Search Results - "Voytas, Daniel"

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  1. 1

    Precision genome engineering and agriculture: opportunities and regulatory challenges by Voytas, Daniel F, Gao, Caixia

    Published in PLoS biology (01-06-2014)
    “…Plant agriculture is poised at a technological inflection point. Recent advances in genome engineering make it possible to precisely alter DNA sequences in…”
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    Journal Article
  2. 2

    Plant genome engineering with sequence-specific nucleases by Voytas, Daniel F

    Published in Annual review of plant biology (01-01-2013)
    “…Recent advances in genome engineering provide newfound control over a plant's genetic material. It is now possible for most bench scientists to alter DNA in…”
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  3. 3

    TAL Effectors: Customizable Proteins for DNA Targeting by Bogdanove, Adam J., Voytas, Daniel F.

    “…Generating and applying new knowledge from the wealth of available genomic information is hindered, in part, by the difficulty of altering nucleotide sequences…”
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  4. 4

    Generation and Inheritance of Targeted Mutations in Potato (Solanum tuberosum L.) Using the CRISPR/Cas System by Butler, Nathaniel M, Atkins, Paul A, Voytas, Daniel F, Douches, David S

    Published in PloS one (14-12-2015)
    “…Genome editing using sequence-specific nucleases (SSNs) offers an alternative approach to conventional genetic engineering and an opportunity to extend the…”
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  5. 5

    Attaining the promise of plant gene editing at scale by Nasti, Ryan A., Voytas, Daniel F.

    “…Crop improvement relies heavily on genetic variation that arises spontaneously through mutation. Modern breeding methods are very adept at combining this…”
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  6. 6

    Enabling plant synthetic biology through genome engineering by Baltes, Nicholas J, Voytas, Daniel F

    Published in Trends in biotechnology (Regular ed.) (01-02-2015)
    “…Highlights • Rewriting genomes will play an important role in plant synthetic biology. • Sequence-specific nucleases enable almost any DNA sequence change in…”
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  7. 7

    Plant gene editing through de novo induction of meristems by Maher, Michael F., Nasti, Ryan A., Vollbrecht, Macy, Starker, Colby G., Clark, Matthew D., Voytas, Daniel F.

    Published in Nature biotechnology (01-01-2020)
    “…Plant gene editing is typically performed by delivering reagents such as Cas9 and single guide RNAs to explants in culture. Edited cells are then induced to…”
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  8. 8

    Threshold-dependent repression of SPL gene expression by miR156/miR157 controls vegetative phase change in Arabidopsis thaliana by He, Jia, Xu, Mingli, Willmann, Matthew R, McCormick, Kevin, Hu, Tieqiang, Yang, Li, Starker, Colby G, Voytas, Daniel F, Meyers, Blake C, Poethig, R Scott

    Published in PLoS genetics (19-04-2018)
    “…Vegetative phase change is regulated by a decrease in the abundance of the miRNAs, miR156 and miR157, and the resulting increase in the expression of their…”
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  9. 9

    De novo domestication of wild tomato using genome editing by Zsögön, Agustin, Čermák, Tomáš, Naves, Emmanuel Rezende, Notini, Marcela Morato, Edel, Kai H, Weinl, Stefan, Freschi, Luciano, Voytas, Daniel F, Kudla, Jörg, Peres, Lázaro Eustáquio Pereira

    Published in Nature biotechnology (01-12-2018)
    “…A wild tomato species is domesticated by targeted CRISPR–Cas9 editing of just six genes. Breeding of crops over millennia for yield and productivity 1 has led…”
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  10. 10

    High-frequency, precise modification of the tomato genome by Čermák, Tomáš, Baltes, Nicholas J, Čegan, Radim, Zhang, Yong, Voytas, Daniel F

    Published in Genome Biology (06-11-2015)
    “…The use of homologous recombination to precisely modify plant genomes has been challenging, due to the lack of efficient methods for delivering DNA repair…”
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  11. 11

    DNA Replicons for Plant Genome Engineering by Baltes, Nicholas J., Gil-Humanes, Javier, Cermak, Tomas, Atkins, Paul A., Voytas, Daniel F.

    Published in The Plant cell (01-01-2014)
    “…Sequence-specific nucleases enable facile editing of higher eukaryotic genomic DNA; however, targeted modification of plant genomes remains challenging due to…”
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  12. 12

    A Single Transcript CRISPR-Cas9 System for Efficient Genome Editing in Plants by Tang, Xu, Zheng, Xuelian, Qi, Yiping, Zhang, Dengwei, Cheng, Yan, Tang, Aiting, Voytas, Daniel F., Zhang, Yong

    Published in Molecular plant (06-07-2016)
    “…The Streptococcus pyogenes CRISPR-Cas9 system effectively mediates RNA-guided DNA double-strand breaks and is used for genome editing in many different…”
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  13. 13

    Simple methods for generating and detecting locus-specific mutations induced with TALENs in the zebrafish genome by Dahlem, Timothy J, Hoshijima, Kazuyuki, Jurynec, Michael J, Gunther, Derrick, Starker, Colby G, Locke, Alexandra S, Weis, Allison M, Voytas, Daniel F, Grunwald, David Jonah

    Published in PLoS genetics (01-08-2012)
    “…The zebrafish is a powerful experimental system for uncovering gene function in vertebrate organisms. Nevertheless, studies in the zebrafish have been limited…”
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  14. 14

    Overcoming bottlenecks in plant gene editing by Atkins, Paul AP, Voytas, Daniel F

    Published in Current opinion in plant biology (01-04-2020)
    “…Agriculture has reached a technological inflection point. The development of novel gene editing tools and methods for their delivery to plant cells promises to…”
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  16. 16

    A CRISPR/Cas9 Toolbox for Multiplexed Plant Genome Editing and Transcriptional Regulation by Lowder, Levi G., Zhang, Dengwei, Baltes, Nicholas J., Paul, Joseph W., Tang, Xu, Zheng, Xuelian, Voytas, Daniel F., Hsieh, Tzung-Fu, Zhang, Yong, Qi, Yiping

    Published in Plant physiology (Bethesda) (01-10-2015)
    “…The relative ease, speed, and biological scope of clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated Protein9 (Cas9)-based…”
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  17. 17

    Low‐gluten, nontransgenic wheat engineered with CRISPR/Cas9 by Sánchez‐León, Susana, Gil‐Humanes, Javier, Ozuna, Carmen V., Giménez, María J., Sousa, Carolina, Voytas, Daniel F., Barro, Francisco

    Published in Plant biotechnology journal (01-04-2018)
    “…Summary Coeliac disease is an autoimmune disorder triggered in genetically predisposed individuals by the ingestion of gluten proteins from wheat, barley and…”
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  18. 18

    High‐efficiency gene targeting in hexaploid wheat using DNA replicons and CRISPR/Cas9 by Gil‐Humanes, Javier, Wang, Yanpeng, Liang, Zhen, Shan, Qiwei, Ozuna, Carmen V., Sánchez‐León, Susana, Baltes, Nicholas J., Starker, Colby, Barro, Francisco, Gao, Caixia, Voytas, Daniel F.

    “…Summary The ability to edit plant genomes through gene targeting (GT) requires efficient methods to deliver both sequence‐specific nucleases (SSNs) and repair…”
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  19. 19

    A Multipurpose Toolkit to Enable Advanced Genome Engineering in Plants by Čermák, Tomáš, Curtin, Shaun J., Gil-Humanes, Javier, Čegan, Radim, Kono, Thomas J.Y., Konečná, Eva, Belanto, Joseph J., Starker, Colby G., Mathre, Jade W., Greenstein, Rebecca L., Voytas, Daniel F.

    Published in The Plant cell (01-06-2017)
    “…We report a comprehensive toolkit that enables targeted, specific modification of monocot and dicot genomes using a variety of genome engineering approaches…”
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  20. 20

    Novel alleles of rice eIF4G generated by CRISPR/Cas9‐targeted mutagenesis confer resistance to Rice tungro spherical virus by Macovei, Anca, Sevilla, Neah R., Cantos, Christian, Jonson, Gilda B., Slamet‐Loedin, Inez, Čermák, Tomáš, Voytas, Daniel F., Choi, Il‐Ryong, Chadha‐Mohanty, Prabhjit

    Published in Plant biotechnology journal (01-11-2018)
    “…Summary Rice tungro disease (RTD) is a serious constraint in rice production across tropical Asia. RTD is caused by the interaction between Rice tungro…”
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