Perakitan Padi Lokal Tinggi Sakuranetin Berbasis Genome Editing dengan Target Mutagenesis Gen Pengkode Udp-Glucosyltransferase yang Dimediasi Agrobacterium Tumefaciens LBA4404
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Abstract
Assembly Of High-Yield Local Rice Variety Sakuranetin Using Genome
Editing Targeting Mutagenesis UDP-Glucosyltransferase Genes Mediated By
Agrobacterium Tumefaciens LBA4404; Putri Kusuma Wardani, 221510501012;
2026: 73 pages; Department of Agrotechnology, Faculty of Agriculture, University
of Jember.
UGTs (UDP-glucosyltransferases) are enzymes involved in the flavonoid
biosynthetic pathway, particularly by catalyzing the conversion of naringenin into
other compounds such as naringenin glucoside and apigenin glucoside. The activity
of UGT enzymes can divert naringenin away from the sakuranetin biosynthetic
pathway, thereby negatively affecting the accumulation of this phytoalexin.
Therefore, increasing sakuranetin content can be achieved through the upregulation
of the NOMT (naringenin 7-O-methyltransferase) gene and the silencing of UGT
genes, preventing the conversion of naringenin into apigenin glucoside and
naringenin glucoside. This study aimed to confirm the effect of UGT gene silencing
using the pRGEB32 plasmid construct based on the CRISPR/Cas9 system and
mediated by Agrobacterium tumefaciens on enhancing sakuranetin accumulation in
local rice varieties through descriptive statistical analysis. The results showed that
two Koshihikari plants, two Mentik Susu plants, and three Siam Epang plants were
successfully transformed with the pRGEB32::UGTs.sgRNA1 construct. The
transformation efficiencies were 0.003% for Koshihikari, 0.005% for Mentik Susu,
and 0.01% for Siam Epang. Differences in transformation efficiency among
varieties were attributed to genotype-specific responses to A. tumefaciens infection
and T-DNA transfer processes. Successful integration of the
pRGEB32::UGTs.sgRNA1 construct into the rice genome was confirmed by PCR
analysis using the HPTII marker, which produced a 545 bp amplicon, and the Cas9
marker, which produced a 495 bp amplicon. These results verified that the
regenerated plants were positive transformants carrying the CRISPR/Cas9-UGTs
construct.
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:: Finalisasi Repositori File 9 Juni 2026_Kurnadi
