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Holger Puchta
Holger Puchta
Botanical Institute, Karlsruhe Institute of Technology (KIT)
Adresă de e-mail confirmată pe kit.edu - Pagina de pornire
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Both CRISPR/Cas‐based nucleases and nickases can be used efficiently for genome engineering in Arabidopsis thaliana
F Fauser, S Schiml, H Puchta
The Plant Journal 79 (2), 348-359, 2014
6872014
The repair of double-strand breaks in plants: mechanisms and consequences for genome evolution
H Puchta
Journal of experimental botany 56 (409), 1-14, 2005
6272005
Elevated UV-B radiation reduces genome stability in plants
G Ries, W Heller, H Puchta, H Sandermann, HK Seidlitz, B Hohn
Nature 406 (6791), 98-101, 2000
4632000
Two different but related mechanisms are used in plants for the repair of genomic double-strand breaks by homologous recombination.
H Puchta, B Dujon, B Hohn
Proceedings of the National Academy of Sciences 93 (10), 5055-5060, 1996
4521996
Capture of genomic and T-DNA sequences during double-strand break repair in somatic plant cells
S Salomon, H Puchta
The EMBO journal 17 (20), 6086-6095, 1998
4001998
The CRISPR/Cas system can be used as nuclease for in planta gene targeting and as paired nickases for directed mutagenesis in Arabidopsis resulting in …
S Schiml, F Fauser, H Puchta
The Plant Journal 80 (6), 1139-1150, 2014
3622014
Homologous recombination in plant cells is enhanced by in vivo induction of double strand breaks into DNA by a site-specific endonuclease
H Puchta, B Dujon, B Hohn
Nucleic acids research 21 (22), 5034-5040, 1993
3461993
Applying CRISPR/Cas for genome engineering in plants: the best is yet to come
H Puchta
Current opinion in plant biology 36, 1-8, 2017
2632017
Synthetic nucleases for genome engineering in plants: prospects for a bright future
H Puchta, F Fauser
The Plant Journal 78 (5), 727-741, 2014
2502014
Towards CRISPR/Cas crops–bringing together genomics and genome editing
A Scheben, F Wolter, J Batley, H Puchta, D Edwards
New Phytologist 216 (3), 682-698, 2017
2372017
Highly efficient heritable plant genome engineering using Cas9 orthologues from Streptococcus thermophilus and Staphylococcus aureus
J Steinert, S Schiml, F Fauser, H Puchta
The Plant Journal 84 (6), 1295-1305, 2015
2232015
Species-specific double-strand break repair and genome evolution in plants
A Kirik, S Salomon, H Puchta
The EMBO Journal 19 (20), 5562-5566, 2000
2212000
Elimination of selection markers from transgenic plants
B Hohn, AA Levy, H Puchta
Current Opinion in Biotechnology 12 (2), 139-143, 2001
2132001
Gene targeting in plants: 25 years later
H Puchta, F Fauser
International Journal of Developmental Biology 57 (6-7-8), 629-637, 2013
2112013
In planta gene targeting
F Fauser, N Roth, M Pacher, G Ilg, R Sánchez-Fernández, C Biesgen, ...
Proceedings of the National Academy of Sciences 109 (19), 7535-7540, 2012
2102012
Gene replacement by homologous recombination in plants
H Puchta
Functional Genomics, 173-182, 2002
2082002
Intrachromosomal homologous recombination in whole plants.
P Swoboda, S Gal, B Hohn, H Puchta
The EMBO journal 13 (2), 484-489, 1994
2071994
Efficient repair of genomic double-strand breaks by homologous recombination between directly repeated sequences in the plant genome
R Siebert, H Puchta
The Plant Cell 14 (5), 1121-1131, 2002
1882002
From centiMorgans to base pairs: homologous recombination in plants
H Puchta, B Hohn
Trends in Plant Science 1 (10), 340-348, 1996
1851996
Molecular characterisation of two paralogous SPO11 homologues in Arabidopsis thaliana
F Hartung, H Puchta
Nucleic acids research 28 (7), 1548-1554, 2000
1762000
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