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The technology used to amplify and isolate the DNA fragment reflecting the Open Reading Frame II of the I-18 C gene of Chironomus tentans is described i.e. the Polymerase Chain Reactioin and the agarose gel electrophoresis of this reaction product, as well as the blunting reaction of the product and its isolation.
Different mechanisms of regulation regarding the Open Reading Frames (ORFs) have been discussed to have a broader perspective that is necessary to evaluate the role of the ORFs of the I-18 C gene. This consideration includes the ORF II of the I-18 C gene which is the object of the presented research.
The technology for the preparation of the template in the research aimed to isolate the DNA fragment reflecting the Open Reading Frame II of the I-18 C gene is presented i.e. the linearisation of the template by Bam H I digestion, the purification of the template and the estimation of the template concentration.
The above mentioned technology in a case of the DNA fragment reflecting the Open Reading Frame II of the I-18 C gene is described i.e. the primers design, purification and phosphorylation of the oligonucleotide primers.
The Polymerase Chain Reaction and other molecular technologies were applied to isolate the DNA fragment reflecting the Open Reading Frame II of the I-18 C gene. This research object was realized and the importance of this result has been discussed in view of the mechanisms of the regulation of gene expression.
The I-18 C region of the polytenic chromosome of Chironomus tentans contains the I-18 C gene. Two DNA fragments, reflecting two different open reading frames (i.e.ORF I and II) of two different transcripts (i.e. 1.8 and 4.6 kb RNA) of the I-18 C gene were isolated, then were cloned into the intermediate vector and next to the final vector in order to translate them in T7 RNA polymerase / promoter...
The chromosomal I-18 C region of Chironomus tentans contains the I-18 C gene. Two different open reading frames (i.e. the ORF I and II) of two different transcripts (i.e. the 1.8 kb and 4.6 kb RNA) of the I-18 C gene of Chironomus tentans were isolated, at the DNA level, by the Polymerase Chain Reaction, then were cloned into the bluescript vector and finally were cloned into the pET-3a vector in...
The technology applied for the cloning of the open reading frame (ORF) I and II reflecting DNA fragments in regard to the identification of the bacterial colonies, of E. coli XL-1 strain, containing the recombinant bluescript plasmids, is described. The particular steps include: the α-complementation test, growing of the preliminary selected bacterial colonies in culture, isolation of the plasmids...
The technology applied for the cloning of the open reading frame (ORF) I and II reflecting DNA fragments of the I-18 C gene of Chironomus tentans in regard to the preparation of the competent E. coli cells of the XL-1 strain needed for the transformation with the ligation reaction products, is presented. Also the transformation of these bacterial cells with the bluescript plasmid and its isolation...
The technology used for the cloning of the open reading frame (ORF) I and II reflecting DNA fragments in regard to the ligations of the inserts with the pET-3a vector and the identification of the bacterial colonies, containing the recombinant plasmids, is presented. The main steps include: calculation of the molar ratios of the vector to insert DNA, the ligation reactions, transformation of the competent...
The technology used for the cloning of the open reading frame (ORF) I and II reflecting DNA fragments in regard to the DNA sequencing of the cloned inserts, is presented. The object of the DNA sequencing of the cloned inserts, was to finally confirm and prove the sequence of the inserts as the sequence of the ORF I and II reflecting DNA fragments of the I-18 C gene of Chironomus tentans.
The goal of these experiments was to clone the open reading frame (ORF) I and II reflecting DNA fragments of the I-18 C gene of Chironomus tentans into the pET-3a vector to translate them in the T7 RNA polymerase / promoter system in BL21(DE3) cells of E. coli. This goal has been achieved and the results of the cloning experiments are presented and discussed.
The technology used for the cloning of the open reading frame (ORF) I and II reflecting DNA fragments of the I-18 C gene in regard to the ligation reactions of the bluescript vector with the inserts, is presented. The main steps include: the calculation of the molar ratio of the bluescript plasmid to the ORF I and II reflecting DNA fragments as the inserts, the ligation reaction, the transformation...
The technology applied for the cloning of the open reading frame (ORF) I and II reflecting DNA fragments in regard to the preparation of the inserts and the translational vector pET-3a for ligation, is described. The main steps of the preparation of the inserts include: digestion of the isolated recombinant bluescript plasmids, carrying the inserts, with the Nde I and Bam HI, purification and isolation...
The technology applied for the cloning of the open reading frame (ORF) I and II reflecting DNA fragments of the I-18 C gene of Chironomus tentans in regard to the preparation of the inserts for ligation with the bluescript and the modification of this intermediate vector, is described. The ORF I reflecting DNA fragment prepared for ligation with the bluescript vector, had one end blunt (i.e. the 5’...
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