APA

Takamatsu S., Ohashi Y., Onoue N., Tajima Y., Imamichi T., Yonezawa S., Morimoto K., Onouchi H., Yamashita Y. & Naito S. (20200318). Reverse genetics-based biochemical studies of the ribosomal exit tunnel constriction region in eukaryotic ribosome stalling: spatial allocation of the regulatory nascent peptide at the constriction. : Nucleic acids research.

Chicago

Takamatsu Seidai, Ohashi Yubun, Onoue Noriyuki, Tajima Yoko, Imamichi Tomoya, Yonezawa Shinya, Morimoto Kyoko, Onouchi Hitoshi, Yamashita Yui and Naito Satoshi. 20200318. Reverse genetics-based biochemical studies of the ribosomal exit tunnel constriction region in eukaryotic ribosome stalling: spatial allocation of the regulatory nascent peptide at the constriction. : Nucleic acids research.

Harvard

Takamatsu S., Ohashi Y., Onoue N., Tajima Y., Imamichi T., Yonezawa S., Morimoto K., Onouchi H., Yamashita Y. and Naito S. (20200318). Reverse genetics-based biochemical studies of the ribosomal exit tunnel constriction region in eukaryotic ribosome stalling: spatial allocation of the regulatory nascent peptide at the constriction. : Nucleic acids research.

MLA

Takamatsu Seidai, Ohashi Yubun, Onoue Noriyuki, Tajima Yoko, Imamichi Tomoya, Yonezawa Shinya, Morimoto Kyoko, Onouchi Hitoshi, Yamashita Yui and Naito Satoshi. Reverse genetics-based biochemical studies of the ribosomal exit tunnel constriction region in eukaryotic ribosome stalling: spatial allocation of the regulatory nascent peptide at the constriction. : Nucleic acids research. 20200318.