This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .
This human miRNA was predicted by computational methods using conservationwith mouse and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and later validated in human HL-60leukemia cells .