Shigeru Hanano
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View article: <i>Rhizobium rhizogenes</i>-mediated hairy-root transformation of daughter plants from the model strawberry <i>Fragaria vesca</i>’s stolons
<i>Rhizobium rhizogenes</i>-mediated hairy-root transformation of daughter plants from the model strawberry <i>Fragaria vesca</i>’s stolons Open
Strawberry, a member of the Fragaria genus within the Rosaceae family, is one of the most cherished fruits worldwide. This perennial herbaceous plant also serves as a model for studying the Rosaceae family. Despite the complex polyp…
View article: <i>De novo</i> induction of a <scp>DNA</scp>–histone <scp>H3K9</scp> methylation loop on synthetic human repetitive <scp>DNA</scp> in cultured tobacco cells
<i>De novo</i> induction of a <span>DNA</span>–histone <span>H3K9</span> methylation loop on synthetic human repetitive <span>DNA</span> in cultured tobacco cells Open
SUMMARY Genetic modifications in plants are crucial tools for fundamental and applied research. Transgene expression usually varies among independent lines or their progeny and is associated with the chromatin structure of the insertion si…
View article: Development of the binary vector pTACAtg1 for stable gene expression in plant: Reduction of gene silencing in transgenic plants carrying the target gene with long flanking sequences
Development of the binary vector pTACAtg1 for stable gene expression in plant: Reduction of gene silencing in transgenic plants carrying the target gene with long flanking sequences Open
Genetic modification in plants helps us to understand molecular mechanisms underlying on plant fitness and to improve profitable crops. However, in transgenic plants, the value of gene expression often varies among plant populations of dis…
View article: An Artificial Conversion of Roots into Organs with Shoot Stem Characteristics by Inducing Two Transcription Factors
An Artificial Conversion of Roots into Organs with Shoot Stem Characteristics by Inducing Two Transcription Factors Open
View article: Examination of the usability of leaf chlorophyll content and gene expression analyses as nitrogen status biomarkers in <i>Sorghum bicolor</i>
Examination of the usability of leaf chlorophyll content and gene expression analyses as nitrogen status biomarkers in <i>Sorghum bicolor</i> Open
Sorghum [Sorghum bicolor (L.) Moench] has been receiving attention as a feedstock for biomass energy. Since nitrogen (N) significantly affects the plant biomass production, diagnosing the N status of sorghum during its growth would …
View article: A Novel Conversion of Roots into Organs with Shoot Stem Characteristics by Inducing Two Transcription Factors
A Novel Conversion of Roots into Organs with Shoot Stem Characteristics by Inducing Two Transcription Factors Open
View article: Mechanism underlying rapid responses to boron deprivation in Arabidopsis roots
Mechanism underlying rapid responses to boron deprivation in Arabidopsis roots Open
Transferring hydroponically grown Arabidopsis plants (Arabidopsis thaliana L.) to boron (B)-free medium kills the cells in root tips within an hour. To understand the mechanism underlying the induced rapid cell death, the Arabidopsi…
View article: Mechanism underlying rapid responses to boron deprivation in Arabidopsis roots
Mechanism underlying rapid responses to boron deprivation in Arabidopsis roots Open
Transferring hydroponically grown Arabidopsis plants (Arabidopsis thaliana L.) to boron (B)-free medium kills the cells in root tips within an hour. To understand the mechanism underlying the induced rapid cell death, the Arabidopsi…
View article: The Arabidopsis TAC Position Viewer: a high‐resolution map of transformation‐competent artificial chromosome (<scp>TAC</scp>) clones aligned with the<i>Arabidopsis thaliana</i>Columbia‐0 genome
The Arabidopsis TAC Position Viewer: a high‐resolution map of transformation‐competent artificial chromosome (<span>TAC</span>) clones aligned with the<i>Arabidopsis thaliana</i>Columbia‐0 genome Open
Summary We present a high‐resolution map of genomic transformation‐competent artificial chromosome ( TAC ) clones extending over all Arabidopsis thaliana (Arabidopsis) chromosomes. The Arabidopsis genomic TAC clones have been valuable gene…