Mouse miR-181b was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and independently in mouse [2,3]. Themature sequence shown here represents the most commonly cloned form fromlarge-scale cloning studies .
Mouse miR-181c was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish and independently in mouse [2,3].
Mouse miR-181b was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and independently in mouse [2,3]. Themature sequence shown here represents the most commonly cloned form fromlarge-scale cloning studies .
Mouse miR-181c was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish and independently in mouse [2,3].
Mouse miR-181b was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and independently in mouse [2,3]. Themature sequence shown here represents the most commonly cloned form fromlarge-scale cloning studies .
Mouse miR-181b was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and independently in mouse [2,3]. Themature sequence shown here represents the most commonly cloned form fromlarge-scale cloning studies .
Mouse miR-181c was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish and independently in mouse [2,3].
Mouse miR-181b was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and independently in mouse [2,3]. Themature sequence shown here represents the most commonly cloned form fromlarge-scale cloning studies .
Mouse miR-181c was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish and independently in mouse [2,3].
Mouse miR-181b was predicted by computational methods using conservationwith human and Fugu rubripes sequences . Expression of the excised miRhas been validated in zebrafish, and independently in mouse [2,3]. Themature sequence shown here represents the most commonly cloned form fromlarge-scale cloning studies .