Additional file 4: Table S2. sgRNA target sequences and oligonucleotides for genotyping
Additional file 2: Methods. Methods for growth and phenotypic analysis of fission yeast, molecular b...
The relative ease, speed and biological scope of CRISPR/Cas9-based reagents for genomic manipulation...
Additional file 1: Figure S1. A schematic illustration for constructing a Cas9, eGFP and gRNA co-exp...
Additional file 8: Table S4. Frequency of At3g04220 gene deletions in natural accessions
Additional file 6: Figure S3. Example showing simultaneous sgRNA efficiency in generating deletion i...
Additional file 7: Figure S4. PCR analyses of the T-DNA left border to determine completeness of int...
Additional file 1: Figure S1. Fluorescence-based strategy for selection of transgenic plants. a. Flu...
Background: Our knowledge of natural genetic variation is increasing at an extremely rapid pace, aff...
Additional file 4: Figure S5. Sequence alignment of the Nud gene fragments cloned from selected T0 p...
Additional file 3: Figure S4. Sequence alignment of the HvCKX1 gene fragments cloned from selected T...
Additional file 2. Multiple alignments of proGhU6.1, proGhU6.2 and proGhU6.3 sequences. The USE and ...
Additional file 1: Methods S1. Figure S1. Schematic view of the pBract211 binary vector. Figure S2. ...
Additional file 3. The GUS staining in tobacco leaves infiltrated with Agrobacterium carrying differ...
Additional file 2: Figure S3. Sequence alignment of the HvCKX1 gene fragments cloned from selected T...
Additional file 1. Expression pattern of the AT4G05320 (UBQ10) gene in Arabidopsis (Fig. S1). a show...
Additional file 2: Methods. Methods for growth and phenotypic analysis of fission yeast, molecular b...
The relative ease, speed and biological scope of CRISPR/Cas9-based reagents for genomic manipulation...
Additional file 1: Figure S1. A schematic illustration for constructing a Cas9, eGFP and gRNA co-exp...
Additional file 8: Table S4. Frequency of At3g04220 gene deletions in natural accessions
Additional file 6: Figure S3. Example showing simultaneous sgRNA efficiency in generating deletion i...
Additional file 7: Figure S4. PCR analyses of the T-DNA left border to determine completeness of int...
Additional file 1: Figure S1. Fluorescence-based strategy for selection of transgenic plants. a. Flu...
Background: Our knowledge of natural genetic variation is increasing at an extremely rapid pace, aff...
Additional file 4: Figure S5. Sequence alignment of the Nud gene fragments cloned from selected T0 p...
Additional file 3: Figure S4. Sequence alignment of the HvCKX1 gene fragments cloned from selected T...
Additional file 2. Multiple alignments of proGhU6.1, proGhU6.2 and proGhU6.3 sequences. The USE and ...
Additional file 1: Methods S1. Figure S1. Schematic view of the pBract211 binary vector. Figure S2. ...
Additional file 3. The GUS staining in tobacco leaves infiltrated with Agrobacterium carrying differ...
Additional file 2: Figure S3. Sequence alignment of the HvCKX1 gene fragments cloned from selected T...
Additional file 1. Expression pattern of the AT4G05320 (UBQ10) gene in Arabidopsis (Fig. S1). a show...
Additional file 2: Methods. Methods for growth and phenotypic analysis of fission yeast, molecular b...
The relative ease, speed and biological scope of CRISPR/Cas9-based reagents for genomic manipulation...
Additional file 1: Figure S1. A schematic illustration for constructing a Cas9, eGFP and gRNA co-exp...
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