Deeply honored to receive the JSPB Excellent Paper Award on A multimodal metabolomics approach using imaging mass spectrometry…https://t.co/DeHNUq7FnC
Huge thanks to the board members to select and the former collaborators, especially Kazuki @kazukisaito ! https://t.co/d43Z3DiGzO
@jjjvanderhooft @JAgFoodChem To Q2:
Well, we have prepared a callus from green asparagus.
https://t.co/3F22UZ0yUj
Using it, first we checked amino acid concentration in months because the growth speed is slow. Then, prepared labeled and non-labeled ones in months.
Happy to announce an open access paper published:
A multimodal metabolomics approach using imaging mass spectrometry and liquid chromatography-tandem mass spectrometry for spatially characterizing monoterpene indole alkaloids secreted from roots
https://t.co/5vVNZ4j8us
前職で投稿しておりました論文が公開されました!
A multimodal metabolomics approach using imaging mass spectrometry and liquid chromatography-tandem mass spectrometry for spatially characterizing monoterpene indole alkaloids secreted from roots
https://t.co/5vVNZ41xCU
One of collaboration works. The incorporation of the stable isotope 15N was analyzed using FTICR-MS. The ultrahigh-resolution power >770k provided very sharp 15N isotopic ion. This is open access.
https://t.co/j5rYUagV1E
A nice review of Prof Hiromitsu Takayama (Chiba Univ)
Total Syntheses of Lycopodium and Monoterpenoid Indole Alkaloids Based on Biosynthesis-Inspired Strategies
https://t.co/HLsdA2PJYL
Our paper “Producing the sulfur-containing metabolite asparaptine in Asparagus calluses and a suspension cell line” is out. That is one small step for you, one giant leap for asparagus and me.
https://t.co/Z7HBwO6ZOD
Downregulation of a cluster of genes encoding nitrate transporter 1/peptide transporter family proteins in tomato with a mutated JRE4 transcription factor (Shoji & Saito, 2023)
https://t.co/Gujefr8v6d
#plant_biotechnology_jspb https://t.co/kcALGWGHRc
Transcriptional regulation of cell proliferation competence-associated Arabidopsis genes, CDKA;1, RID1 and SRD2, by phytohormones in tissue culture (Takayanagi et al., 2022)
https://t.co/FUq3DtQfhf
#plant_biotechnology_jspb https://t.co/fvTxkiY8IL
Identification of a regiospecific S-oxygenase for the production of marasmin in traditional medicinal plant Tulbaghia violacea (Wang et al., 2022)
https://t.co/rn3BDV5sRt
#plant_biotechnology_jspb https://t.co/spG9uAWFe3
Production of benzylglucosinolate in genetically engineered carrot suspension cultures (Kurzbach et al., 2022)
https://t.co/LhPHNm76ZB
#plant_biotechnology_jspb https://t.co/2PYC2lju9E
4-Phenylbutyric acid promotes plant regeneration as an auxin by being converted to phenylacetic acid via an IBR3-independent pathway (Iwase et al., 2022)
https://t.co/6UKyNWPWkZ
#plant_biotechnology_jspb https://t.co/NmfQa8qNQW
Trigalactosyldiacylglycerol 3 protein orthologs are required for basal disease resistance in Nicotiana benthamiana (Tagami et al., 2021)
https://t.co/GJJMtb1mXA
#plant_biotechnology_jspb https://t.co/EdE16rHfrp
Overexpression of rice OsLEA5 relieves the deterioration in seed quality caused by high-temperature stress (Miyazaki et al., 2021)
https://t.co/1bId6NOnKc
#plant_biotechnology_jspb https://t.co/sPKXLMK7Sz
Fluorescence from abnormally sterile pollen of the Japanese apricot (Mori et al. 2021)
https://t.co/ovDaoHImVB
#plant_biotechnology_jspb https://t.co/xzVpqEv525
Creation of a potato mutant lacking the starch branching enzyme gene StSBE3 that was generated by genome editing using the CRISPR/dMac3-Cas9 system
https://t.co/gVoT4CKaRO
#plant_biotechnology_jspb https://t.co/oaHVtkKA2j
Additional betalain accumulation by genetic engineering leads to a novel flower color in lisianthus (Eustoma grandiflorum) (Tomizawa et al., 2021)
https://t.co/CV3dHeA8vm
#plant_biotechnology_jspb https://t.co/TFHpa1C7MV
Spatial metabolomics using imaging mass spectrometry to identify the localization of asparaptine A in Asparagus officinalis (Nakabayashi et al., 2021)
https://t.co/pK12iyYFCH
#plant_biotechnology_jspb https://t.co/Hn9r5tcPf3
A multimodal metabolomics approach using imaging mass spectrometry and liquid chromatography-tandem mass spectrometry for spatially characterizing monoterpene indole alkaloids secreted from roots (Nakabayashi et al., 2021)
https://t.co/qdki45RSj4
#plant_biotechnology_jspb https://t.co/mTMiKMRkSM
Transient protein expression systems in plants and their applications (Nosaki et al., 2021)
https://t.co/zY6DabwABf
#plant_biotechnology_jspb https://t.co/igMSggxHAU
Molecular basis of cytoplasmic male sterility and fertility restoration in rice (Toriyama, 2021)
https://t.co/YRFW49myIu
#plant_biotechnology_jspb https://t.co/6tcAuTNvOJ
Spatial metabolomics using imaging mass spectrometry to identify the localization of asparaptine A in Asparagus officinalis #PlantBiotechnol https://t.co/I7Hk1CORIm
I am happy to announce my new review paper "Challenges to design-oriented breeding of root system architecture adapted to climate change" is now online at Breeding Science!! https://t.co/2L3xzTcHTr https://t.co/5oC9uAdPMf
Our paper has been published!!
論文が公開になりました!
https://t.co/GcD15aQgoL
"Bacterium Lacking a Known Gene for Retinal Biosynthesis Constructs Functional Rhodopsins"
(1/7)
「アヤムラサキ」という紫イモを解析し、サツマイモを紫色に着色させるために必要なゲノム領域を特定しました。
根研究学会の英文誌Plant Rootに論文が掲載されています。@NARO_JPと韓国RDAとの共同研究です。
SNPs for purple flesh of sweetpotato
https://t.co/tpkmF7zGIU