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Dive into the research topics where Ermira Samara is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Efficient CRISPR/Cas9-mediated editing of trinucleotide repeat expansion in myotonic dystrophy patient-derived iPS and myogenic cells
Dastidar, S., Ardui, S., Singh, K., Majumdar, D., Shivsankaran Nair, N. N., Fu, Y., Reyon, D., Samara, E., Gerbil, M. F., Klein, A. F., De Schrijver, W., Tipanee, J., Seneca, S., Tulalamba, W., Wang, H., Chai, Y. C., In 'T Veld, P., Furling, D., Tedesco, F. S. & Vermeesch, J. R. & 3 others, , 19 Sept 2018, In: Nucleic Acids Research. 46, 16, p. 8275-8298 24 p.Research output: Contribution to journal › Article › peer-review
Open Access82 Citations (Scopus) -
Efficient In Vivo Liver-Directed Gene Editing Using CRISPR/Cas9
Singh, K., Evens, H., Nair, N., Rincón, M. Y., Sarcar, S., Samara-Kuko, E., Chuah, M. K. & VandenDriessche, T., 2 May 2018, In: Molecular Therapy. 26, 5, p. 1241-1254 14 p.Research output: Contribution to journal › Article › peer-review
Open Access59 Citations (Scopus) -
CRISPR/Cas9-mediated editing for dominant genetic disorders: efficient excision of trinucleotide repeat expansion in myotonic dystrophy
Dastidar, S., Ardui, S., Singh, K., Nair, N., Fu, Y., Reyon, D., Samara, E., Gerli, M. F. M., Klein, A. F., DeSchrijver, W., Majumdar, D., Tipanee, J., Seneca, S., Tulalamba, W., Wang, H., Chai, Y. C., In't Veld, P., Furling, D., Tedesco, F. S. & Vermeesch, J. R. & 3 others, , Dec 2017, In: Human Gene Therapy. 28, 12, p. A7-A7Research output: Contribution to journal › Meeting abstract (Journal)
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CRISPR/Cas9-Mediated Editing of Trinucleotide Repeat Expansion in Myotonic Dystrophy
Dastidar, S., Singh, K., Nair, N., Fu, Y., Reyon, D., Samara, E., Gerli, M. F. M., Klein, A. F., Jans, T., Tipanee, J., Seneca, S., Tulalamba, W., Wang, H., Vermeesch, J. R., Chai, Y. C., Veld, P. I., Furling, D., Tadesco, F. S., Joung, J. K. & Chuah, M. K. L. & 1 others, , May 2017, In: Molecular Therapy. 25, 5, p. 85-85 1 p.Research output: Contribution to journal › Meeting abstract (Journal)
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Genome-Wide Computational Analysis Reveals Cardiomyocyte-Specific Transcriptional CIS-Regulatory Motifs that Enable Efficient Cardiac Gene Therapy.
Rincon Acelas, M., Sarcar, S., Danso-Abeam, D., Keyaerts, M., Matrai, J., Samara, E., Acosta-Sanchez, A., Athanasopoulos, T., Dickson, G., Lahoutte, T., De Bleser, P., VandenDriessche, T. & Chuah, M., 2015, In: Mol Ther. 23, January, p. 43-52 10 p.Research output: Contribution to journal › Article › peer-review
Open Access37 Citations (Scopus)