- Ameres, Stefan
- Arif, Amena
- Boundy, Keith
- Broderick, Jennifer
- Cenik, Elif Sarinay
- Lurain, Kaycee
- Chang, Tim
- Chapman, Tracey
- Colpan, Cansu
- Du, Tingting
- Flores-Jasso, Carlos Fabian
- Förstemann, Klaus
- Fukunaga, Ryuya
- Ghildiyal, Megha
- Gainetdinov, Ildar
- Ge, Tianfang (Daniel)
- Haley, Benjamin
- Hondele, Maria
- Han, Bo
- Hutvagner, György
- Horwich, Michael
- Jouraleva, Karina
- Jolly, Samson
- Li, Yongjin
- Li, Chengjian
- Li, Xin Zhiguo
- Lee, Yongjin
- Matranga, Christian
- Özata, Deniz
- Pekker, Ira (Irena)
- Roy, Christian Roy
- Salomon, Wes
- Schwarz, Dianne
- Seitz, Hervé
- Serebrov, Victor
- Sigova, Alla
- Tang, Guiliang
- Tomari, Yukihide
- Tushir-Singh, Jogender
- Tzur, Yonatan
- Vagin, Vasily
- Wang, Wei
- Wu, Pei-Hsuan (Xuan)
- Wee, Liang-Meng
- Zhang, Zhao
- Ameres, Stefan
- Arif, Amena
- Boundy, Keith
- Broderick, Jennifer
- Cenik, Elif Sarinay
- Lurain, Kaycee
- Chang, Tim
- Chapman, Tracey
- Colpan, Cansu
- Du, Tingting
- Flores-Jasso, Carlos Fabian
- Förstemann, Klaus
- Fukunaga, Ryuya
- Ghildiyal, Megha
- Gainetdinov, Ildar
- Ge, Tianfang (Daniel)
- Haley, Benjamin
- Hondele, Maria
- Han, Bo
- Hutvagner, György
- Horwich, Michael
- Jouraleva, Karina
- Jolly, Samson
- Li, Yongjin
- Li, Chengjian
- Li, Xin Zhiguo
- Lee, Yongjin
- Matranga, Christian
- Özata, Deniz
- Pekker, Ira (Irena)
- Roy, Christian Roy
- Salomon, Wes
- Schwarz, Dianne
- Seitz, Hervé
- Serebrov, Victor
- Sigova, Alla
- Tang, Guiliang
- Tomari, Yukihide
- Tushir-Singh, Jogender
- Tzur, Yonatan
- Vagin, Vasily
- Wang, Wei
- Wu, Pei-Hsuan (Xuan)
- Wee, Liang-Meng
- Zhang, Zhao
Ryuya Fukunaga, PhD
Associate Professor of Biological Chemistry, Johns Hopkins
Former RTI Lab: Postdoctoral Fellow, Zamore Lab
Training Period: 2009 - 2013
Prior Academic Degree Institution: University of California, Berkeley
The Fukunaga Lab uses multidisciplinary approaches to understand the cell biology, biogenesis and function of small silencing RNAs from the atomic to the organismal level. The lab studies how small silencing RNAs, including microRNAs (miRNAs), small interfering RNAs (siRNAs) and piwi-interacting RNAs (piRNAs), are produced and how they function. Mutations in the small RNA genes or in the genes involved in the RNA pathways cause many diseases, including cancers. We use a combination of biochemistry, biophysics, fly genetics, cell culture, X-ray crystallography and next-generation sequencing to answer fundamental biological questions and also potentially lead to therapeutic applications to human diseases.