MRNA display

http://dbpedia.org/resource/MRNA_display an entity of type: TopicalConcept

in vitro virus(インビトロウイルス、略称:IVV)とは、無細胞翻訳系を用いるタンパク質における画期的スクリーニング法である。、創薬への研究応用が行われている。米国のグループはこの方法をmRNA display法と呼称し、その名称が一般化している。 rdf:langString
mRNA display is a display technique used for in vitro protein, and/or peptide evolution to create molecules that can bind to a desired target. The process results in translated peptides or proteins that are associated with their mRNA progenitor via a puromycin linkage. The complex then binds to an immobilized target in a selection step (affinity chromatography). The mRNA-protein fusions that bind well are then reverse transcribed to cDNA and their sequence amplified via a polymerase chain reaction. The result is a nucleotide sequence that encodes a peptide with high affinity for the molecule of interest. rdf:langString
rdf:langString MRNA display
rdf:langString In vitro virus
xsd:integer 7792469
xsd:integer 1123482611
rdf:langString mRNA display is a display technique used for in vitro protein, and/or peptide evolution to create molecules that can bind to a desired target. The process results in translated peptides or proteins that are associated with their mRNA progenitor via a puromycin linkage. The complex then binds to an immobilized target in a selection step (affinity chromatography). The mRNA-protein fusions that bind well are then reverse transcribed to cDNA and their sequence amplified via a polymerase chain reaction. The result is a nucleotide sequence that encodes a peptide with high affinity for the molecule of interest. Puromycin is an analogue of the 3’ end of a tyrosyl-tRNA with a part of its structure mimics a molecule of adenosine, and the other part mimics a molecule of tyrosine. Compared to the cleavable ester bond in a tyrosyl-tRNA, puromycin has a non-hydrolysable amide bond. As a result, puromycin interferes with translation, and causes premature release of translation products. All mRNA templates used for mRNA display technology have puromycin at their 3’ end. As translation proceeds, ribosome moves along the mRNA template, and once it reaches the 3’ end of the template, the fused puromycin will enter ribosome’s A site and be incorporated into the nascent peptide. The mRNA-polypeptide fusion is then released from the ribosome (Figure 1). To synthesize an mRNA-polypeptide fusion, the fused puromycin is not the only modification to the mRNA template. Oligonucleotides and other spacers need to be recruited along with the puromycin to provide flexibility and proper length for the puromycin to enter the A site. Ideally, the linker between the 3’ end of an mRNA and the puromycin has to be flexible and long enough to allow the puromycin to enter the A site upon translation of the last codon. This enables the efficient production of high-quality, full-length mRNA-polypeptide fusion. Rihe Liu et al. optimized the 3’-puromycin oligonucleotide spacer. They reported that dA25 in combination with a Spacer 9 (Glen Research), and dAdCdCP at the 5’ terminus worked the best for the fusion reaction. They found that linkers longer than 40 nucleotides and shorter than 16 nucleotides showed greatly reduced efficiency of fusion formation. Also, when the sequence rUrUP presented adjacent to the puromycin, fusion did not form efficiently. In addition to providing flexibility and length, the poly dA portion of the linker also allows further purification of the mRNA-polypeptide fusion due to its high affinity for dT cellulose resin. The mRNA-polypeptide fusions can be selected over immobilized selection targets for several rounds with increasing stringency. After each round of selection, those library members that stay bound to the immobilized target are PCR amplified, and non-binders are washed off.
rdf:langString in vitro virus(インビトロウイルス、略称:IVV)とは、無細胞翻訳系を用いるタンパク質における画期的スクリーニング法である。、創薬への研究応用が行われている。米国のグループはこの方法をmRNA display法と呼称し、その名称が一般化している。
xsd:nonNegativeInteger 16442

data from the linked data cloud