This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
Mouse and human miR-106a (MIR:MI0000406 and MIR:MI0000113) differ at twopositions but the precursor sequences are clearly closely related. Thesequences are also related to mir-17 (MIR:MI0000071 and MIR:MI0000687).The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
Mouse and human miR-106a (MIR:MI0000406 and MIR:MI0000113) differ at twopositions but the precursor sequences are clearly closely related. Thesequences are also related to mir-17 (MIR:MI0000071 and MIR:MI0000687).The mature sequence shown here represents the most commonly cloned formfrom large-scale cloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .
This miRNA was not cloned in reference , rather it was identified byhomology to miR-91 (MIR:MI0000071). This sequence is localised tochromosome X and was named mir-106-X in . Mouse and human miR-106a(MIR:MI0000406 and MIR:MI0000113) differ at two positions but theprecursor sequences are clearly closely related. The sequences are alsorelated to mir-17 (MIR:MI0000071 and MIR:MI0000687). The mature sequenceshown here represents the most commonly cloned form from large-scalecloning studies .