Difference between revisions of "Part:BBa K2889001:Experience"

(Applications of BBa_K2889001)
(Applications of BBa_K2889001)
 
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In silico prediction of lncRNA secondary structure is another useful method to assign putative functions to non-coding transcripts, based
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In silico prediction of lncRNA secondary structure is another useful method to assign putative functions to non-coding transcripts, based upon the widely held assumption that highly folded structures impart functionality through binding interactions with proteins/nucleotides.Characterization of IL7-ASusing RNAfold minimum free energy estimations predicted a highly folded secondary structure with several hairpin loops, which imply interact with protein (Fig. 3).
upon the widely held assumption that highly folded structures impart functionality through binding interactions with proteins/nucleotides.  
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Characterization of IL7-AS using RNAfold minimum free energy estimations predicted a highly folded secondary structure with several hairpin loops, which imply interact with protein (Fig. 3).
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Latest revision as of 10:46, 11 October 2018


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Applications of BBa_K2889001

1.cell migration

Cell migration is a central process in the development and maintenance of tumor. We cloned the full length of IL7-AS into PCDNA3.1 and transfected the plasmid to 786-O cells. Through in vitro scratch wound healing assay, overexpression of IL7-AS promoted cell migration of 786-O cells (Fig. 1 and 2). These results suggested that IL7-AS may play an important role in migration of renal cell carcinoma.


IL7-AS-cell_migration.jpg


IL7-AS-migration-.jpg


Overexpression of IL7-AS promotes 786-O cells migration. 786-O cells were transfected with pcDNA3.1-IL7-AS for 24 h. The cells growth areas were calculated with Image J at the time points of 0, 6, 12 and 24 h. Bar=100 μm. Data represents means ± SE from 3 independent experiments. *p<0.05 versus non-transfected cells.


2.IL7-AS contains a complicated secondary structure


In silico prediction of lncRNA secondary structure is another useful method to assign putative functions to non-coding transcripts, based upon the widely held assumption that highly folded structures impart functionality through binding interactions with proteins/nucleotides.Characterization of IL7-ASusing RNAfold minimum free energy estimations predicted a highly folded secondary structure with several hairpin loops, which imply interact with protein (Fig. 3).


IL7-AS.jpg


The optimal secondary structure with a minimum free energy. The secondary structures of IL7-AS were predicted by the RNAfold webserver (http://rna.tbi.univie.ac.at/cgi-bin/RNAfold.cgi). The structure is colored according to base-pairing probabilities. For unpaired regions, the color denotes the probability of being unpaired.

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