Inversing the natural hydrogen bonding rule to selectively amplify GC-rich ADAR-edited RNAs. (2008)
Suspène, Rodolphe, Renard, Myrtille, Henry, Michel, Guétard, Denise, Puyraimond-Zemmour, David, Billecocq, Agnès, ...
DNA complementarity is expressed by way of three hydrogen bonds for a G:C base pair and two for A:T. As a result, careful control of the denaturation temperature of PCR allows selective amplification...
Inversing the natural hydrogen bonding rule to selectively amplify GC-rich ADAR-edited RNAs. (2008)
Suspène, Rodolphe, Renard, Myrtille, Henry, Michel, Guétard, Denise, Puyraimond-Zemmour, David, Billecocq, Agnès, ...
DNA complementarity is expressed by way of three hydrogen bonds for a G:C base pair and two for A:T. As a result, careful control of the denaturation temperature of PCR allows selective amplification...
Inversing the natural hydrogen bonding rule to selectively amplify GC-rich ADAR-edited RNAs. (2008)
Suspène, Rodolphe, Renard, Myrtille, Henry, Michel, Guétard, Denise, Puyraimond-Zemmour, David, Billecocq, Agnès, ...
DNA complementarity is expressed by way of three hydrogen bonds for a G:C base pair and two for A:T. As a result, careful control of the denaturation temperature of PCR allows selective amplification...
Inversing the natural hydrogen bonding rule to selectively amplify GC-rich ADAR-edited RNAs. (2008)
Suspène, Rodolphe, Renard, Myrtille, Henry, Michel, Guétard, Denise, Puyraimond-Zemmour, David, Billecocq, Agnès, ...
DNA complementarity is expressed by way of three hydrogen bonds for a G:C base pair and two for A:T. As a result, careful control of the denaturation temperature of PCR allows selective amplification...
Inversing the natural hydrogen bonding rule to selectively amplify GC-rich ADAR-edited RNAs (2008)
Suspène, Rodolphe, Renard, Myrtille, Henry, Michel, Guétard, Denise, Puyraimond-Zemmour, David, Billecocq, Agnès, ...
DNA complementarity is expressed by way of three hydrogen bonds for a G:C base pair and two for A:T. As a result, careful control of the denaturation temperature of PCR allows selective amplification...
Inversing the natural hydrogen bonding rule to selectively amplify GC-rich ADAR-edited RNAs. (2008)
Suspène, Rodolphe, Renard, Myrtille, Henry, Michel, Guétard, Denise, Puyraimond-Zemmour, David, Billecocq, Agnès, ...
DNA complementarity is expressed by way of three hydrogen bonds for a G:C base pair and two for A:T. As a result, careful control of the denaturation temperature of PCR allows selective amplification...
Inversing the natural hydrogen bonding rule to selectively amplify GC-rich ADAR-edited RNAs. (2008)
Suspène, Rodolphe, Renard, Myrtille, Henry, Michel, Guétard, Denise, Puyraimond-Zemmour, David, Billecocq, Agnès, ...
DNA complementarity is expressed by way of three hydrogen bonds for a G:C base pair and two for A:T. As a result, careful control of the denaturation temperature of PCR allows selective amplification...
Inversing the natural hydrogen bonding rule to selectively amplify GC-rich ADAR-edited RNAs
Suspène, Rodolphe, Renard, Myrtille, Henry, Michel, Guétard, Denise, Puyraimond-Zemmour, David, Billecocq, Agnès, ...
DNA complementarity is expressed by way of three hydrogen bonds for a G:C base pair and two for A:T. As a result, careful control of the denaturation temperature of PCR allows selective amplification...