scholarly article | Q13442814 |
P2093 | author name string | Edgar B Cahoon | |
Luca Comai | |||
Isabelle M Henry | |||
Donald P Weeks | |||
Wen Zhi Jiang | |||
Peter G Lynagh | |||
P2860 | cites work | Genetic and epigenetic aspects of polyploid evolution in plants | Q38113327 |
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High-efficiency TALEN-based gene editing produces disease-resistant rice. | Q43901971 | ||
A high-oleic-acid and low-palmitic-acid soybean: agronomic performance and evaluation as a feedstock for biodiesel. | Q45985790 | ||
Accumulation of ricinoleic, lesquerolic, and densipolic acids in seeds of transgenic Arabidopsis plants that express a fatty acyl hydroxylase cDNA from castor bean | Q46170266 | ||
A bifunctional oleate 12-hydroxylase: desaturase from Lesquerella fendleri | Q47780055 | ||
High-Efficiency Genome Editing in Arabidopsis Using YAO Promoter-Driven CRISPR/Cas9 System. | Q50551603 | ||
Identification of three genes encoding microsomal oleate desaturases (FAD2) from the oilseed crop Camelina sativa. | Q54393735 | ||
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Evaluation of Camelina sativa oil as a feedstock for biodiesel production | Q57405901 | ||
Generation of transgenic plants of a potential oilseed crop Camelina sativa by Agrobacterium-mediated transformation | Q59943320 | ||
Combinations of mutant FAD2 and FAD3 genes to produce high oleic acid and low linolenic acid soybean oil | Q83812320 | ||
Identification of functional BrFAD2-1 gene encoding microsomal delta-12 fatty acid desaturase from Brassica rapa and development of Brassica napus containing high oleic acid contents | Q84290374 | ||
The advantages and disadvantages of being polyploid | Q22122019 | ||
RNA-guided human genome engineering via Cas9 | Q24598394 | ||
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Biosynthetic origin of conjugated double bonds: production of fatty acid components of high-value drying oils in transgenic soybean embryos | Q24647613 | ||
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Genome evolution due to allopolyploidization in wheat | Q28710327 | ||
Polyploid genome of Camelina sativa revealed by isolation of fatty acid synthesis genes. | Q33729218 | ||
Efficient CRISPR/Cas9-mediated gene editing in Arabidopsis thaliana and inheritance of modified genes in the T2 and T3 generations | Q33740247 | ||
Development of germ-line-specific CRISPR-Cas9 systems to improve the production of heritable gene modifications in Arabidopsis. | Q33915187 | ||
FAD2 and FAD3 desaturases form heterodimers that facilitate metabolic channeling in vivo | Q34073870 | ||
Demonstration of CRISPR/Cas9/sgRNA-mediated targeted gene modification in Arabidopsis, tobacco, sorghum and rice | Q34368220 | ||
Improved soybean oil quality by targeted mutagenesis of the fatty acid desaturase 2 gene family | Q34420996 | ||
Site-directed mutagenesis in Arabidopsis thaliana using dividing tissue-targeted RGEN of the CRISPR/Cas system to generate heritable null alleles. | Q34807888 | ||
Soybean oil: genetic approaches for modification of functionality and total content | Q35005393 | ||
Extensive recombination due to heteroduplexes generates large amounts of artificial gene fragments during PCR | Q35247825 | ||
Egg cell-specific promoter-controlled CRISPR/Cas9 efficiently generates homozygous mutants for multiple target genes in Arabidopsis in a single generation | Q35865934 | ||
Modification of Seed Oil Composition in Arabidopsis by Artificial microRNA-Mediated Gene Silencing | Q36128815 | ||
Multigeneration analysis reveals the inheritance, specificity, and patterns of CRISPR/Cas-induced gene modifications in Arabidopsis | Q37674388 | ||
P4510 | describes a project that uses | CRISPR-Cas method | Q17310682 |
P433 | issue | 5 | |
P921 | main subject | fatty acid | Q61476 |
Camelina sativa | Q163958 | ||
CRISPR | Q412563 | ||
Cas9 | Q16965677 | ||
fatty acid composition | Q128903645 | ||
CRISPR-Cas method | Q17310682 | ||
P304 | page(s) | 648-657 | |
P577 | publication date | 2016-11-11 | |
P1433 | published in | Plant Biotechnology Journal | Q15762398 |
P1476 | title | Significant enhancement of fatty acid composition in seeds of the allohexaploid, Camelina sativa, using CRISPR/Cas9 gene editing | |
P478 | volume | 15 |
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