Method for SNP locus predicting and influencing biological function of long non-coding RNA
A non-coding and site-based technology, applied in the field of predicting SNP sites that affect the biological functions of long non-coding RNAs, can solve problems such as unmeasurable impacts
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[0055] Example 1. Method for obtaining SNP sites that have an important impact on long non-coding RNAs
[0056] 1. Construction of a complete data set of long non-coding RNA
[0057] 1. Collect and organize long non-coding RNA data
[0058]From the published literature "Cabili et al., Integrative annotation of human large intergenic noncoding RNAs reveals global properties and specific subclasses.2011.Genes Dev25:1915-27" and the GENCODE public database (the literature of the public GENCODE public database is as follows: GENCODE.Harrow et al., GENCODE : the reference human genome annotation for The ENCODE Project.Genome Research.2012.22:1760-74., the query URL of the GENCODE public database is as follows: http: / / www.gencodegenes.org / ) to collect annotation data of long non-coding RNAs, including Name, genome location, sequence and other information to obtain long non-coding RNA data sets.
[0059] 2. Filter the long non-coding RNA data set
[0060] From the long non-coding ...
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