Kinetin (BioDeep_00000000764)

 

Secondary id: BioDeep_00000398000

human metabolite PANOMIX_OTCML-2023 Endogenous Plant Hormones BioNovoGene_Lab2019 Volatile Flavor Compounds


代谢物信息卡片


Kinetin, BioReagent, plant cell culture tested, amorphous powder

化学式: C10H9N5O (215.0807064)
中文名称: 激动素, 动力精, 6-糠氨基嘌呤
谱图信息: 最多检出来源 Viridiplantae(plant) 0.12%

分子结构信息

SMILES: C(NC1=C2N=CN=C2N=CN1)C1=CC=CO1
InChI: InChI=1S/C10H9N5O/c1-2-7(16-3-1)4-11-9-8-10(13-5-12-8)15-6-14-9/h1-3,5-6H,4H2,(H2,11,12,13,14,15)

描述信息

Kinetin is a member of the class of 6-aminopurines that is adenine carrying a (furan-2-ylmethyl) substituent at the exocyclic amino group. It has a role as a geroprotector and a cytokinin. It is a member of furans and a member of 6-aminopurines.
Kinetin is a cytokinin which are plant hormones promotes cell division and plant growth. It was shown to naturally exist in DNA of organisms including humans and various plants. While kinetin is used in tissue cultures to produce new plants, it is also found in cosmetic products as an anti-aging agents.
Kinetin is a natural product found in Cocos nucifera, Beta vulgaris, and other organisms with data available.
A furanyl adenine found in PLANTS and FUNGI. It has plant growth regulation effects.
Kinetin can react with UDP-D-glucose to produce kinetin-7-N-glucoside or kinetin-9-N-glucoside, with UDP as a byproduct. The reaction is catalyzed by UDP glycosyltransferase. Kinetin is a hormone derived from plants.
Kinetin can react with UDP-D-glucose to produce kinetin-7-N-glucoside or kinetin-9-N-glucoside, with UDP as a byproduct. The reaction is catalyzed by UDP glycosyltransferase.
D006133 - Growth Substances > D010937 - Plant Growth Regulators > D003583 - Cytokinins
COVID info from PDB, Protein Data Bank
Corona-virus
Coronavirus
SARS-CoV-2
COVID-19
SARS-CoV
COVID19
SARS2
SARS
CONFIDENCE standard compound; INTERNAL_ID 781; DATASET 20200303_ENTACT_RP_MIX501; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 2712; ORIGINAL_PRECURSOR_SCAN_NO 2710
CONFIDENCE standard compound; INTERNAL_ID 781; DATASET 20200303_ENTACT_RP_MIX501; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 2714; ORIGINAL_PRECURSOR_SCAN_NO 2711
CONFIDENCE standard compound; INTERNAL_ID 781; DATASET 20200303_ENTACT_RP_MIX501; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 5910; ORIGINAL_PRECURSOR_SCAN_NO 5905
CONFIDENCE standard compound; INTERNAL_ID 781; DATASET 20200303_ENTACT_RP_MIX501; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 2699; ORIGINAL_PRECURSOR_SCAN_NO 2696
CONFIDENCE standard compound; INTERNAL_ID 781; DATASET 20200303_ENTACT_RP_MIX501; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 5865; ORIGINAL_PRECURSOR_SCAN_NO 5864
CONFIDENCE standard compound; INTERNAL_ID 781; DATASET 20200303_ENTACT_RP_MIX501; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 5900; ORIGINAL_PRECURSOR_SCAN_NO 5896
CONFIDENCE standard compound; INTERNAL_ID 781; DATASET 20200303_ENTACT_RP_MIX501; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 2691; ORIGINAL_PRECURSOR_SCAN_NO 2689
CONFIDENCE standard compound; INTERNAL_ID 781; DATASET 20200303_ENTACT_RP_MIX501; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 5890; ORIGINAL_PRECURSOR_SCAN_NO 5889
CONFIDENCE standard compound; INTERNAL_ID 781; DATASET 20200303_ENTACT_RP_MIX501; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 2693; ORIGINAL_PRECURSOR_SCAN_NO 2691
CONFIDENCE standard compound; INTERNAL_ID 781; DATASET 20200303_ENTACT_RP_MIX501; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 5911; ORIGINAL_PRECURSOR_SCAN_NO 5908
CONFIDENCE standard compound; INTERNAL_ID 781; DATASET 20200303_ENTACT_RP_MIX501; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 5893; ORIGINAL_PRECURSOR_SCAN_NO 5891
CONFIDENCE standard compound; INTERNAL_ID 781; DATASET 20200303_ENTACT_RP_MIX501; DATA_PROCESSING MERGING RMBmix ver. 0.2.7; DATA_PROCESSING PRESCREENING Shinyscreen ver. 0.8.0; ORIGINAL_ACQUISITION_NO 2689; ORIGINAL_PRECURSOR_SCAN_NO 2687
IPB_RECORD: 305; CONFIDENCE confident structure
KEIO_ID F014; [MS2] KO008961
KEIO_ID F014
Kinetin (N6-furfuryladenine) belongs to the family of N6-substituted adenine derivatives known as cytokinins, which are plant hormones involved in cell division, differentiation and other physiological processes. Kinetin has anti-aging effects[1].
Kinetin (N6-furfuryladenine) belongs to the family of N6-substituted adenine derivatives known as cytokinins, which are plant hormones involved in cell division, differentiation and other physiological processes. Kinetin has anti-aging effects[1].
Kinetin (N6-furfuryladenine) belongs to the family of N6-substituted adenine derivatives known as cytokinins, which are plant hormones involved in cell division, differentiation and other physiological processes. Kinetin has anti-aging effects[1].

同义名列表

84 个代谢物同义名

Kinetin, BioReagent, plant cell culture tested, amorphous powder; Kinetin, plant cell culture tested, crystalline; N-(2-furylmethyl)-N-(9H-purin-6-yl)amine; N-[(FURAN-2-YL)METHYL]-9H-PURIN-6-AMINE; furan-2-yl-methyl-(7H-purin-6-yl)-amine; 2,3-Difluoro-4-hydroxyphenylboronicacid; N-[(furan-2-yl)methyl]-7H-purin-6-amine; Kinetin, Vetec(TM) reagent grade, 99\\%; 1H-PURIN-6-AMINE, N-(2-FURANYLMETHYL)-; Furan-2-ylmethyl-(9H-purin-6-yl)-amine; 9H-Purin-6-amine, N-(2-furanylmethyl)-; N-(furan-2-ylmethyl)-1H-purin-6-amine; N-(furan-2-ylmethyl)-9H-purin-6-amine; N-(furan-2-ylmethyl)-7H-purin-6-amine; N-(2-furanylmethyl)-1h-purine-6 amine; 6-[(Furan-2-ylmethyl)amino]-9H-purine; Furan-2-ylmethyl-(9H-purin-6-yl)-amin; 2-Furanmethanamine, N-1H-purin-6-yl-; N-(2-furanylmethyl)-7H-purin-6-amine; 6-Furfuryladenine;N6-Furfuryladenine; N-(2-Furylmethyl)-9H-purin-6-amine #; N-(2-Furanylmethyl)-1H-purin-6-amine; 2-Furylmethyl-(7H-purin-6-yl)amine; N-(2-furylmethyl)-1H-purin-6-amine; N-1H-purin-6-yl-2-Furanmethanamine; N-(2-furylmethyl)-3h-purin-6-amine; N-(2-Furylmethyl)-9H-purin-6-amine; 6-((fur-2-ylmethyl)amino)purine; 6-Furfurylaminopurine (Kinetin); N(sup 6)-(Furfurylamino)purine; (2-furylmethyl)purin-6-ylamine; N(Sup6)-(Furfurylamino)purine; Kinetin (6-Furfuryladenine); N(6)-(furfurylamino)purine; Furfuryl(purin-6-yl)amine; Kinetin, >=99.0\\% (HPLC); N6-(Furfurylamino)purine; N(sup 6)-Furfuryladenine; 6-(Furfurylamino)purine; N(Sup6)-Furfuryladenine; 6 Furfurylaminopurine; 6-Furfurylaminopurine; Adenine, N-furfuryl-; n(6)-furfuryladenine; n-furfuryl-Adenine; N6-Furfuryladenine; 6 Furfuryladenine; Maybridge1_007141; 6-Furfuryladenine; Prestwick0_000659; Prestwick1_000659; Prestwick3_000659; Prestwick2_000659; N-Furfuryladenine; Spectrum5_001599; Spectrum2_001364; Spectrum3_000610; Spectrum4_000820; KINETIN [WHO-DD]; KINETIN [MART.]; UNII-P39Y9652YJ; Kinetin, 99.0\\%; KINETIN [INCI]; KINETIN [HSDB]; BPBio1_000767; DivK1c_000011; Kinetin (VAN); Oprea1_761931; Tox21_301214; KBio2_006680; KBio1_000011; KBio3_001620; KBio2_001544; KBio2_004112; KINETIN [MI]; IDI1_000011; P39Y9652YJ; Cytokinin; Kinerase; Kinetin; Cytex; 2uy5; H35; Kinetin



数据库引用编号

56 个数据库交叉引用编号

分类词条

相关代谢途径

Reactome(0)

BioCyc(0)

PlantCyc(1)

代谢反应

481 个相关的代谢反应过程信息。

Reactome(0)

BioCyc(4)

WikiPathways(1)

Plant Reactome(292)

INOH(0)

PlantCyc(184)

COVID-19 Disease Map(0)

PathBank(0)

PharmGKB(0)

34 个相关的物种来源信息

在这里通过桑基图来展示出与当前的这个代谢物在我们的BioDeep知识库中具有相关联信息的其他代谢物。在这里进行关联的信息来源主要有:

  • PubMed: 来源于PubMed文献库中的文献信息,我们通过自然语言数据挖掘得到的在同一篇文献中被同时提及的相关代谢物列表,这个列表按照代谢物同时出现的文献数量降序排序,取前10个代谢物作为相关研究中关联性很高的代谢物集合展示在桑基图中。
  • NCBI Taxonomy: 通过文献数据挖掘,得到的代谢物物种来源信息关联。这个关联信息同样按照出现的次数降序排序,取前10个代谢物作为高关联度的代谢物集合展示在桑吉图上。
  • Chemical Taxonomy: 在物质分类上处于同一个分类集合中的其他代谢物
  • Chemical Reaction: 在化学反应过程中,存在为当前代谢物相关联的生化反应过程中的反应底物或者反应产物的关联代谢物信息。

点击图上的相关代谢物的名称,可以跳转到相关代谢物的信息页面。



文献列表

  • Phopgao Puttharak, Patthamaporn Wangnai, Jarucha Puttharak, Nuttakorn Baisaeng. Optimizing medicinal hemp production with synergistic light-enhanced technologies and organic biorefinery approaches. Journal of photochemistry and photobiology. B, Biology. 2024 May; 254(?):112890. doi: 10.1016/j.jphotobiol.2024.112890. [PMID: 38507943]
  • Dawid Kocot, Barbara Nowak, Ewa Sitek. Long-term organogenic callus cultivation of Ranunculus illyricus L.: a blueprint for sustainable ex situ conservation of the species in urban greenery. BMC plant biology. 2024 Mar; 24(1):212. doi: 10.1186/s12870-024-04901-3. [PMID: 38528451]
  • Denis O Omelchenko, Elena S Glagoleva, Anna Y Stepanova, Maria D Logacheva. Callus Induction Followed by Regeneration and Hairy Root Induction in Common Buckwheat. Methods in molecular biology (Clifton, N.J.). 2024; 2791(?):1-14. doi: 10.1007/978-1-0716-3794-4_1. [PMID: 38532087]
  • Alae Ahmad Jabbour, Abdulaziz Alzahrani. The impact of chemical and hormonal treatments to improve seed germination and seedling growth of Juniperus procera Hochst. ex Endi. PeerJ. 2024; 12(?):e17236. doi: 10.7717/peerj.17236. [PMID: 38618572]
  • Zekeria Yusuf, Mulugeta Desta, Wassu Mohammed. Direct Organogenesis of Citrus Cultivars from Shoot Tip Nodal Segments. Recent patents on biotechnology. 2024; 18(1):63-70. doi: 10.2174/1872208317666230417084141. [PMID: 37073147]
  • Karin Okazaki, Shinsaku Ito, Hidemitsu Nakamura, Tadao Asami, Koichiro Shimomura, Mikihisa Umehara. Increase in ENHANCER OF SHOOT REGENERATION2 expression by treatment with strigolactone-related inhibitors and kinetin during adventitious shoot formation in ipecac. Plant cell reports. 2023 Oct; ?(?):. doi: 10.1007/s00299-023-03073-y. [PMID: 37803214]
  • Pingli Chen, Guanjun Gao, Guangming Lou, Jie Hu, Yufu Wang, Rongjia Liu, Da Zhao, Qing Liu, Bingrui Sun, Xingxue Mao, Liqun Jiang, Jing Zhang, Shuwei Lv, Hang Yu, Wenfeng Chen, Zhilan Fan, Chen Li, Yuqing He. Improvement of Rice Blast Resistance in TGMS Line HD9802S through Optimized Anther Culture and Molecular Marker-Assisted Selection. International journal of molecular sciences. 2023 Sep; 24(19):. doi: 10.3390/ijms241914446. [PMID: 37833893]
  • Fu-Chang Jin, Jing-Jing Chen, Qiu-Xian Xu, Ming-Hui Zhou, Yi Lin, Qi-Wei Zhang, Chang-Chun Zhang, Zhen-Gang Zhang. Kinetin inhibits hepatic stellate cell activation and induces apoptosis via interactions with the TGF-β1/Smad signaling pathway. Toxicology and applied pharmacology. 2023 09; 475(?):116655. doi: 10.1016/j.taap.2023.116655. [PMID: 37579951]
  • Li-Na Guo, Lin Lu, Xue-Rui Dong, Feng-Lu Zhang, Peng Yan, Zhi-Qiang Dong. Effects of gibberellic acid, kinetin and indole butyric acid mixture on sorghum salinity tolerance and grain yield in saline-alkali coastal zone. Ying yong sheng tai xue bao = The journal of applied ecology. 2023 Sep; 34(9):2405-2412. doi: 10.13287/j.1001-9332.202309.016. [PMID: 37899106]
  • Mohamed I Ghazy, Hassan Sh Hamad, Elsayed E Gewaily, Eman M Bleih, Elsayed F A Arafat, Wael H El-Kallawy, Sabry A El-Naem, Medhat Rehan, Khairiah Mubarak Alwutayd, Diaa Abd El Moneim. Impacts of kinetin implementation on leaves, floral and root-related traits during seed production in hybrid rice under water deficiency. BMC plant biology. 2023 Aug; 23(1):398. doi: 10.1186/s12870-023-04405-6. [PMID: 37605164]
  • Daniela Fernández-Gómez, Javier Villegas-Moreno, Dhirendra Kumar-Tiwari, Mariela Gómez-Romero, Gladys Juárez-Cisneros. Effect of Multi-walled Carbon Nanotubes Functionalized with Kinetin on the Development of Avena sativa. Microscopy and microanalysis : the official journal of Microscopy Society of America, Microbeam Analysis Society, Microscopical Society of Canada. 2023 07; 29(Suppl 1):42-43. doi: 10.1093/micmic/ozad067.017. [PMID: 37613127]
  • Maham Ajmal, Rehman Ullah, Zahir Muhammad, Muhammad Nauman Khan, Hussain Ahmad Kakar, Alevcan Kaplan, Mohammad K Okla, Ibrahim A Saleh, Asif Kamal, Abdullah Abdullah, Sarah Abdul Razak. Kinetin Capped Zinc Oxide Nanoparticles Improve Plant Growth and Ameliorate Resistivity to Polyethylene Glycol (PEG)-Induced Drought Stress in Vigna radiata (L.) R. Wilczek (Mung Bean). Molecules (Basel, Switzerland). 2023 Jun; 28(13):. doi: 10.3390/molecules28135059. [PMID: 37446722]
  • Danial Kahrizi, Atefeh Fahimi Far, Zeinab Chaghakaboodi, Mozafar Khazaei, Esra Ucar Sozmen, Hulya Dogan. Stem cell induction and plant regeneration are affected by medium components in maca (Lepidium meyenii Walp). Molecular biology reports. 2023 Mar; ?(?):. doi: 10.1007/s11033-023-08319-2. [PMID: 36899280]
  • Jitka Vostálová, Denisa Škařupová, Lucie Plíhalová, Martin Hönig, Bohumil Zálešák, Alena Rajnochová Svobodová. Photoprotective properties of new derivatives of kinetin. Photochemical & photobiological sciences : Official journal of the European Photochemistry Association and the European Society for Photobiology. 2023 Feb; 22(2):357-369. doi: 10.1007/s43630-022-00320-1. [PMID: 36264480]
  • Zdeněk Trávníček, Ján Vančo, Jan Belza, Jan Hošek, Zdeněk Dvořák, René Lenobel, Igor Popa, Karel Šmejkal, Pavel Uhrin. The Gold(I) Complex with Plant Hormone Kinetin Shows Promising In Vitro Anticancer and PPARγ Properties. International journal of molecular sciences. 2023 Jan; 24(3):. doi: 10.3390/ijms24032293. [PMID: 36768617]
  • Mehran Amini, Elham Zadeh-Hashem, Manoochehr Allymehr. Assessment of the effect of kinetin against formic acid toxicity in chicken embryo model. Journal of animal physiology and animal nutrition. 2023 Jan; 107(1):238-247. doi: 10.1111/jpn.13701. [PMID: 35288998]
  • Jayalakshmi Venkatesan, Vasuki Ramu, Thilaga Sethuraman, Chandrasekaran Sivagnanam, Ganesh Doss. Assessing the genetic fidelity of somatic embryo-derived plantlets of finger millet by random amplified polymorphic DNA analysis. Biotechnology letters. 2022 Dec; 44(12):1379-1387. doi: 10.1007/s10529-022-03305-3. [PMID: 36183295]
  • Qiaomei Lu, Shuting Lin, Qingqing Ding, Huiling Zhang, Ping Tong, Min Fang, Wenmin Zhang, Lan Zhang. An agaric-like covalent organic framework composite for efficient extraction of trace cytokinins in plant samples. Journal of chromatography. A. 2022 Nov; 1683(?):463524. doi: 10.1016/j.chroma.2022.463524. [PMID: 36195005]
  • Andrzej Kaźmierczak, Ewa Siatkowska, Ruoxi Li, Sophie Bothe, Peter Nick. Kinetin induces microtubular breakdown, cell cycle arrest and programmed cell death in tobacco BY-2 cells. Protoplasma. 2022 Oct; ?(?):. doi: 10.1007/s00709-022-01814-6. [PMID: 36239807]
  • Barbara Sparzak-Stefanowska, Mirosława Krauze-Baranowska. Phyllanthus amarus shoot cultures as a source of biologically active lignans: the influence of selected plant growth regulators. Scientific reports. 2022 07; 12(1):11505. doi: 10.1038/s41598-022-15309-0. [PMID: 35798810]
  • Mona F A Dawood, Abdelghafar M Abu-Elsaoud, Mahmoud R Sofy, Heba I Mohamed, Mona H Soliman. Appraisal of kinetin spraying strategy to alleviate the harmful effects of UVC stress on tomato plants. Environmental science and pollution research international. 2022 Jul; 29(35):52378-52398. doi: 10.1007/s11356-022-19378-6. [PMID: 35258726]
  • M Masroor A Khan, Nausheen Khanam, Moin Uddin, Rakesh Kumar Mishra, Rehan Khan. Nanotized kinetin enhances essential oil yield and active constituents of mint via improvement in physiological attributes. Chemosphere. 2022 Feb; 288(Pt 2):132447. doi: 10.1016/j.chemosphere.2021.132447. [PMID: 34627816]
  • Kaniz Wahida Sultana, Sumanta Das, Indrani Chandra, Anindita Roy. Efficient micropropagation of Thunbergia coccinea Wall. and genetic homogeneity assessment through RAPD and ISSR markers. Scientific reports. 2022 01; 12(1):1683. doi: 10.1038/s41598-022-05787-7. [PMID: 35102225]
  • Attachai Trunjaruen, Prathan Luecha, Worasitikulya Taratima. Micropropagation of pokeweed (Phytolacca americana L.) and comparison of phenolic, flavonoid content, and antioxidant activity between pokeweed callus and other parts. PeerJ. 2022; 10(?):e12892. doi: 10.7717/peerj.12892. [PMID: 35186483]
  • Fazilat Fakhrzad, Abolfazl Jowkar, Javad Hosseinzadeh. Mathematical modeling and optimizing the in vitro shoot proliferation of wallflower using multilayer perceptron non-dominated sorting genetic algorithm-II (MLP-NSGAII). PloS one. 2022; 17(9):e0273009. doi: 10.1371/journal.pone.0273009. [PMID: 36083887]
  • Muhammad Kamran, Dan Wang, Kaizhi Xie, Yusheng Lu, Chaohong Shi, Ayman El Sabagh, Wenjie Gu, Peizhi Xu. Pre-sowing seed treatment with kinetin and calcium mitigates salt induced inhibition of seed germination and seedling growth of choysum (Brassica rapa var. parachinensis). Ecotoxicology and environmental safety. 2021 Dec; 227(?):112921. doi: 10.1016/j.ecoenv.2021.112921. [PMID: 34678626]
  • Andrzej Kaźmierczak, Anita Kunikowska, Magdalena Doniak, Andrzej Kornaś. Mechanism of kinetin-induced death of Vicia faba ssp. minor root cortex cells. Scientific reports. 2021 12; 11(1):23746. doi: 10.1038/s41598-021-03103-3. [PMID: 34887458]
  • Ajmal Khan, Azhar Hussain Shah, Niaz Ali. In-vitro propagation and phytochemical profiling of a highly medicinal and endemic plant species of the Himalayan region (Saussurea costus). Scientific reports. 2021 12; 11(1):23575. doi: 10.1038/s41598-021-03032-1. [PMID: 34880342]
  • Roberto de Oliveira Portella, Marcia Ortiz Mayo Marques, Elizabeth Orika Ono, Paulo Sérgio Siberti da Silva, Adalton Mazetti Fernandes, Luiz Fernando Rolim de Almeida. Kinetin establish the volatile chemical profile after rhizome dormancy is released in Curcuma zedoaria (Christm.) Roscoe. Natural product research. 2021 Nov; 35(21):4122-4125. doi: 10.1080/14786419.2020.1729152. [PMID: 32081040]
  • Mat Yunus Najhah, Hawa Z E Jaafar, Jaafar Juju Nakasha, Mansor Hakiman. Shoot Multiplication and Callus Induction of Labisia pumila var. alata as Influenced by Different Plant Growth Regulators Treatments and Its Polyphenolic Activities Compared with the Wild Plant. Molecules (Basel, Switzerland). 2021 May; 26(11):. doi: 10.3390/molecules26113229. [PMID: 34072168]
  • Mark J Henderson, Kathleen A Trychta, Shyh-Ming Yang, Susanne Bäck, Adam Yasgar, Emily S Wires, Carina Danchik, Xiaokang Yan, Hideaki Yano, Lei Shi, Kuo-Jen Wu, Amy Q Wang, Dingyin Tao, Gergely Zahoránszky-Kőhalmi, Xin Hu, Xin Xu, David Maloney, Alexey V Zakharov, Ganesha Rai, Fumihiko Urano, Mikko Airavaara, Oksana Gavrilova, Ajit Jadhav, Yun Wang, Anton Simeonov, Brandon K Harvey. A target-agnostic screen identifies approved drugs to stabilize the endoplasmic reticulum-resident proteome. Cell reports. 2021 04; 35(4):109040. doi: 10.1016/j.celrep.2021.109040. [PMID: 33910017]
  • Barbara Maková, Václav Mik, Barbora Lišková, Gabriel Gonzalez, Dominik Vítek, Martina Medvedíková, Beata Monfort, Veronika Ručilová, Alena Kadlecová, Prashant Khirsariya, Zoila Gándara Barreiro, Libor Havlíček, Marek Zatloukal, Miroslav Soural, Kamil Paruch, Benoit D'Autréaux, Marián Hajdúch, Miroslav Strnad, Jiří Voller. Cytoprotective activities of kinetin purine isosteres. Bioorganic & medicinal chemistry. 2021 03; 33(?):115993. doi: 10.1016/j.bmc.2021.115993. [PMID: 33497938]
  • Tomáš Hluska, Lucia Hlusková, R J Neil Emery. The Hulks and the Deadpools of the Cytokinin Universe: A Dual Strategy for Cytokinin Production, Translocation, and Signal Transduction. Biomolecules. 2021 02; 11(2):. doi: 10.3390/biom11020209. [PMID: 33546210]
  • Eman M Othman, Moustafa Fathy, Amany Abdlrehim Bekhit, Abdel-Razik H Abdel-Razik, Arshad Jamal, Yousef Nazzal, Shabana Shams, Thomas Dandekar, Muhammad Naseem. Modulatory and Toxicological Perspectives on the Effects of the Small Molecule Kinetin. Molecules (Basel, Switzerland). 2021 Jan; 26(3):. doi: 10.3390/molecules26030670. [PMID: 33525350]
  • Waqar Afzal Malik, Imran Mahmood, Abdul Razzaq, Maria Afzal, Ghulam Abbas Shah, Asif Iqbal, Muhammad Zain, Allah Ditta, Saeed Ahmed Asad, Ishfaq Ahmad, Naimatullah Mangi, Wuwei Ye. Exploring potential of copper and silver nano particles to establish efficient callogenesis and regeneration system for wheat (Triticum aestivum L.). GM crops & food. 2021 Jan; 12(1):564-585. doi: 10.1080/21645698.2021.1917975. [PMID: 33938377]
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