MI0000729
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MIPF0000022
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GGUCGGGCCAGCCCCGUUUGGAAGACUAGUGAUUUUGUUGUUGUGUCUCUGUAUCCAACAACAAGUCCCAGUCUGCCACAUGGUGCUGGUCAUUUCA
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MIMAT0000677
mmu-miR-7a-5p
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UGGAAGACUAGUGAUUUUGUUGU
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miR-7a (previously named miR-7) was predicted by computational methodsusing conservation between mouse, human and Fugu rubripes sequences .Expression of the excised miR has been validated in zebrafish, and laterindependently verified in mouse . The mature sequence shown hererepresents the most commonly cloned form from large-scale cloning studies. The ends of the miRNA may be offset with respect to previousannotations.
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MI0000728
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MIPF0000022
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UUGGAUGUUGGCCUAGUUCUGUGUGGAAGACUAGUGAUUUUGUUGUUUUUAGAUAACUAAAACGACAACAAAUCACAGUCUGCCAUAUGGCACAGGCCACCUCUACAG
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MIMAT0004670
mmu-miR-7a-1-3p
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CAACAAAUCACAGUCUGCCAUA
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miR-7a (previously named miR-7) was predicted by computational methodsusing conservation between mouse, human and Fugu rubripes sequences .Expression of the excised miR has been validated in zebrafish, and laterindependently verified in mouse . The mature sequence shown hererepresents the most commonly cloned form from large-scale cloning studies. The ends of the miRNA may be offset with respect to previousannotations.
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MI0000729
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MIPF0000022
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GGUCGGGCCAGCCCCGUUUGGAAGACUAGUGAUUUUGUUGUUGUGUCUCUGUAUCCAACAACAAGUCCCAGUCUGCCACAUGGUGCUGGUCAUUUCA
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MIMAT0017070
mmu-miR-7a-2-3p
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CAACAAGUCCCAGUCUGCCACA
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miR-7a (previously named miR-7) was predicted by computational methodsusing conservation between mouse, human and Fugu rubripes sequences .Expression of the excised miR has been validated in zebrafish, and laterindependently verified in mouse . The mature sequence shown hererepresents the most commonly cloned form from large-scale cloning studies. The ends of the miRNA may be offset with respect to previousannotations.
|
MI0000729
|
MIPF0000022
|
GGUCGGGCCAGCCCCGUUUGGAAGACUAGUGAUUUUGUUGUUGUGUCUCUGUAUCCAACAACAAGUCCCAGUCUGCCACAUGGUGCUGGUCAUUUCA
|
MIMAT0000677
mmu-miR-7a-5p
|
UGGAAGACUAGUGAUUUUGUUGU
|
miR-7a (previously named miR-7) was predicted by computational methodsusing conservation between mouse, human and Fugu rubripes sequences .Expression of the excised miR has been validated in zebrafish, and laterindependently verified in mouse . The mature sequence shown hererepresents the most commonly cloned form from large-scale cloning studies. The ends of the miRNA may be offset with respect to previousannotations.
|
MI0000728
|
MIPF0000022
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UUGGAUGUUGGCCUAGUUCUGUGUGGAAGACUAGUGAUUUUGUUGUUUUUAGAUAACUAAAACGACAACAAAUCACAGUCUGCCAUAUGGCACAGGCCACCUCUACAG
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MIMAT0004670
mmu-miR-7a-1-3p
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CAACAAAUCACAGUCUGCCAUA
|
miR-7a (previously named miR-7) was predicted by computational methodsusing conservation between mouse, human and Fugu rubripes sequences .Expression of the excised miR has been validated in zebrafish, and laterindependently verified in mouse . The mature sequence shown hererepresents the most commonly cloned form from large-scale cloning studies. The ends of the miRNA may be offset with respect to previousannotations.
|
MI0000729
|
MIPF0000022
|
GGUCGGGCCAGCCCCGUUUGGAAGACUAGUGAUUUUGUUGUUGUGUCUCUGUAUCCAACAACAAGUCCCAGUCUGCCACAUGGUGCUGGUCAUUUCA
|
MIMAT0017070
mmu-miR-7a-2-3p
|
CAACAAGUCCCAGUCUGCCACA
|
miR-7a (previously named miR-7) was predicted by computational methodsusing conservation between mouse, human and Fugu rubripes sequences .Expression of the excised miR has been validated in zebrafish, and laterindependently verified in mouse . The mature sequence shown hererepresents the most commonly cloned form from large-scale cloning studies. The ends of the miRNA may be offset with respect to previousannotations.
|