Difference between revisions of "NONHSAT096369"

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===Function===
 
===Function===
[[File: ''DANCR'' regulates a global gene expression program associated with epidermal differentiation..jpg|right|thumb|400px|'''ANCR regulates a global gene expression program associated with epidermal differentiation.''' <ref name="ref1" />.]]
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''DANCR'' suppresses a genetic program associated with epidermal differentiation. Depleting ''DANCR'' in progenitor-containing populations, without any other stimuli, led to rapid differentiation gene induction. In epidermis, ANCR loss abolished the normal exclusion of differentiation from the progenitor-containing compartment. The ''DANCR'' lncRNA is thus required to enforce the undifferentiated cell state within epidermis <ref name="ref1" />.
''DANCR''suppresses a genetic program associated with epidermal differentiation. Depleting ''DANCR'' in progenitor-containing populations, without any other stimuli, led to rapid differentiation gene induction. In epidermis, ANCR loss abolished the normal exclusion of differentiation from the progenitor-containing compartment. The ''DANCR'' lncRNA is thus required to enforce the undifferentiated cell state within epidermis <ref name="ref1" />.
 
  
 
===Regulation===
 
===Regulation===

Revision as of 07:18, 17 November 2018

DANCR: A valuable cancer related long non-coding RNA for human cancers

Annotated Information

Approved Symbol

DANCR

Approved Name

DANCR: Differentiation antagonizing non-protein coding RNA(HGNC nomenclature). "anti-differentiation ncRNA", "anti-differentiation noncoding RNA", lncRNA-ANCR[1] KIAA0114,"KIAA0114"[2] "small nucleolar RNA host gene 13 (non-protein coding)", SNHG13 "adipogenesis up-regulated transcript 2", AGU2[3]

Characteristics

The DANCR gene is 855-base-pair long noncoding RNA located on human chromosome 4, with the closest adjacent annotated genes located 54.8 kb upstream of (USP46) and 28.7 kb downstream from (ERVMER34-1) the DANCR locus. The DANCR locus consists of three exons and harbors a microRNA (MIR4449) and a snoRNA (SNORA26) in introns 1 and 2, respectively. These small RNAs are not coordinately expressed with DANCR and are not part of the mature DANCR transcript. [1]. DANCR contains another conserved GC-rich region in the first intron, which may be processed as a not-yet-annotated small functional RNA. This notion does, however, require more intensive analysis of the function of DANCR. From an evolutionary perspective, it is of interest that transcription units of DANCR as well as AGD2 are shaped by retrotransposons. AGU2 contains a long terminal repeat (LTR)-like element, which provides its polyA signal.[3]

Function

DANCR suppresses a genetic program associated with epidermal differentiation. Depleting DANCR in progenitor-containing populations, without any other stimuli, led to rapid differentiation gene induction. In epidermis, ANCR loss abolished the normal exclusion of differentiation from the progenitor-containing compartment. The DANCR lncRNA is thus required to enforce the undifferentiated cell state within epidermis [1].

Regulation

AGU2 induction conteol DANCR regulation[3].

Disease

  • Breast Cancer [4]
  • Colorectal Cancer [4]
  • Hepatocellular Cancer [4]
  • Gastric Cancer [4]
  • Glioma [4]
  • Osteosarcoma [4]
  • Prostate Cancer [4]

Expression

Long non-coding RNAs-DANCR is a valuable cancer-related lncRNA that its dysregulated expression was found in a variety of malignancies, including hepatocellular carcinoma, breast cancer, glioma, colorectal cancer,gastric cancer, and lung cancer. The aberrant expressions of DANCR have been shown to contribute to proliferation,migration and invasion of cancer cells [4]

Labs working on this lncRNA

  • Veterans Affairs Palo Alto Healthcare System, Palo Alto, California 94304, USA.
  • Kazusa DNA Research Institute, Chiba, Japan
  • Department & Program of Clinical Laboratory Medicine, Center for Gene Diagnosis, Zhongnan Hospital of Wuhan University, Wuhan China
  • Department of Pain Management, Zhongnan Hospital of Wuhan University, Wuhan 430071, China
  • Department of Radiology & Nuclear Medicine, Zhongnan Hospital of Wuhan University, Wuchang, Hubei Province, Wuhan, 430071, China

References

  1. 1.0 1.1 1.2 Kretz M, Webster DE, Flockhart RJ, Lee CS, Zehnder A, Lopez-Pajares V, et al. Suppression of progenitor differentiation requires the long noncoding RNA ANCR[J]. Genes & development. 2012,26(4):338-43.
  2. Nagase T, Miyajima N, Tanaka A, Sazuka T, Seki N, Sato S, et al. Prediction of the coding sequences of unidentified human genes. III. The coding sequences of 40 new genes (KIAA0081-KIAA0120) deduced by analysis of cDNA clones from human cell line KG-1[J]. DNA research : an international journal for rapid publication of reports on genes and genomes. 1995,2(1):37-43.
  3. 3.0 3.1 3.2 Kikuchi K, Fukuda M, Ito T, Inoue M, Yokoi T, Chiku S, et al. Transcripts of unknown function in multiple-signaling pathways involved in human stem cell differentiation[J]. Nucleic acids research. 2009,37(15):4987-5000
  4. 4.0 4.1 4.2 4.3 4.4 4.5 4.6 4.7 Thin KZ, Liu X, Feng X, Raveendran S & Tu JC. LncRNA-DANCR: A valuable cancer related long non-coding RNA for human cancers[J]. Pathology-Research and Practice. 2018

Sequence

>gi|57291|ref|024031.2|Homo sapiens differentiation antagonizing non-protein coding RNA (DANCR), transcript variant 1, long non-coding RNA

000001 CCTCGCGACC CTCCTGCTTC CCTCCCCGCC CCGCGCCGCC TCTCTGGTTT GTGCGCCCGT CGCAGGTCGC AGGCCTCTTT 000080
000081 GTCAGCTGGA GTTGCGCGGG CTGACGCGCC ACTATGTAGC GGGTTTCGGG CGGGCCACGC GTGCGGGACA GGAACCCAAC 000160
000161 CCCAGCCGAC CTTGAGCTCC AGGAGTTCGT CTCTTACGTC TGCGGAAGTG CAGCTGCCTC AGTTCTTAGC GCAGGTTGAC 000240
000241 AACTACAGGC ACAAGCCATT GAAGCTGGAA TGTCCTGTTG CTGGTATTTC AATTGACTTA AGCCAACTAT CCCTTCAGTT 000320
000321 ACAATAGGAA AGTGCCTCTA ATAAGGCCAA ATATGCGTAC TAACTTGTAG CAACCACGTG TCCGTGCAGT GCCACAGGAG 000400
000401 CTAGAGCAGT GACAATGCTG GTGGCAACAG GGCAGTGTAG CAGGTGCTTC ATGTTCACCT TTTCAACCTT TTCATTTAAT 000480
000481 TGTCACAACT CGGAGGTGGA TTCTGTTAGG GACAGGCTGC CCCAGGACCA CTCCGCCCCC GCTAACTCAA TGCAGCTGAC 000560
000561 CCTTACCCTG AATACTCTGC AGCTGCATTC CTGAACCGTT ATCTAGGCGC TATAGCAAGG TCACCAGACT TGCTACACCG 000640
000641 AAGCCCTCTG GGTGGCACGG GGGAGGTCAT GAGAAACGTG GATTACACCC CCTTGTAAAT TCCTATTTTC ACAAGATAAT 000720
000721 ATATTGTAAG CCGGTCATGA GATTATATGT GGTAAAGTTA ATTGACTAAC AACCCCAGGG TCTCTCTCCC CCATATAAAC 000800
000801 CCCTCATTTT GTAAGCTCAG GGCTGCCACC TCCGACTGGT GGAGAAGCCT GGCAGGTTAA TAAACTTACT TGGCCTGA