Difference between revisions of "LINC-ROR"

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''LINC-ROR'', a long non-coding RNA gene that regulates the reprogramming of pluripotent stem cells.
 
==Annotated Information==
 
==Annotated Information==
 
===Name===
 
===Name===
LINC-ROR:long intergenic non-protein coding RNA, regulator of reprogramming <ref name="ref1" />
+
Approved symbol: LINC-ROR
 +
 
 +
Approved name: long intergenic non-protein coding RNA, regulator of reprogramming
 +
 
 +
HGNC ID: HGNC:43773
 +
 
 +
Previous names: 7SK, 7SK small nuclear
  
lincRNA-ST8SIA3 <ref name="ref1" />
+
Alias symbols: lincRNA-RoR; lincRNA-ST8SIA3; ROR
  
RoR <ref name="ref2" />
+
RefSeq ID: NR_048536
  
 
===Characteristics===
 
===Characteristics===
The LINC-ROR gene is 2.6 kb in length, located in chromosome 18 (18q21.31), consisting of four exons <ref name="ref2" />.
+
The ''LINC-ROR'' gene is 2.6 kb in length, located in chromosome 18 (18q21.31), consisting of four exons <ref name="ref2" />.
  
 
===Function===
 
===Function===
[[File:LincRNA-RoR-1.JPG|right|thumb|600px|'''A competition for miR-145 between linc-RoR and mRNAs encoding the core TFs'''<ref name="ref4"
+
''LINC-ROR'' is first found to modulate reprogramming of human induced pluripotent stem cells. ''LINC-ROR'' is p53 repressor in response to DNA damage  <ref name="ref1" />.  
/>.]]
 
  
LINC-ROR is first found to modulate reprogramming of human induced pluripotent stem cells <ref name="ref1" />.  
+
''LINC-ROR'' can suppress p53 translation through direct interaction with the heterogeneous nuclear ribonucleoprotein I (hnRNP I), and inhibit p53-mediated cell cycle arrest and apoptosis <ref name="ref2" />.  
  
LINC-ROR is p53 repressor in response to DNA damage <ref name="ref1" />. LINC-ROR can suppress p53 translation through direct interaction with the heterogeneous nuclear ribonucleoprotein I (hnRNP I), and inhibit p53-mediated cell cycle arrest and apoptosis <ref name="ref2" />.  
+
''LINC-ROR'' also functions as an endogenous miRNA sponge and antagonizes miR-145 to critically regulate the levels of pluripotency transcription factors Oct4, Sox2, and Nanog, in order to ensure embryonic stem cell self-renewal <ref name="ref3" /><ref name="ref4" />.  
  
LINC-ROR also functions as an endogenous miRNA sponge and antagonizes miR-145 to critically regulate the levels of pluripotency transcription factors Oct4, Sox2, and Nanog, in order to ensure embryonic stem cell self-renewal <ref name="ref3" /><ref name="ref4" />.  
+
[[File:LincRNA-RoR-1.JPG|right|thumb|600px|'''A competition for miR-145 between ''linc-RoR'' and mRNAs encoding the core TFs'''<ref name="ref4"/>.]]
  
Linc-RoR can modulate cellular responses during hypoxic stress through modulation of HIF-1a and its downstream targets.<ref name="ref5" />
+
''LINC-ROR'' is involved in modulation of hypoxia-signaling pathways through modulation of HIF-1a and its downstream targets <ref name="ref5" />.
  
 
===Regulation===
 
===Regulation===
Linc-RoR and p53 form a RoR-p53 autoregulatory feedback loop where p53 transcriptionally induces RoR expression.<ref name="ref2" />
+
''LINC-ROR'' and p53 form a RoR-p53 autoregulatory feedback loop where p53 transcriptionally induces RoR expression <ref name="ref2" />.
  
Linc-RoR transcription is mainly controlled by the core TFs Oct4, Sox2, and Nanog <ref name="ref1" /><ref name="ref3" />.
+
''LINC-ROR'' transcription is mainly controlled by the core TFs Oct4, Sox2, and Nanog <ref name="ref1" /><ref name="ref3" /><ref name="ref4" />.
  
 
===Diseases===
 
===Diseases===
Line 32: Line 37:
  
 
===Expression===
 
===Expression===
RoR is highly expressed in embryonic stem cells and iPSCs.<ref name="ref2" />
+
''LINC-ROR'' is highly expressed in embryonic stem cells and iPSCs <ref name="ref2" />.
  
In self-renewing human embryonic stem cells (hESCs), linc-RoR is expressed at a high level and removes trace transcribed miRNAs when hESCs are subjected to temporary and slight differentiation agents.<ref name="ref3" />
+
In self-renewing human embryonic stem cells (hESCs), ''LINC-ROR'' is expressed at a high level <ref name="ref3" /><ref name="ref4" />.
  
Linc-RoR expression is increased in hypoxic regions within tumor cell xenografts in vivo and is highly expressed in extracellular RNA released by hepatocellular cancer (HCC) cells during hypoxia<ref name="ref5" />
+
''LINC-ROR'' expression is increased in hypoxic regions within tumor cell xenografts in vivo and is highly expressed in extracellular RNA released by hepatocellular cancer (HCC) cells during hypoxia <ref name="ref5" />.
  
 
===Sequence===
 
===Sequence===
Line 93: Line 98:
 
<references>
 
<references>
 
<ref name="ref1">
 
<ref name="ref1">
Loewer S, Cabili MN, Guttman M, Loh YH, Thomas K, Park IH, Garber M, Curran M,
+
Loewer S, Cabili MN, Guttman M, Loh Y-H, Thomas K, Park IH et al. Large intergenic non-coding RNA-RoR modulates reprogramming of human induced pluripotent stem cells[J]. Nature genetics. 2010, 42(12):1113-1117.
Onder T, Agarwal S, Manos PD, Datta S, Lander ES, Schlaeger TM, Daley GQ, Rinn
 
JL. Large intergenic non-coding RNA-RoR modulates reprogramming of human induced  
 
pluripotent stem cells. Nat Genet. 2010 Dec;42(12):1113-7.
 
 
</ref>
 
</ref>
  
 
<ref name="ref2">
 
<ref name="ref2">
 
Zhang A, Zhou N, Huang J, Liu Q, Fukuda K, Ma D, Lu Z, Bai C, Watabe K, Mo YY.
 
Zhang A, Zhou N, Huang J, Liu Q, Fukuda K, Ma D, Lu Z, Bai C, Watabe K, Mo YY.
The human long non-coding RNA-RoR is a p53 repressor in response to DNA damage.
+
The human long non-coding RNA-RoR is a p53 repressor in response to DNA damage[J].
Cell Res. 2013 Mar;23(3):340-50.
+
Cell research. 2013,23(3):340-50.
 
</ref>
 
</ref>
  
Line 108: Line 110:
 
Wang Y, Xu Z, Jiang J, Xu C, Kang J, Xiao L, Wu M, Xiong J, Guo X, Liu H.
 
Wang Y, Xu Z, Jiang J, Xu C, Kang J, Xiao L, Wu M, Xiong J, Guo X, Liu H.
 
Endogenous miRNA sponge lincRNA-RoR regulates Oct4, Nanog, and Sox2 in human
 
Endogenous miRNA sponge lincRNA-RoR regulates Oct4, Nanog, and Sox2 in human
embryonic stem cell self-renewal. Dev Cell. 2013 Apr 15;25(1):69-80.
+
embryonic stem cell self-renewal[J]. Developmental cell. 2013,25(1):69-80.
 
</ref>
 
</ref>
  
 
<ref name="ref4">
 
<ref name="ref4">
 
Cheng EC, Lin H. Repressing the repressor: a lincRNA as a MicroRNA sponge in
 
Cheng EC, Lin H. Repressing the repressor: a lincRNA as a MicroRNA sponge in
embryonic stem cell self-renewal. Dev Cell. 2013 Apr 15;25(1):1-2. doi:
+
embryonic stem cell self-renewal[J]. Developmental cell. 2013,25(1):1-2.
10.1016/j.devcel.2013.03.020.
 
 
</ref>
 
</ref>
  
 
<ref name="ref5">
 
<ref name="ref5">
 
Takahashi K, Yan IK, Haga H, Patel T. Modulation of hypoxia-signaling pathways
 
Takahashi K, Yan IK, Haga H, Patel T. Modulation of hypoxia-signaling pathways
by extracellular linc-RoR. J Cell Sci. 2014 Apr 1;127(Pt 7):1585-94. doi:
+
by extracellular linc-RoR[J] Journal of cell science. 2014,127(Pt 7):1585-94.
10.1242/jcs.141069. Epub 2014 Jan 24.
 
 
</ref>
 
</ref>
 
</references>
 
</references>

Latest revision as of 06:15, 10 August 2019

LINC-ROR, a long non-coding RNA gene that regulates the reprogramming of pluripotent stem cells.

Annotated Information

Name

Approved symbol: LINC-ROR

Approved name: long intergenic non-protein coding RNA, regulator of reprogramming

HGNC ID: HGNC:43773

Previous names: 7SK, 7SK small nuclear

Alias symbols: lincRNA-RoR; lincRNA-ST8SIA3; ROR

RefSeq ID: NR_048536

Characteristics

The LINC-ROR gene is 2.6 kb in length, located in chromosome 18 (18q21.31), consisting of four exons [1].

Function

LINC-ROR is first found to modulate reprogramming of human induced pluripotent stem cells. LINC-ROR is p53 repressor in response to DNA damage [2].

LINC-ROR can suppress p53 translation through direct interaction with the heterogeneous nuclear ribonucleoprotein I (hnRNP I), and inhibit p53-mediated cell cycle arrest and apoptosis [1].

LINC-ROR also functions as an endogenous miRNA sponge and antagonizes miR-145 to critically regulate the levels of pluripotency transcription factors Oct4, Sox2, and Nanog, in order to ensure embryonic stem cell self-renewal [3][4].

A competition for miR-145 between linc-RoR and mRNAs encoding the core TFs[4].

LINC-ROR is involved in modulation of hypoxia-signaling pathways through modulation of HIF-1a and its downstream targets [5].

Regulation

LINC-ROR and p53 form a RoR-p53 autoregulatory feedback loop where p53 transcriptionally induces RoR expression [1].

LINC-ROR transcription is mainly controlled by the core TFs Oct4, Sox2, and Nanog [2][3][4].

Diseases

malignant liver cancer [5]

Expression

LINC-ROR is highly expressed in embryonic stem cells and iPSCs [1].

In self-renewing human embryonic stem cells (hESCs), LINC-ROR is expressed at a high level [3][4].

LINC-ROR expression is increased in hypoxic regions within tumor cell xenografts in vivo and is highly expressed in extracellular RNA released by hepatocellular cancer (HCC) cells during hypoxia [5].

Sequence

>NR_048536.1 Homo sapiens long intergenic non-protein coding RNA, regulator of reprogramming (LINC-ROR), long non-coding RNA

000001 GGTGAAATAA ACAGCCATGT TGCTCACACA AAGCCTGTTT GGTGGTCTCT TCACACGGAC GCTCATGAAA TTTGGTGATG 000080
000081 TGACTCGGAT AGGGGGACCT CCCTTGGGAG ATCAGTACCC TGTCCTCCTG CTCTTTGCTC CGTGAGAAAG ATCCACCTAC 000160
000161 AACCTCAGGT CCTTAGACCA ACCAGCCCAA GAAACATCTC ACCAATTTCA AATCCAGACC CCACTGGAAA TCGGACTGTC 000240
000241 CAACTCACCT GACAGCCACT CCCACAGCCG CTGGAACTCT GGCCCAAGGC TCTCTGACTC CTTCCCAGAT CTTCTTGGCT 000320
000321 TAGCGGCTGA AGACTGACGC TGCCCGATCG CCTCGGAAGC CCCCTAGACC ATCACGGACG CCGAGCTTCG GGTAACTCTC 000400
000401 ACAGTGGAAG AAACACAACT ACAGATTTCT ACCTGGTGCA TGGCCATCGC TCATGAAGAC TACAACTTCC AGCTTCCTTT 000480
000481 GAAGAAAAAG AGGACTTGAT GGCATTGTCG CTAAGTAAGA AATAATGTGT GTGACTTCAG GGTTGCCCCC TTAAAGGGAG 000560
000561 GGGACATTTT CCATCCTGCT GTTCAGAGTA TGGATGTGAT GAGAGACATC TTGGATGATG CAGAGGAGGT GAACACCCCA 000640
000641 GGACAATGAA ACCACAGGAG AGAAAGAGCC TGCGCTGGCC CATCTAGCAC AGCCACTGGA CACAGGGACC ACCTGCCTCT 000720
000721 GCACTCTTAT GGAAGGAGGA AATCTAACTT TCCCAGTTTA AGGCACTGTT ACTTTGGGCT CCTGTTACAT AACTGTGGCA 000800
000801 GAATGAAGGT TCAACATGGA AACTGGCAAT GTTGAAGAAA CATAAAGTTC ATTGCTTGAA TATCTGAAGT TGTGGACTCA 000880
000881 ATCTCATACC TGCTCCACTT ATGAGTTATA GTTCTTCCAG GTCTCAGGAA TGGGATCAGC AGGTCTCAGG GTTGTACTCT 000960
000961 CCTGGATCTC TCACCAGCCA CCTCAAACCA GCTGCCATAG CCTGTCCACT TCCACTCCAA TCTTCTCTTC CTTCATCACC 001040
001041 TCCCTTGCAC ACCCTGATAA CCTCGAAAGA GAACTCTTCC CAAGGCTCTG TTCCAAACAC ATCGCCACTC TGCTTAGAAC 001120
001121 CTTCAATGAC TCCTCATGGC CTAGGAGGTT TCTCTCCCAT CTGGATCCAG CTGACGTTCC CAGCACCTTC TCCTGACTCC 001200
001201 TGTCTTTTCT TGAACCAGTT CTGCCCAACA AGGAGGAAAG GGCTGACAGA GTGAAAGTCC CAGGGCATGT GGGAATGTGA 001280
001281 CTCTTTTCAC TTTAAATTCT ATGACTGGAA AGTTTTGGGC AGAGTTGGAC ATGTGCACTT AGCTTCCAGA AGACAGAATC 001360
001361 CTTTTAAAAG AGTCAGAGAA AACACTGGCT TCCTGCCATG ACATGAGATA CAGACAGGAG AGTTGGGAAG CTTTTTAAAG 001440
001441 ATGGCACTAT GACTACAATC ACAGAAACTC TCCATGAGGA AGTAAAAGAA AGCACCTGCA ACACTCCAGC TATGCAGACC 001520
001521 ACTCTGTAAT GGGCTCAGAT CTGGACAGGT GTGTGGAAAG GTGGGTCAAC AGGTCAGGCG TCACAGACTT GGAACATTCA 001600
001601 TGGTGGAAAA GAAAAAGCCC CAAAGAAGAG ACTTCAGGAT AAATGAGAAA ATACTCAAGA CAGCAAAAGT CTCTTTTAGA 001680
001681 AATGTTGGAG AAAGAACACT TAATGTCAGG AGTTACTGTT GATTGATGGC CTTACTGTGT AGCAGGTGAG AAACCCATTG 001760
001761 TTCAGTTCCC TAAAGTCACC CTATTCTCCC AATCATCCTA TGGAGGGGGA ACCATGATGG TTATCCCCAT CTTATAAATA 001840
001841 AAGCAACAGA GGCTTAGAAG GACGAACTCT TTTTCTCAAG GTTACCCAGA TCATTTTGCA GAAGTCCCTA GATTTGAATC 001920
001921 ATGCTCTTGC TTTGAGGTTA AAGACACAGG GGAAGTCGAA CTCCTTATCT CCTATATCCT GAATAGGGAA AACCAAACAT 002000
002001 TGTCAAGAGG AGAGGAAGCC TGAGAGTTGG CATGAATCAG AGTGCTGGGC AGTCTGGAGT CTTCCCCACT GAGTTGATGA 002080
002081 TGGAACAGTA GAGTGGGGCC TGAGCCCCGT TAGGGCATGA GCTGCTGAAT GATTCATGTG AACACCATGC ACATGGGAGT 002160
002161 GAGGTTTTGA GCAGTGTGCC ACAGGAGCCT ACCCTCAGGC CCCACCATAA AATGTAGGGC CAGTCCTACA TTTTATCAAT 002240
002241 GACTTGCGTG AACACAGAAA ATGTGGATAC AACCAAAAGG TAACAATCCA ATTAAAAAAT GGACAAAAAA CTTGAATAAA 002320
002321 CATTTCTCAA AAGAAGATAT ACAAATGATC AAAAAGCATA TGAAAAAATG CTCAACATCG CTAATTGTAA GAGAAATGCA 002400
002401 AATCAAAACT ATAATGAGAT ACCACCTTAT ATTGATTAGG AAGACTGCTA TAAAAATAGT AAACAAACAA ACAAACAAAG 002480
002481 TAAGTCTTGG GGAGGATGCA GAGAAATTAA AATTTTTGTG CACTGTTAGT GGGAATGTAA AATGGTGCAG CTGTTACGGG 002560
002561 AAACGGTATG ACAGTTCCTC AAAAAATAAA A

Labs working on this lncRNA

  • Stem Cell Transplantation Program, Division of Pediatric Hematology and Oncology, Manton Center for Orphan Disease Research, Children's Hospital Boston and Dana Farber Cancer Institute, Boston, Massachusetts, USA.[2]
  • Department of Medical Microbiology, Immunology and Cell Biology, Southern Illinois University School of Medicine, Springfield, IL 62794-9621, USA.[1]
  • Department of Histology and Embryology, College of Basic Medicine, Second Military Medical University, Shanghai 200433, China.[3]
  • Yale Stem Cell Center and Department of Cell Biology, Yale University School of Medicine, New Haven, CT 06509, USA.[4]
  • Mayo Clinic, Jacksonville, FL 32224, USA.[5]

References

  1. 1.0 1.1 1.2 1.3 1.4 Zhang A, Zhou N, Huang J, Liu Q, Fukuda K, Ma D, Lu Z, Bai C, Watabe K, Mo YY. The human long non-coding RNA-RoR is a p53 repressor in response to DNA damage[J]. Cell research. 2013,23(3):340-50.
  2. 2.0 2.1 2.2 Loewer S, Cabili MN, Guttman M, Loh Y-H, Thomas K, Park IH et al. Large intergenic non-coding RNA-RoR modulates reprogramming of human induced pluripotent stem cells[J]. Nature genetics. 2010, 42(12):1113-1117.
  3. 3.0 3.1 3.2 3.3 Wang Y, Xu Z, Jiang J, Xu C, Kang J, Xiao L, Wu M, Xiong J, Guo X, Liu H. Endogenous miRNA sponge lincRNA-RoR regulates Oct4, Nanog, and Sox2 in human embryonic stem cell self-renewal[J]. Developmental cell. 2013,25(1):69-80.
  4. 4.0 4.1 4.2 4.3 4.4 Cheng EC, Lin H. Repressing the repressor: a lincRNA as a MicroRNA sponge in embryonic stem cell self-renewal[J]. Developmental cell. 2013,25(1):1-2.
  5. 5.0 5.1 5.2 5.3 Takahashi K, Yan IK, Haga H, Patel T. Modulation of hypoxia-signaling pathways by extracellular linc-RoR[J] Journal of cell science. 2014,127(Pt 7):1585-94.