about
A TALE of two nucleases: gene targeting for the masses?Rapid "open-source" engineering of customized zinc-finger nucleases for highly efficient gene modificationRetrotransposons. An RNA polymerase III subunit determines sites of retrotransposon integration.MicroRNA Maturation and MicroRNA Target Gene Expression Regulation Are Severely Disrupted in Soybean dicer-like1 Double MutantsA nucleosomal surface defines an integration hotspot for the Saccharomyces cerevisiae Ty1 retrotransposonGene expression atlas for the food security crop cassavaTALEN-engineered AR gene rearrangements reveal endocrine uncoupling of androgen receptor in prostate cancer.Ty5 gag mutations increase retrotransposition and suggest a role for hydrogen bonding in the function of the nucleocapsid zinc finger.SIRE1, an endogenous retrovirus family from Glycine max, is highly homogeneous and evolutionarily young.Standardized reagents and protocols for engineering zinc finger nucleases by modular assembly.Zinc Finger Targeter (ZiFiT): an engineered zinc finger/target site design tool.Plant science. DNA binding made easy.Transcription activator-like effector nucleases enable efficient plant genome engineering.Improved soybean oil quality by targeted mutagenesis of the fatty acid desaturase 2 gene family.Improving cold storage and processing traits in potato through targeted gene knockout.Chromodomains direct integration of retrotransposons to heterochromatin.Controlling integration specificity of a yeast retrotransposonFanconi anemia gene editing by the CRISPR/Cas9 system.Efficient design and assembly of custom TALENs using the Golden Gate platform.Enabling plant synthetic biology through genome engineering.Highly efficient gene tagging in the bryophyte Physcomitrella patens using the tobacco (Nicotiana tabacum) Tnt1 retrotransposon.Efficient TALEN-mediated gene knockout in livestockZinc Finger Database (ZiFDB) v2.0: a comprehensive database of C₂H₂ zinc fingers and engineered zinc finger arrays.Increasing frequencies of site-specific mutagenesis and gene targeting in Arabidopsis by manipulating DNA repair pathways.Evaluation of TCR Gene Editing Achieved by TALENs, CRISPR/Cas9, and megaTAL NucleasesTALEN-based gene correction for epidermolysis bullosa.An affinity-based scoring scheme for predicting DNA-binding activities of modularly assembled zinc-finger proteins.Agarose gel electrophoresis.Targeted mutagenesis of Arabidopsis thaliana using engineered TAL effector nucleases.Targeted deletion and inversion of tandemly arrayed genes in Arabidopsis thaliana using zinc finger nucleasesTAL effectors: highly adaptable phytobacterial virulence factors and readily engineered DNA-targeting proteinsGene editing and its application for hematological diseases.Advancing Crop Transformation in the Era of Genome Editing.High-efficiency gene targeting in hexaploid wheat using DNA replicons and CRISPR/Cas9.The soybean retroelement SIRE1 uses stop codon suppression to express its envelope-like protein.A Multipurpose Toolkit to Enable Advanced Genome Engineering in Plants.DNA replicons for plant genome engineering.Tailor-made mutations in Arabidopsis using zinc finger nucleases.Targeted mutagenesis of the tomato PROCERA gene using transcription activator-like effector nucleases.A CRISPR/Cas9 Toolbox for Multiplexed Plant Genome Editing and Transcriptional Regulation.
P50
Q24635945-BB9A05FA-DF7A-4120-95F5-8B2450EE7B47Q24651280-5DE1ADE8-7C74-47BD-8484-38E8829EC6B3Q27938075-BE9A7813-12AF-4DB4-939E-259684265F8DQ28600888-24D8B324-A256-4026-AA03-AD4EF8ADBF53Q28730814-53681EBB-527E-4719-A527-617E5B588FCCQ30490769-05EAA3CF-3143-45EA-B215-8FA564A41261Q30554439-31FDB867-C0C7-44B5-AA13-C7E1DF95249AQ30825160-4F25549C-060A-4B3E-9EFC-17C018BDBF63Q31144018-8AD7AC31-108E-427E-819E-F02ED3298943Q33280963-445AB1F1-2B0E-4136-86E6-EBF403CE1B24Q33285803-15B0DC7C-3578-4343-9B93-D4ECFD5E1062Q34087897-6B076B4A-6C2F-4E96-8255-2F4C7D20150AQ34309846-11E14AC3-7C83-4B59-8061-7D819520C795Q34420996-A49BE70F-EF5D-4E33-8A9A-20BC8454A0AFQ34470459-B78B02D4-71BB-4E82-92A1-0745064BDD29Q34747075-3028B6A3-D6BE-4E01-89EF-6A3F42742FF0Q35022347-40722A8E-C35F-4129-B314-109A26D7B2B7Q35077625-56654CA5-5DD8-4CC9-B51E-FAA0730E5003Q35435360-CD4443E2-2A7F-46C7-93B4-55B95A3F7E19Q35511349-44B6B3B3-1F9C-4783-B31F-BCFAA6660961Q36109307-C36F82F6-2172-4E98-A2B5-780A3FEF6D48Q36378266-F7DD23FF-E17D-4E4F-971B-C4F1582AABC2Q36491573-1B77E7BA-7720-455F-9A48-A56CE7FF2E57Q36660151-45FE61C1-3B2C-416D-9337-CD0CAD9B8EF1Q36675286-AB817CF9-E617-4986-A5B8-03E9F03DF7D5Q36915141-F034C811-6B6E-4321-8E8F-93CD19CF2096Q37077406-D37FDACB-E5AE-413D-A2C6-4BBB17CDE1CBQ37146286-BD3575CF-7583-41DD-8D81-43346E9D09F5Q37213382-2CB505F4-5205-4732-892B-B2DC434445A8Q37213384-AACD0CCE-EF47-4089-B65D-A173CC119620Q38109405-E29E757D-071B-43A2-BB0E-BDAB17FCB268Q38846192-5BB891EB-B57B-48C1-8D37-60FC54CA1C0BQ38874122-25AA8A24-FCD6-420C-BE4C-B29860258DA9Q40429072-6F994623-8B85-4B42-B479-84448CD2ACB5Q40666216-E70F19EC-49BC-4544-B2AD-A0683D9D179BQ41358737-43B4A49A-EE2A-4993-B2AD-88CFA4043EB6Q42242328-920E386C-4B8E-43A2-82EF-1BCF44C5C87EQ44438459-90626D2D-1A35-4488-9E72-3C42C212C3A9Q44555542-595DA5C4-D341-49B6-9419-D45F45027AC6Q44859216-DA298F71-31FC-47D5-AC00-A3D5FF5516FD
P50
description
researcher ORCID ID = 0000-0002-4944-1224
@en
name
Daniel F Voytas
@ast
Daniel F Voytas
@en
Daniel F Voytas
@es
Daniel F Voytas
@nl
type
label
Daniel F Voytas
@ast
Daniel F Voytas
@en
Daniel F Voytas
@es
Daniel F Voytas
@nl
prefLabel
Daniel F Voytas
@ast
Daniel F Voytas
@en
Daniel F Voytas
@es
Daniel F Voytas
@nl
P21
P31
P496
0000-0002-4944-1224