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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .
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 .