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Previous release (v1)
2024-05-01 12:59:28, GGRNA.v2 : RefSeq release 222 (Jan, 2024)
LOCUS NR_039729 84 bp RNA linear PRI 31-JUL-2023
DEFINITION Homo sapiens microRNA 2392 (MIR2392), microRNA.
ACCESSION NR_039729
VERSION NR_039729.1
KEYWORDS RefSeq.
SOURCE Homo sapiens (human)
ORGANISM Homo sapiens
Eukaryota; Metazoa; Chordata; Craniata; Vertebrata; Euteleostomi;
Mammalia; Eutheria; Euarchontoglires; Primates; Haplorrhini;
Catarrhini; Hominidae; Homo.
REFERENCE 1 (bases 1 to 84)
AUTHORS Aalikhani M, Alikhani M, Khajeniazi S, Khosravi A, Bazi Z and
Kianmehr A.
TITLE Positive effect of miR-2392 on fibroblast to cardiomyocyte-like
cell fate transition: An in silico and in vitro study
JOURNAL Gene 879, 147598 (2023)
PUBMED 37393060
REMARK GeneRIF: Positive effect of miR-2392 on fibroblast to
cardiomyocyte-like cell fate transition: An in silico and in vitro
study.
REFERENCE 2 (bases 1 to 84)
AUTHORS Sun B, Ji W, Liu C, Lin X, Chen L, Qian H and Su C.
TITLE miR-2392 functions as tumour suppressor and inhibits malignant
progression of hepatocellular carcinoma via directly targeting JAG2
JOURNAL Liver Int 42 (7), 1658-1673 (2022)
PUBMED 35485355
REMARK GeneRIF: miR-2392 functions as tumour suppressor and inhibits
malignant progression of hepatocellular carcinoma via directly
targeting JAG2.
REFERENCE 3 (bases 1 to 84)
AUTHORS McDonald JT, Enguita FJ, Taylor D, Griffin RJ, Priebe W, Emmett MR,
Sajadi MM, Harris AD, Clement J, Dybas JM, Aykin-Burns N, Guarnieri
JW, Singh LN, Grabham P, Baylin SB, Yousey A, Pearson AN, Corry PM,
Saravia-Butler A, Aunins TR, Sharma S, Nagpal P, Meydan C, Foox J,
Mozsary C, Cerqueira B, Zaksas V, Singh U, Wurtele ES, Costes SV,
Davanzo GG, Galeano D, Paccanaro A, Meinig SL, Hagan RS, Bowman NM,
Wolfgang MC, Altinok S, Sapoval N, Treangen TJ, Moraes-Vieira PM,
Vanderburg C, Wallace DC, Schisler JC, Mason CE, Chatterjee A,
Meller R and Beheshti A.
CONSRTM UNC COVID-19 Pathobiology Consortium
TITLE Role of miR-2392 in driving SARS-CoV-2 infection
JOURNAL Cell Rep 37 (3), 109839 (2021)
PUBMED 34624208
REMARK GeneRIF: Role of miR-2392 in driving SARS-CoV-2 infection.
REFERENCE 4 (bases 1 to 84)
AUTHORS Hou Z, Fan F and Liu P.
TITLE BTXA regulates the epithelial-mesenchymal transition and autophagy
of keloid fibroblasts via modulating miR-1587/miR-2392 targeted
ZEB2
JOURNAL Biosci Rep 39 (10) (2019)
PUBMED 31652445
REMARK GeneRIF: BTXA regulates the epithelial-mesenchymal transition and
autophagy of keloid fibroblasts via modulating miR-1587/miR-2392
targeted ZEB2.
REFERENCE 5 (bases 1 to 84)
AUTHORS Yang J, Li C, Li H and E C.
TITLE LncRNA CACNA1G-AS1 facilitates hepatocellular carcinoma progression
through the miR-2392/C1orf61 pathway
JOURNAL J Cell Physiol 234 (10), 18415-18422 (2019)
PUBMED 30908634
REMARK GeneRIF: CACNA1G-AS1 promotes hepatocellular carcinoma progression
through regulating the miR-2392/C1orf61 pathway.
REFERENCE 6 (bases 1 to 84)
AUTHORS Li J, Li T, Lu Y, Shen G, Guo H, Wu J, Lei C, Du F, Zhou F, Zhao X,
Nie Y and Fan D.
TITLE MiR-2392 suppresses metastasis and epithelial-mesenchymal
transition by targeting MAML3 and WHSC1 in gastric cancer
JOURNAL FASEB J 31 (9), 3774-3786 (2017)
PUBMED 28512191
REMARK GeneRIF: These findings indicate that the
miR-2392-MAML3/WHSC1-Slug/Twist1 regulatory axis plays a critical
role in GC metastasis.
REFERENCE 7 (bases 1 to 84)
AUTHORS Enomoto Y, Takagi R, Naito Y, Kiniwa T, Tanaka Y, Hamada-Tsutsumi
S, Kawano M, Matsushita S, Ochiya T and Miyajima A.
TITLE Identification of the novel 3' UTR sequences of human IL-21 mRNA as
potential targets of miRNAs
JOURNAL Sci Rep 7 (1), 7780 (2017)
PUBMED 28798470
REMARK Publication Status: Online-Only
REFERENCE 8 (bases 1 to 84)
AUTHORS Jima DD, Zhang J, Jacobs C, Richards KL, Dunphy CH, Choi WW, Au WY,
Srivastava G, Czader MB, Rizzieri DA, Lagoo AS, Lugar PL, Mann KP,
Flowers CR, Bernal-Mizrachi L, Naresh KN, Evens AM, Gordon LI,
Luftig M, Friedman DR, Weinberg JB, Thompson MA, Gill JI, Liu Q,
How T, Grubor V, Gao Y, Patel A, Wu H, Zhu J, Blobe GC, Lipsky PE,
Chadburn A and Dave SS.
CONSRTM Hematologic Malignancies Research Consortium
TITLE Deep sequencing of the small RNA transcriptome of normal and
malignant human B cells identifies hundreds of novel microRNAs
JOURNAL Blood 116 (23), e118-e127 (2010)
PUBMED 20733160
REFERENCE 9 (bases 1 to 84)
AUTHORS Griffiths-Jones S, Grocock RJ, van Dongen S, Bateman A and Enright
AJ.
TITLE miRBase: microRNA sequences, targets and gene nomenclature
JOURNAL Nucleic Acids Res 34 (Database issue), D140-D144 (2006)
PUBMED 16381832
COMMENT PROVISIONAL REFSEQ: This record is based on preliminary annotation
provided by NCBI staff in collaboration with miRBase. The reference
sequence was derived from AL117190.6.
Summary: microRNAs (miRNAs) are short (20-24 nt) non-coding RNAs
that are involved in post-transcriptional regulation of gene
expression in multicellular organisms by affecting both the
stability and translation of mRNAs. miRNAs are transcribed by RNA
polymerase II as part of capped and polyadenylated primary
transcripts (pri-miRNAs) that can be either protein-coding or
non-coding. The primary transcript is cleaved by the Drosha
ribonuclease III enzyme to produce an approximately 70-nt stem-loop
precursor miRNA (pre-miRNA), which is further cleaved by the
cytoplasmic Dicer ribonuclease to generate the mature miRNA and
antisense miRNA star (miRNA*) products. The mature miRNA is
incorporated into a RNA-induced silencing complex (RISC), which
recognizes target mRNAs through imperfect base pairing with the
miRNA and most commonly results in translational inhibition or
destabilization of the target mRNA. The RefSeq represents the
predicted microRNA stem-loop. [provided by RefSeq, Sep 2009].
Sequence Note: This record represents a predicted microRNA
stem-loop as defined by miRBase. Some sequence at the 5' and 3'
ends may not be included in the intermediate precursor miRNA
produced by Drosha cleavage.
PRIMARY REFSEQ_SPAN PRIMARY_IDENTIFIER PRIMARY_SPAN COMP
1-84 AL117190.6 54607-54690
FEATURES Location/Qualifiers
source 1..84
/organism="Homo sapiens"
/mol_type="transcribed RNA"
/db_xref="taxon:9606"
/chromosome="14"
/map="14q32.2"
gene 1..84
/gene="MIR2392"
/note="microRNA 2392"
/db_xref="GeneID:100616495"
/db_xref="HGNC:HGNC:41843"
/db_xref="miRBase:MI0016870"
precursor_RNA 1..84
/gene="MIR2392"
/product="microRNA 2392"
/db_xref="GeneID:100616495"
/db_xref="HGNC:HGNC:41843"
/db_xref="miRBase:MI0016870"
exon 1..84
/gene="MIR2392"
/inference="alignment:Splign:2.1.0"
variation 1
/gene="MIR2392"
/replace="a"
/replace="g"
/db_xref="dbSNP:558004045"
variation 9
/gene="MIR2392"
/replace=""
/replace="t"
/db_xref="dbSNP:2139913660"
variation 9
/gene="MIR2392"
/replace="c"
/replace="t"
/db_xref="dbSNP:1595240852"
variation 10
/gene="MIR2392"
/replace="a"
/replace="c"
/db_xref="dbSNP:2139913661"
variation 13
/gene="MIR2392"
/replace="a"
/replace="g"
/db_xref="dbSNP:1367312817"
variation 14
/gene="MIR2392"
/replace="a"
/replace="g"
/db_xref="dbSNP:182974078"
variation 15
/gene="MIR2392"
/replace="c"
/replace="t"
/db_xref="dbSNP:1595240863"
variation 22
/gene="MIR2392"
/replace="a"
/replace="g"
/db_xref="dbSNP:1480254330"
variation 23
/gene="MIR2392"
/replace="c"
/replace="t"
/db_xref="dbSNP:2037087052"
variation 25
/gene="MIR2392"
/replace="a"
/replace="c"
/replace="t"
/db_xref="dbSNP:2037087073"
variation 26
/gene="MIR2392"
/replace="a"
/replace="c"
/replace="g"
/db_xref="dbSNP:917382033"
variation 28
/gene="MIR2392"
/replace="c"
/replace="t"
/db_xref="dbSNP:2139913676"
variation 29
/gene="MIR2392"
/replace="a"
/replace="g"
/db_xref="dbSNP:73347569"
variation 32
/gene="MIR2392"
/replace="a"
/replace="c"
/replace="t"
/db_xref="dbSNP:557023035"
variation 33
/gene="MIR2392"
/replace="c"
/replace="t"
/db_xref="dbSNP:997221201"
variation 34
/gene="MIR2392"
/replace="a"
/replace="t"
/db_xref="dbSNP:1250435089"
variation 37
/gene="MIR2392"
/replace="c"
/replace="t"
/db_xref="dbSNP:2037087263"
variation 38
/gene="MIR2392"
/replace="a"
/replace="g"
/db_xref="dbSNP:2037087286"
variation 39
/gene="MIR2392"
/replace="c"
/replace="g"
/db_xref="dbSNP:2037087314"
variation 42
/gene="MIR2392"
/replace="c"
/replace="t"
/db_xref="dbSNP:1259174581"
variation 44
/gene="MIR2392"
/replace="c"
/replace="g"
/replace="t"
/db_xref="dbSNP:1044641262"
variation 45
/gene="MIR2392"
/replace="a"
/replace="g"
/db_xref="dbSNP:1206095780"
variation 46
/gene="MIR2392"
/replace="a"
/replace="g"
/db_xref="dbSNP:1266535249"
variation 51
/gene="MIR2392"
/replace="c"
/replace="t"
/db_xref="dbSNP:1259479156"
variation 52
/gene="MIR2392"
/replace="c"
/replace="t"
/db_xref="dbSNP:1218841974"
variation 53
/gene="MIR2392"
/replace="c"
/replace="g"
/db_xref="dbSNP:1250234556"
variation 54
/gene="MIR2392"
/replace="c"
/replace="t"
/db_xref="dbSNP:576509898"
variation 57
/gene="MIR2392"
/replace="c"
/replace="g"
/db_xref="dbSNP:1272853344"
variation 58
/gene="MIR2392"
/replace="a"
/replace="c"
/db_xref="dbSNP:779172086"
ncRNA 61..80
/ncRNA_class="miRNA"
/gene="MIR2392"
/product="hsa-miR-2392"
/db_xref="miRBase:MIMAT0019043"
/db_xref="GeneID:100616495"
/db_xref="HGNC:HGNC:41843"
/db_xref="miRBase:MI0016870"
variation 61
/gene="MIR2392"
/replace="c"
/replace="t"
/db_xref="dbSNP:1193524402"
variation 62
/gene="MIR2392"
/replace="a"
/replace="aa"
/db_xref="dbSNP:2139913704"
variation 63..64
/gene="MIR2392"
/replace="g"
/replace="gg"
/db_xref="dbSNP:2037087567"
variation 64
/gene="MIR2392"
/replace="c"
/replace="g"
/db_xref="dbSNP:1235148713"
variation 65
/gene="MIR2392"
/replace="a"
/replace="g"
/db_xref="dbSNP:118055959"
variation 67
/gene="MIR2392"
/replace="a"
/replace="g"
/db_xref="dbSNP:1566709192"
variation 71
/gene="MIR2392"
/replace="a"
/replace="g"
/db_xref="dbSNP:1595240889"
variation 72
/gene="MIR2392"
/replace="g"
/replace="t"
/db_xref="dbSNP:1595240892"
variation 77
/gene="MIR2392"
/replace="a"
/replace="c"
/replace="g"
/db_xref="dbSNP:761601922"
variation 80
/gene="MIR2392"
/replace="a"
/replace="g"
/db_xref="dbSNP:1402511503"
variation 81
/gene="MIR2392"
/replace="c"
/replace="g"
/db_xref="dbSNP:2037087734"
variation 82
/gene="MIR2392"
/replace=""
/replace="t"
/db_xref="dbSNP:2139913722"
ORIGIN
atggtccctcccaatccagccattcctcagaccaggtggctcccgagccaccccaggctgtaggatgggggtgagaggtgctag
//
by
@meso_cacase at
DBCLS
This page is licensed under a
Creative Commons Attribution 4.0 International License (CC BY 4.0).
If you use GGRNA in your work, please cite:
Naito Y, Bono H. (2012)
GGRNA: an ultrafast, transcript-oriented search engine for genes and transcripts.
Nucleic Acids Res., 40, W592-W596.
[Full Text]