Method and device for predicting degree of influence of mutation on secondary structure of RNA based on EucDiff value

A technology of secondary structure and degree of influence, applied in the fields of genomics, instrumentation, proteomics, etc., can solve problems such as unclear role of riboSNitch

Inactive Publication Date: 2019-10-08
FUDAN UNIV
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Problems solved by technology

However, the role of riboSNitch in cancer genomes is still unclear, so we decided to use two cancer genome databases, TCGA and ICGC, to analyze riboSNitch in cancer genomes to clarify whether riboSNitch is in the non-coding regions of cancer genomes (including UTR regions of coding genes and long non-coding genes), whether it is related to tumorigenesis

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  • Method and device for predicting degree of influence of mutation on secondary structure of RNA based on EucDiff value
  • Method and device for predicting degree of influence of mutation on secondary structure of RNA based on EucDiff value
  • Method and device for predicting degree of influence of mutation on secondary structure of RNA based on EucDiff value

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[0047] 1.1 Materials and methods

[0048] 1.1.1 Data collection

[0049] Most cancer somatic mutation data used in this study came from ICGC and TCGA databases. In addition, we collected somatic mutations in 25 whole-genome sequenced melanomas and 100 whole-genome sequenced gastric cancers 20,21 . The mutation data set of normal people is obtained from the Thousand Genomes database, and the present invention uses the data of Phase 3 22 .

[0050] First, we filtered out all indels and only kept point mutations for further analysis. Then, use the UCSCliftOver toolkit to change all hg38-annotated mutations to hg19 mutations 23. In order to remove low-confidence SNVs, we filter the somatic mutations of the cancer database and the germline mutations of the 1000 Genomes. The filtered interval collection is downloaded from the BroadInstitute (https: / / personal.broadinstitute.org / anshul / projects / encode / rawdata / blacklists). This list is a collection of all blacklisted regions i...

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Abstract

The invention relates to the technical field of detection of the influence of mutation on the secondary structure of RNA, and particularly relates to a method and a device for predicting the degree ofinfluence of mutation on the secondary structure of RNA based on a EucDiff value. The invention also provides a method for predicting a riboSNitch element rich or deleted in a cancer genome. The present invention further provides software named SNIPER, used for predicting the riboSNitch and identifying non-coding elements rich or absent in tumors.

Description

technical field [0001] The invention relates to the technical field of detecting the impact of mutations on RNA secondary structures, in particular to a method and related equipment for predicting the degree of impact of mutations on RNA secondary structures based on EucDiff values. Background technique [0002] RNA secondary structure can affect cellular processes in many ways, including RNA stability, RNA localization, RNA transcription, RNA processing, and even protein translation. Among them, the single nucleotide variation (SNV) that changes the secondary structure of RNA is called riboSNitch. These mutations may affect human health and cause certain human diseases. Especially for mutations in some non-coding regions, their secondary structures are closely related to gene transcription and translation. RiboSNitch in non-coding regions is specifically studied in the present invention, especially the untranslated regions (UTRs) and non-coding RNAs (ncRNAs) of genes. At...

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G16B20/50G16B50/00
CPCG16B20/50G16B50/00
Inventor 苏志熙何馥男
Owner FUDAN UNIV
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