Blocking c-myc and stat3 by E. coli expressed and enzyme digested siRNA in mouse melanoma.

@article{Hong2006BlockingCA,
  title={Blocking c-myc and stat3 by E. coli expressed and enzyme digested siRNA in mouse melanoma.},
  author={Jie Hong and Yingchun Zhao and Weida Huang},
  journal={Biochemical and biophysical research communications},
  year={2006},
  volume={348 2},
  pages={600-5}
}
Tumour cells often show alteration in the signal-transduction pathways, leading to proliferation in response to external signals. Oncogene overexpression and constitutive expression is a common phenomenon in the development and progression of many human cancers. Therefore oncogenes provide potential targets for cancer therapy. RNA interference (RNAi), mediated by small interfering RNA (siRNA), silences genes with a high degree of specificity and potentially represents a general approach for… CONTINUE READING

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RNA interference ( RNAi ) , mediated by small interfering RNA ( siRNA ) , silences genes with a high degree of specificity and potentially represents a general approach for molecularly targeted anti - cancer therapy .
RNA interference ( RNAi ) , mediated by small interfering RNA ( siRNA ) , silences genes with a high degree of specificity and potentially represents a general approach for molecularly targeted anti - cancer therapy .
RNA interference ( RNAi ) , mediated by small interfering RNA ( siRNA ) , silences genes with a high degree of specificity and potentially represents a general approach for molecularly targeted anti - cancer therapy .
RNA interference ( RNAi ) , mediated by small interfering RNA ( siRNA ) , silences genes with a high degree of specificity and potentially represents a general approach for molecularly targeted anti - cancer therapy .
RNA interference ( RNAi ) , mediated by small interfering RNA ( siRNA ) , silences genes with a high degree of specificity and potentially represents a general approach for molecularly targeted anti - cancer therapy .
RNA interference ( RNAi ) , mediated by small interfering RNA ( siRNA ) , silences genes with a high degree of specificity and potentially represents a general approach for molecularly targeted anti - cancer therapy .
RNA interference ( RNAi ) , mediated by small interfering RNA ( siRNA ) , silences genes with a high degree of specificity and potentially represents a general approach for molecularly targeted anti - cancer therapy .
RNA interference ( RNAi ) , mediated by small interfering RNA ( siRNA ) , silences genes with a high degree of specificity and potentially represents a general approach for molecularly targeted anti - cancer therapy .
RNA interference ( RNAi ) , mediated by small interfering RNA ( siRNA ) , silences genes with a high degree of specificity and potentially represents a general approach for molecularly targeted anti - cancer therapy .
RNA interference ( RNAi ) , mediated by small interfering RNA ( siRNA ) , silences genes with a high degree of specificity and potentially represents a general approach for molecularly targeted anti - cancer therapy .
RNA interference ( RNAi ) , mediated by small interfering RNA ( siRNA ) , silences genes with a high degree of specificity and potentially represents a general approach for molecularly targeted anti - cancer therapy .
RNA interference ( RNAi ) , mediated by small interfering RNA ( siRNA ) , silences genes with a high degree of specificity and potentially represents a general approach for molecularly targeted anti - cancer therapy .
RNA interference ( RNAi ) , mediated by small interfering RNA ( siRNA ) , silences genes with a high degree of specificity and potentially represents a general approach for molecularly targeted anti - cancer therapy .
RNA interference ( RNAi ) , mediated by small interfering RNA ( siRNA ) , silences genes with a high degree of specificity and potentially represents a general approach for molecularly targeted anti - cancer therapy .
RNA interference ( RNAi ) , mediated by small interfering RNA ( siRNA ) , silences genes with a high degree of specificity and potentially represents a general approach for molecularly targeted anti - cancer therapy .
RNA interference ( RNAi ) , mediated by small interfering RNA ( siRNA ) , silences genes with a high degree of specificity and potentially represents a general approach for molecularly targeted anti - cancer therapy .
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