containing E. coli DY331 host cells by electroporation. A recombinant plasmid pcDNA3.1-egfp-kan was screened directly by antibiotic marker. The positive rates can reach to 45%. The EGFP gene expression of pcDNA3.1-egfp-kan can be observed by transient transfection of 293 eukaryotic cells.
Bacteriophage lambda ; enzymology ; genetics ; DNA, Recombinant ; genetics ; Electroporation ; Escherichia coli ; genetics ; Gene Fusion ; genetics ; Genetic Engineering ; methods ; Green Fluorescent Proteins ; genetics ; metabolism ; Plasmids ; genetics ; Recombinases ; genetics ; metabolism ; Recombination, Genetic

Red/ET recombination, a powerful homologous recombination system based on the Red operon of lambda phage or RecE/ RecT from Rac phage, provides an innovative approach for DNA engineering. Deletion, insertion and mutation can be quickly and precisely performed on the target gene mediated by Red/ET recombination with PCR derived DNA fragments or oligonucleotides. This technical platform has extensive applications in biomedical field including bacterial artificial chromosome modification, gene knock-out construction and genetic modification of E. coli strains as well as some other kinds of microorganisms. Recently, Red/ET recombination was improved in several aspects so that it becomes more powerful and maneuverable. The characteristic and development of Red/ET recombination and its biomedical applications were described in this review.
Bacteriophage lambda ; genetics ; DNA, Recombinant ; genetics ; DNA-Binding Proteins ; genetics ; Escherichia coli ; genetics ; metabolism ; Escherichia coli Proteins ; genetics ; Exodeoxyribonucleases ; genetics ; Genetic Engineering ; methods ; Rec A Recombinases ; genetics ; Recombination, Genetic ; genetics