scholarly article | Q13442814 |
P2093 | author name string | Seiichi Toki | |
Masafumi Mikami | |||
Masaki Endo | |||
P2860 | cites work | Plant genome editing made easy: targeted mutagenesis in model and crop plants using the CRISPR/Cas system | Q21203587 |
RNA-guided human genome engineering via Cas9 | Q24598394 | ||
Multiplex genome engineering using CRISPR/Cas systems | Q24609428 | ||
Efficient genome editing in zebrafish using a CRISPR-Cas system | Q24610828 | ||
RNA-guided editing of bacterial genomes using CRISPR-Cas systems | Q24630389 | ||
A Programmable Dual-RNA-Guided DNA Endonuclease in Adaptive Bacterial Immunity | Q24669850 | ||
RNA-programmed genome editing in human cells | Q28044562 | ||
Targeted genome engineering in human cells with the Cas9 RNA-guided endonuclease | Q28284509 | ||
Double nicking by RNA-guided CRISPR Cas9 for enhanced genome editing specificity | Q29615792 | ||
DNA targeting specificity of RNA-guided Cas9 nucleases | Q29615793 | ||
High-frequency off-target mutagenesis induced by CRISPR-Cas nucleases in human cells | Q29616045 | ||
The Arabidopsis functional homolog of the p34cdc2 protein kinase | Q33328031 | ||
CDK-related protein kinases in plants | Q34088317 | ||
CDKB2 is involved in mitosis and DNA damage response in rice | Q36230331 | ||
High-throughput profiling of off-target DNA cleavage reveals RNA-programmed Cas9 nuclease specificity | Q37196274 | ||
Complementation of a yeast cell cycle mutant by an alfalfa cDNA encoding a protein kinase homologous to p34cdc2 | Q37411766 | ||
Isolation and characterization of cDNA clones encoding a functional p34cdc2 homologue from Zea mays | Q37485747 | ||
CRISPR-mediated adaptive immune systems in bacteria and archaea | Q38089802 | ||
Multiplex and homologous recombination-mediated genome editing in Arabidopsis and Nicotiana benthamiana using guide RNA and Cas9. | Q42055857 | ||
Targeted mutagenesis in the model plant Nicotiana benthamiana using Cas9 RNA-guided endonuclease | Q43872258 | ||
Targeted genome modification of crop plants using a CRISPR-Cas system. | Q47822803 | ||
Cell cycle phase specificity of putative cyclin-dependent kinase variants in synchronized alfalfa cells | Q48054349 | ||
Distinct classes of cdc2-related genes are differentially expressed during the cell division cycle in plants | Q48060589 | ||
cdc2MsB, a cognate cdc2 gene from alfalfa, complements the G1/S but not the G2/M transition of budding yeast cdc28 mutants | Q48114086 | ||
Global analysis of the core cell cycle regulators of Arabidopsis identifies novel genes, reveals multiple and highly specific profiles of expression and provides a coherent model for plant cell cycle control | Q48551469 | ||
A plant-specific cyclin-dependent kinase is involved in the control of G2/M progression in plants | Q49168076 | ||
Early infection of scutellum tissue with Agrobacterium allows high-speed transformation of rice. | Q50716074 | ||
CRISPR-P: a web tool for synthetic single-guide RNA design of CRISPR-system in plants. | Q52422996 | ||
Both CRISPR/Cas-based nucleases and nickases can be used efficiently for genome engineering in Arabidopsis thaliana. | Q52423023 | ||
Differential expression of genes for cyclin-dependent protein kinases in rice plants | Q77765003 | ||
A Simple Set of Plasmids for the Production of Transgenic Plants | Q82432506 | ||
P433 | issue | 1 | |
P921 | main subject | CRISPR | Q412563 |
Cas9 | Q16965677 | ||
CRISPR-Cas method | Q17310682 | ||
P1104 | number of pages | 7 | |
P304 | page(s) | 41-47 | |
P577 | publication date | 2014-11-11 | |
P1433 | published in | Plant and Cell Physiology | Q2402845 |
P1476 | title | Multigene knockout utilizing off-target mutations of the CRISPR/Cas9 system in rice | |
P478 | volume | 56 |
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Q48569321 | Editorial: Plant and Cell Physiology--past, present and future |
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Q39225472 | New traits in crops produced by genome editing techniques based on deletions |
Q42776726 | OsIDD2, a zinc finger and INDETERMINATE DOMAIN protein, regulates secondary cell wall formation. |
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Q38689981 | Plant genome editing with TALEN and CRISPR. |
Q36901358 | Precision Targeted Mutagenesis via Cas9 Paired Nickases in Rice |
Q37657528 | Production of α1,3-galactosyltransferase and cytidine monophosphate-N-acetylneuraminic acid hydroxylase gene double-deficient pigs by CRISPR/Cas9 and handmade cloning |
Q38619166 | Progress and challenges in improving the nutritional quality of rice (Oryza sativa L.). |
Q36740174 | Reassessment of the Four Yield-related Genes Gn1a, DEP1, GS3, and IPA1 in Rice Using a CRISPR/Cas9 System |
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Q46376536 | Simultaneous Targeting of Multiple Gene Homeologs to Alter Seed Oil Production in Camelina sativa. |
Q46513980 | Specialization of a polyphenism switch gene following serial duplications in Pristionchus nematodes |
Q92315559 | Strategies to Increase On-Target and Reduce Off-Target Effects of the CRISPR/Cas9 System in Plants |
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Q38977562 | Targeted modification of plant genomes for precision crop breeding |
Q90433773 | The 21st Century Agriculture: When Rice Research Draws Attention to Climate Variability and How Weedy Rice and Underutilized Grains Come in Handy |
Q26752469 | The CRISPR/Cas Genome-Editing Tool: Application in Improvement of Crops |
Q37549568 | The Power of CRISPR-Cas9-Induced Genome Editing to Speed Up Plant Breeding. |
Q47552046 | The evolution of CRISPR/Cas9 and their cousins: hope or hype? |
Q48125446 | The receptor-like cytoplasmic kinase BSR1 mediates chitin-induced defense signaling in rice cells |
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Q96576712 | Validation of barley 2OGO gene as a functional orthologue of Arabidopsis DMR6 gene in Fusarium head blight susceptibility |
Q88592264 | Zinc finger nuclease-mediated precision genome editing of an endogenous gene in hexaploid bread wheat (Triticum aestivum) using a DNA repair template |
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