错误信息提示:
错误号:12142

错误原因:Table 'hscellor_ncrdeathdb.ncrnadeathmiRNA2targetDB' doesn't exist

错误sql语句:
select * from ncrnadeathmiRNA2targetDB where mirnaSymbol like '%miR-155' and taxid like '9606'
——错误记录被保存!

ncRNADetailInformation
  • Detail Information
  • Functional analysis
miRNA namepre-miRNA familypre-miRNA Sequencemature-miRNAmature sequencepre-miRNA description
miR-155
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0004658

hsa-miR-155-3p 		CUCCUACAUAUUAGCAUUAACA Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
MI0000681 MIPF0000157 CUGUUAAUGCUAAUCGUGAUAGGGGUUUUUGCCUCCAACUGACUCCUACAUAUUAGCAUUAACAG MIMAT0000646

hsa-miR-155-5p 		UUAAUGCUAAUCGUGAUAGGGGU Human mir-155 is predicted based on homology to a cloned miR from mouse(MIR:MI0000177) , and later experimentally validated in human HL-60leukemia cells . Like the mouse miRNA, human mir-155 resides in thenon-coding BIC transcript (EMBL:AF402776), located on chromosome 21 .The mature form differs from that in mouse at a single position. Eis etal. confirm that miR-155 is processed from the BIC transcript in human,and demonstrate elevated expression of miR-155 in lymphoma samples .The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
link to database TargetScanS 6.2 | MicroCosm | microRNA.org | miRNAMap 2.0
Interacted genes from RAID,miRTarBase
CIAPIN1,SKI,RAD23B,ACTR2,RAD1,ARMC2,INTS6,SLC7A1,SMAD2,DR1,LRRC40,GSK3B,CAB39L,INPP5F,SMAD1
more » CIAPIN1,SKI,RAD23B,ACTR2,RAD1,ARMC2,INTS6,SLC7A1,SMAD2,DR1,LRRC40,GSK3B,CAB39L,INPP5F,SMAD1,UBA3,CUTA,TRIO,RAB23,CDC73,EIF4E2,FOXK1,RBM42,KIAA1715,IPO8,MRPL16,EIF3CL,NSUN5,PDLIM5,EXOC3,MGST2,LCLAT1,NCAPD2,TBC1D14,SEPT11,SPI1,ARL5A,ERMP1,VPS4B,ASPH,XPO1,PAM16,AXL,PPP5C,MPZL1,DCAF7,BACE1,NAA50,LTN1,MRS2,PIK3R1,EIF4A1,PICALM,POLE4,RAB11FIP2,TPRKB,FAM3C,ACOT7,SLC33A1,TMEM167A,SLC9A3R2,TGM2,DBN1,MBLAC2,CDK4,PBRM1,FLNA,GMPPA,BCL7C,FUBP1,RUNX2,NCKAP1,TICAM2,MAFB,ZNF611,KBTBD2,ZNF652,AIMP1,KIAA0368,DDX10,ARID2,MARC2,STXBP2,BRPF3,ZNF493,BCL6,PTPRJ,FLT1,MOV10,PDAP1,TMX3,HSD17B7,ADH5,DET1,JUNB,UBE2J1,C10orf26,POLR1B,RPRD1A,RHOA,PALLD,SLC1A5,PKIA,CCL2,EPB41L2,LPIN1,KIAA1274,CISD2,TAF5L,SMARCE1,ERGIC1,EIF3A,ARL6IP5,TPP2,OLR1,DHCR24,HEATR2,B4GALT1,PSIP1,RTKN,THBS1,KLHL5,MSH2,ANAPC16,EXOSC2,RREB1,PACSIN3,RAP1B,PYGL,PHF6,EIF2B2,CDKN2A,EHD1,HNRNPA3,TWF1,ASNS,CSNK1A1L,DOCK4,DRAP1,C3orf64,HDAC4,MECP2,SECISBP2,CCDC82,SEC24B,KIAA0430,DEGS1,UFL1,APAF1,MPP5,DIAPH3,SLC30A7,METTL7A,NUCKS1,GOLT1B,CNNM3,MAP3K10,SRPK2,LARS,TYSND1,CDK5RAP3,ARPC3,CTAGE5,VCAM1,GPT2,SCD,NAMPT,PRKCI,PRSS21,FAM105B,MSI2,CTLA4,C5orf41,DEK,C3orf58,MASTL,UAP1,YWHAZ,CTSA,TCF12,SMARCA4,DPP7,RIOK2,SOCS1,CD3EAP,KIF14,PPFIBP1,GPM6B,STAG2,ANPEP,PHF17,ARL15,ARL10,ZNF248,STAT3,RPS6KB2,RCOR1,SMARCD2,SPECC1,TNFRSF10A,POLR2C,CD68,WDR11,FIP1L1,LONP2,PDPR,TMTC3,RSF1,CLINT1,ITGB5,MTAP,TMOD3,SLC38A5,RBAK,AGL,FMNL2,CARS2,FADS1,MYO10,CHAF1B,CPT1A,MATR3,MTFMT,LEMD3,AURKA,ZNF207,GLT25D1,IL13RA1,MFF,CCND1,CLUAP1,ERI1,CDH13,RAB27B,FKBP3,DDX17,MAN1A2,ETS1,WRB,F5,ICAM1,TMBIM6,FLI1,RAPGEF2,QRICH1,CALU,DHX40,SLC25A19,GPAM,PSME3,TSHZ3,AGRN,EIF3E,NOVA1,ATPAF1,POLE3,IFNGR1,TRAM1,CHD9,SKIV2L2,RHEB,RAB6C,TIMM13,GNB4,OXNAD1,NUPL2,ALDH3A2,NT5E,SLC27A2,SUPT5H,EIF4G2,FAM135A,PRKAR2A,COL4A2,GHITM,STRBP,RNF2,MYO1E,FAR1,SAP30L,SPCS1,SLC35F2,UBE2J2,ARL5B,ALDH1A2,CEP55,SACM1L,INTS10,EEF1E1,CARD11,CDC40,PACSIN2,THOC7,ARFIP2,ZNF561,HSD17B12,NR3C1,NEU1,ZIC3,ATL2,GLG1,SIN3A,CDH6,SPIN1,EXOC2,ZKSCAN5,SNTB2,NOTCH2,COPS3,DDB2,KDM3A,EPRS,RAB5C,S100A11,SUZ12,RAC1,KRCC1,ATP13A1,GAR1,NSA2,ANXA2,TNPO1,MLH1,OXCT1,CRAT,UPF2,CSDA,PCCB,LEPREL2,VAMP3,EDN1,OSBPL10,PFDN4,IL6,SLC25A40,SSSCA1,PTMS,C3orf26,IMPAD1,NFKB1,KIF22,RRM2,IL8,CLTC,SLC12A4,C16orf62,GMPS,BCL2,NOS3,SLC2A3,PODXL,EDEM3,WWC1,LIN7C,EGFR,GNAS,RAI14,RRAGA,HK2,PNPT1,TOMM20,GNPNAT1,PLEKHA5,WHSC1L1,PUS7,VPS18,UQCRFS1,PSME4,RAB34,CHTOP,BAG5,VBP1,TFCP2,TPD52,ERBB2IP,EIF3G,TAB2,C17orf80,TM6SF1,EEF1A2,KDELC1,MBNL3,UBE2H,AKR1C3,IKBKE,PDE12,GLB1,ATP6V1C1,AP1G1,HAX1,MECR,LRRC59,CARHSP1,BACH1,IRAK3,AIFM1,TJP1,TNFAIP2,PCYOX1,TBCA,LUC7L2,MYB,IER3IP1,QPCTL,LSM3,GCFC2,CDH2,SCAMP1,INPP5D,BCAT1,FAM91A1,ABHD16A,RICTOR,MEIS1,EIF3J,GABARAPL1,SLC39A14,RAB30,SGPL1,CLIC4,PDCD10,CD81,TPBG,CSF1R,PAPOLA,SRSF2,CTNNB1,MITF,ASB6,KRT80,PLK1,FMNL3,SELE,PSMG1,PELI1,FSTL1,CCR9,CCDC137,LCORL,RAB6A,DNAJB1,ARL8B,OBSCN,BET1,C9orf142,HTRA1,OSBPL9,TNKS1BP1,UBA2,RPAP1,NUP155,DNAJC19,DAG1,INA,LPL,SMAD4,ANKFY1,LDOC1,HAL,NCAPG,CD109,PKN2,TLE4,EIF2B5,MOSPD2,PLAUR,PNPLA8,RBPJ,RNF123,LUZP1,VANGL1,ADAM10,STIM1,TACSTD2,GAPVD1,METAP2,VPS36,CBFB,LUC7L3,NMD3,JUP,VAV2,CREB3,PSEN1,KCNH1,C12orf10,SLC7A11,RPL39,C20orf43,AKR7A2,FDFT1,LPGAT1,ANTXR1,ZNF273,CAT,MTHFD2,HIF1A,MPP2,CNDP2,ESRRA,ZNF254,RING1,FLNB,STRN,MRPS27,GATM,COG2,UBQLN1,FAM98B,PRKAR1A,MYO1D,TSPAN3,DMD,NES,ARGLU1,CKAP5,HBP1,DYNC2H1,MSH6,PSAT1,INTS4,FAM96B,FOS,RETSAT,L2HGDH,NAA25,UGT8,EIF3C,ECI1,TCEA1,YARS,TFPI,HSPB11,PPM1G,CAB39,GNL3L,ZNF384,UBE2D3,BRI3BP,NOB1,CTNNA1,TRMT1,UBXN1,TTF1,STX5,SH3BP4,MRPL18,CBR4,RDH13,NEUROG1,UBR4,ALDH5A1,HSPA4L,KDELC2,TMEM33,DNAJC2,PGRMC2,RIF1,MRPS34,INTS8,RBM22,H2AFY,KANK2,FGF2,HNRNPA3P1,MMS22L,CEP41,RAB14,TRIM24,RAB2A,SNX6,CDK5,WEE1,ARFIP1,PMAIP1,EIF3F,HSDL1,CD36,RCN2,LAT2,E2F2,CARS,PRAF2,GLIPR2,DDRGK1,JUN,WDFY1,INTS7,PHF14,SDCBP,CAMTA1,TOMM34,OVCA2,CYFIP1,PLS1,MEST,TIMM8A,APC,KRT6B,MAVS,SYNE2,GNA13,CLDN1,XPC,TRAK1,MYO6,SOX6,CCDC41,OGFOD1,CFL2,RARS,FAM199X,CUL4B,HERC4,MYBL1,ABCC4,LNX2,CECR5,CHRAC1,LY6K,FNDC3B,C3orf18,SSX2IP,CORO1B,TCF4,PAK2,ATP6V1H,AMIGO2,GCFC1,KRAS,NFATC2IP,MUS81,TXNDC12,ZNF28,PPP2R2A,ZNF83,KDM1A,CPD,NARS,DCUN1D2,SMAD3,PPL,EXOC7,CSNK1A1,FUBP3,SNAP29,SLC30A1,ITGB4,CSE1L,SMAD5,IKBIP,STK24,DNMT1,CUX1,EIF2C4,AURKB,FAM177A1,CDC42BPB,HIVEP2,RTN3,MUT,TP53INP1,GLIPR1,CYR61,MORC3,TBC1D8B,SERTAD2,CDK2,PEBP1,PDE3A,PHC2,ATXN10,MARCKS,PNPLA4,CCT2,PDK1,VEZF1,ZNF236,TRIM32,NOLC1,PCDH9,TROVE2,FAM120A,FOXO3,MAT2B,TTC37,MAP3K14,CREB1,CEBPB,NFYC,CLTA,MYD88,JARID2,CASP3,UGDH,IGJ,UBQLN2,CYP51A1,ATG3,RP2,SLC39A10,TRIP13,GRPEL1,CHAF1A,GEMIN5,FASTKD1,FGF7,MEF2A,PHGDH,MCAM,BUD31,LRIF1,ALDH9A1,IGF2R,NUP62,PCNT,UBTD2,WNT5A,TSPAN14,GOLPH3,CNOT10,MCM8,CYP2U1,PLXND1,CIAO1,IL17RB,CTNNBL1,DSG2,TXNRD1,SYPL1,NASP,GCLC,RQCD1,MARC1,AGTR1,GCET2
KEGG pathways enriched for interacted genes
pathway namepathway descriptiontarget genes enrich in pathwayp-value
hsa05210 Colorectal cancer JUN,CCND1,BCL2,MLH1,EGFR,GSK3B,MSH2,APC,KRAS,CASP3,CTNNB1,SMAD3,SMAD4,MSH6,FOS,PIK3R1,RAC1,SMAD2, 2.06E-6
hsa05200 Pathways in cancer JUN,CSF1R,STAT3,EGFR,GSK3B,KRAS,CDKN2A,FGF7,JUP,WNT5A,CTNNB1,FGF2,RHOA,MSH6,IL8,CCND1,BCL2,COL4A2,MLH1,MSH2,CDK2,HIF1A,SPI1,APC,CDK4,CASP3,E2F2,MITF,SMAD3,ETS1,SMAD4,NFKB1,FOS,CTNNA1,IL6,RAC1,PIK3R1,SMAD2, 1.52E-5
hsa05212 Pancreatic cancer CCND1,STAT3,EGFR,KRAS,CDKN2A,CDK4,E2F2,SMAD3,SMAD4,NFKB1,PIK3R1,RAC1,SMAD2, 4.66E-4
hsa05213 Endometrial cancer CCND1,MLH1,EGFR,FOXO3,GSK3B,KRAS,APC,PIK3R1,CTNNA1,CTNNB1, 1.80E-2
hsa05120 Epithelial cell signaling in Helicobacter pylori infection JUN,EGFR,MAP3K14,NFKB1,ADAM10,TJP1,RAC1,ATP6V1H,ATP6V1C1,CASP3,IL8, 3.60E-2
Gene ontology terms enriched for interacted genes
GO termsGO terms descriptiontarget genes enrich in GO termp-value
GO:0008104 protein localization TIMM13,JUN,SNAP29,RAB34,MORC3,TOMM34,CD36,TRAK1,ARFIP1,FGF2,SNX6,NUPL2,PRKCI,BCL6,DMD,RBM22,ERBB2IP,RAB11FIP2,GRPEL1,TRAM1,EXOC7,DYNC2H1,CD81,DHCR24,AURKB,AP1G1,LIN7C,MYO6,PRAF2,RAB27B,RAB5C,EXOC3,RAB6C,NUP62,COG2,PAM16,LONP2,TOMM20,IPO8,RAB6A,CSE1L,RAB23,XPO1,EGFR,CUTA,GSK3B,FLNA,FLNB,PSEN1,NMD3,VPS36,TNPO1,GOLT1B,RAB14,SEC24B,CTNNB1,RAB30,VPS18,NASP,NUP155,STX5,RAB2A,EXOC2,VPS4B,SCAMP1,STXBP2,BET1,GNAS,TIMM8A,CDK5,CTSA,CLTA,SDCBP,CLTC,DNAJC19,YWHAZ,ATG3, 3.31E-8
GO:0045184 establishment of protein localization TIMM13,JUN,SNAP29,RAB34,TOMM34,CD36,TRAK1,ARFIP1,FGF2,SNX6,NUPL2,PRKCI,BCL6,RBM22,ERBB2IP,RAB11FIP2,GRPEL1,TRAM1,EXOC7,AP1G1,LIN7C,MYO6,RAB27B,PRAF2,RAB5C,EXOC3,RAB6C,NUP62,COG2,PAM16,LONP2,TOMM20,IPO8,RAB6A,CSE1L,RAB23,XPO1,GSK3B,FLNA,NMD3,PSEN1,VPS36,TNPO1,GOLT1B,RAB14,SEC24B,RAB30,VPS18,NASP,NUP155,STX5,RAB2A,EXOC2,VPS4B,SCAMP1,STXBP2,BET1,GNAS,TIMM8A,CDK5,CTSA,CLTA,SDCBP,CLTC,DNAJC19,YWHAZ,ATG3, 3.70E-7
GO:0006357 regulation of transcription from RNA polymerase II promoter JUN,CSDA,TFCP2,MECP2,STAT3,JARID2,SUPT5H,SUZ12,SMARCA4,JUNB,FOXK1,CUX1,CEBPB,TRAK1,DRAP1,NEUROG1,RHOA,FGF2,ESRRA,SKI,BCL6,TCF4,ZIC3,CIAO1,AGRN,HIF1A,SPI1,CREB1,TCF12,SOX6,DR1,SMAD3,MYO6,SMARCD2,ETS1,KDM1A,SMAD4,NFKB1,SMAD1,SMARCE1,SMAD2,RUNX2,SIN3A,CBFB,ZNF254,DNMT1,CTNNB1,RNF2,NFYC,SMAD5,TTF1,BUD31,MAFB,FOXO3,HDAC4,PKIA,DEK,MITF,PRKAR1A,TCEA1,VEZF1,FOS,IL6, 5.19E-7
GO:0015031 protein transport TIMM13,JUN,SNAP29,RAB34,TOMM34,CD36,TRAK1,ARFIP1,FGF2,SNX6,NUPL2,PRKCI,BCL6,RBM22,ERBB2IP,RAB11FIP2,GRPEL1,TRAM1,EXOC7,AP1G1,LIN7C,MYO6,RAB27B,PRAF2,RAB5C,EXOC3,RAB6C,NUP62,COG2,PAM16,LONP2,TOMM20,IPO8,RAB6A,CSE1L,XPO1,RAB23,GSK3B,NMD3,PSEN1,VPS36,TNPO1,GOLT1B,RAB14,SEC24B,RAB30,VPS18,NASP,NUP155,STX5,RAB2A,EXOC2,VPS4B,SCAMP1,STXBP2,BET1,GNAS,TIMM8A,CDK5,CTSA,CLTA,SDCBP,CLTC,DNAJC19,YWHAZ,ATG3, 5.70E-7
GO:0010605 negative regulation of macromolecule metabolic process JUN,CSDA,MECP2,STAT3,JARID2,SUPT5H,SUZ12,SMARCA4,FOXK1,CUX1,DRAP1,FGF2,PSME3,SNX6,MSH6,RSF1,SKI,BCL6,INPP5D,TCF4,MLH1,MAP3K10,SPI1,EDN1,PEBP1,SOX6,DR1,SMAD3,KDM1A,SMAD4,NFKB1,EIF3E,SMAD1,SMARCE1,SMAD2,RUNX2,SIN3A,ZNF254,RAB23,FLNA,PSEN1,CDKN2A,GCLC,ERI1,SOCS1,DNMT1,CTNNB1,S100A11,RNF2,RBPJ,TTF1,EIF2B5,MOV10,IRAK3,MSH2,HDAC4,PKIA,EIF2C4,CDK5,TRIM24,UBA3,IL6,THBS1, 7.04E-7
KEGG pathways and Gene Ontology terms enriched for the interacted genes of ncRNA from RAID and miRTarBase.
disease namerelated genesp-value