Citation Explorer

Revealing receptor-ligand interactions of atypical antipsychotic drugs and screening anti-schizophrenia ingredients in Magnolia officinalis based on 5-HTR2A-SNAP-Tag/CMC and DRD2-SNAP-Tag/CMC models.
Authors: Gao, Chunlei and Zhou, Tongpei and Liu, Sihan and Miao, Chenyang and Feng, Jingting and Ding, Yifan and Lv, Yanni
Journal: Journal of chromatography. A (2024): 464784

KIT-SNAP-tag/cell membrane chromatography model coupled with liquid chromatography-mass spectrometry for anti-GIST compound screening from Evodia rutaecarpa.
Authors: Feng, Jingting and Jiang, Yuhan and Liu, Sihan and Deng, Linge and Lv, Yanni and Chen, Nanzheng and Han, Shengli
Journal: Analytical and bioanalytical chemistry (2024): 1457-1468

Mapping histone variant genomic distribution: Exploiting SNAP-tag labeling to follow the dynamics of incorporation of H3 variants.
Authors: Forest, Audrey and Quivy, Jean-Pierre and Almouzni, Geneviève
Journal: Methods in cell biology (2024): 49-65

Application of SNAP-tag-EGFR cell membrane chromatography model in screening antitumor active components of Silybum marianum (L.) Gaertn.
Authors: Zhang, Xin and Jiang, Yuhan and Guo, Na and Ding, Yifan and Feng, Jingting and Miao, Chenyang and Lv, Yanni
Journal: Journal of pharmaceutical and biomedical analysis (2024): 115816

The Evolution of SNAP-Tag Labels.
Authors: Dreyer, Rudolf and Pfukwa, Rueben and Barth, Stefan and Hunter, Roger and Klumperman, Bert
Journal: Biomacromolecules (2023): 517-530

Click Chemistry-Generated Auristatin F-Linker-Benzylguanine for a SNAP-Tag-Based Recombinant Antibody-Drug Conjugate Demonstrating Selective Cytotoxicity toward EGFR-Overexpressing Tumor Cells.
Authors: Huysamen, Allan M and Fadeyi, Olaolu E and Mayuni, Grace and Dogbey, Dennis M and Mungra, Neelakshi and Biteghe, Fleury A N and Hardcastle, Natasha and Ramamurthy, Dharanidharan and Akinrinmade, Olusiji A and Naran, Krupa and Cooper, Susan and Lang, Dirk and Richter, Wolfgang and Hunter, Roger and Barth, Stefan
Journal: ACS omega (2023): 4026-4037

Establishment of angiotensin-converting enzyme 2 and cluster of differentiation 147 dual target cell membrane chromatography based on SNAP-tag technology for screening anti severe acute respiratory syndrome coronavirus 2 active components.
Authors: Wang, Hong and Jia, Qianqian and Feng, Jingting and Miao, Chenyang and Ding, Yifan and Liu, Sihan and Feng, Chaohua and Lv, Yanni and Huang, Jing and Han, Shengli
Journal: Journal of chromatography. A (2023): 463903

CSPG4 as a target for the specific killing of triple-negative breast cancer cells by a recombinant SNAP-tag-based antibody-auristatin F drug conjugate.
Authors: Mungra, Neelakshi and Biteghe, Fleury A N and Malindi, Zaria and Huysamen, Allan M and Karaan, Maryam and Hardcastle, Natasha S and Bunjun, Rubina and Chetty, Shivan and Naran, Krupa and Lang, Dirk and Richter, Wolfgang and Hunter, Roger and Barth, Stefan
Journal: Journal of cancer research and clinical oncology (2023): 12203-12225

Design of a palette of SNAP-tag mimics of fluorescent proteins and their use as cell reporters.
Authors: Zhang, Dasheng and Chen, Zhengda and Du, Zengmin and Bao, Bingkun and Su, Ni and Chen, Xianjun and Ge, Yihui and Lin, Qiuning and Yang, Lipeng and Hua, Yujie and Wang, Shuo and Hua, Xin and Zuo, Fangting and Li, Ningfeng and Liu, Renmei and Jiang, Li and Bao, Chunyan and Zhao, Yuzheng and Loscalzo, Joseph and Yang, Yi and Zhu, Linyong
Journal: Cell discovery (2023): 56

SNAP-Tag-Targeted MRI-Fluorescent Multimodal Probes.
Authors: Thankarajan, Ebaston and Oz, Shimrit and Saady, Abed and Kulbitski, Kseniya and Kompanets, Mykhail O and Eisen, Moris S and Berlin, Shai
Journal: Chembiochem : a European journal of chemical biology (2023): e202300172

Development of a Radiotracer for PET Imaging of the SNAP Tag.
Authors: Li, Xinling and Yang, Xiaochun and Li, Zhijian and Zheng, Xiaobin and Peng, Yong-Jian and Lin, Wenjie and Zhou, Ling and Cao, Dehai and Situ, Minyi and Tu, Qingqiang and Huang, Huiqiang and Fan, Wei and Feng, Guokai and Zhang, Xiaofei
Journal: ACS omega (2022): 7550-7555

Covalent immobilization of beta2 adrenergic receptor through trans-methylation reaction by SNAP-tag and its application in anti-asthmatic compound screening from Raphani Semen.
Authors: Wang, Jing and Gao, Qiuyu and Yin, Jiatai and Huang, Xiaomin and Wang, Taotao and Zhang, Peng and Li, Qian and Zhao, Xinfeng
Journal: Journal of pharmaceutical and biomedical analysis (2022): 114952

Controlling Protein Enrichment in Lipid Sponge Phase Droplets using SNAP-Tag Bioconjugation.
Authors: Moinpour, Mahta and Fracassi, Alessandro and Brea, Roberto J and Salvador-Castell, Marta and Pandey, Sudip and Edwards, Madison M and Seifert, Soenke and Joseph, Simpson and Sinha, Sunil K and Devaraj, Neal K
Journal: Chembiochem : a European journal of chemical biology (2022): e202100624

Magnetic nanoparticles covalently immobilizing epidermal growth factor receptor by SNAP-Tag protein as a platform for drug discovery.
Authors: Zhou, Huaxin and Fu, Jia and Jia, Qianqian and Wang, Saisai and Liang, Peida and Wang, Yamin and Lv, Yanni and Han, Shengli
Journal: Talanta (2022): 123204

MrgX2-SNAP-tag/cell membrane chromatography model coupled with liquid chromatography-mass spectrometry for anti-pseudo-allergic compound screening in Arnebiae Radix.
Authors: Jia, Qianqian and Fu, Jia and Gao, Chunlei and Wang, Hong and Wang, Saisai and Liang, Peida and Han, Shengli and Lv, Yanni and He, Langchong
Journal: Analytical and bioanalytical chemistry (2022): 5741-5753

A novel 18F-labeled clickable substrate for targeted imaging of SNAP-tag expressing cells by PET in vivo.
Authors: Depke, Dominic Alexej and Konken, Christian Paul and Rösner, Lukas and Hermann, Sven and Schäfers, Michael and Rentmeister, Andrea
Journal: Chemical communications (Cambridge, England) (2021): 9850-9853

Targeting and Covalently Immobilizing the EGFR through SNAP-Tag Technology for Screening Drug Leads.
Authors: Fu, Jia and Jia, Qianqian and Liang, Peida and Wang, Saisai and Zhou, Huaxin and Zhang, Liyang and Gao, Chunlei and Wang, Hong and Lv, Yanni and Han, Shengli
Journal: Analytical chemistry (2021): 11719-11728

SNAP-tag-enabled super-resolution imaging reveals constitutive and agonist-dependent trafficking of GPR56 in pancreatic β-cells.
Authors: Olaniru, Oladapo E and Cheng, Jordan and Ast, Julia and Arvaniti, Anastasia and Atanes, Patricio and Huang, Guo C and King, Aileen J F and Jones, Peter M and Broichhagen, Johannes and Hodson, David J and Persaud, Shanta J
Journal: Molecular metabolism (2021): 101285

Tuning the Reactivity of a Substrate for SNAP-Tag Expands Its Application for Recognition-Driven DNA-Protein Conjugation.
Authors: Zhang, Zhengxiao and Nakata, Eiji and Dinh, Huyen and Saimura, Masayuki and Rajendran, Arivazhagan and Matsuda, Kazunari and Morii, Takashi
Journal: Chemistry (Weinheim an der Bergstrasse, Germany) (2021): 18118-18128

An assembly-regulated SNAP-tag fluorogenic probe for long-term super-resolution imaging of mitochondrial dynamics.
Authors: Liu, Wenjuan and Qiao, Qinglong and Zheng, Jiazhu and Chen, Jie and Zhou, Wei and Xu, Ning and Li, Jin and Miao, Lu and Xu, Zhaochao
Journal: Biosensors & bioelectronics (2021): 112886

The SNAP-tag technology revised: an effective chemo-enzymatic approach by using a universal azide-based substrate.
Authors: Merlo, Rosa and Caprioglio, Diego and Cillo, Michele and Valenti, Anna and Mattossovich, Rosanna and Morrone, Castrese and Massarotti, Alberto and Rossi, Franca and Miggiano, Riccardo and Leonardi, Antonio and Minassi, Alberto and Perugino, Giuseppe
Journal: Journal of enzyme inhibition and medicinal chemistry (2021): 85-97

Application of SNAP-Tag in Expansion Super-Resolution Microscopy Using DNA Oligostrands.
Authors: Yao, Longfang and Zhang, Li and Fei, Yiyan and Chen, Liwen and Mi, Lan and Ma, Jiong
Journal: Frontiers in chemistry (2021): 640519

Kinetic and Structural Characterization of the Self-Labeling Protein Tags HaloTag7, SNAP-tag, and CLIP-tag.
Authors: Wilhelm, Jonas and Kühn, Stefanie and Tarnawski, Miroslaw and Gotthard, Guillaume and Tünnermann, Jana and Tänzer, Timo and Karpenko, Julie and Mertes, Nicole and Xue, Lin and Uhrig, Ulrike and Reinstein, Jochen and Hiblot, Julien and Johnsson, Kai
Journal: Biochemistry (2021): 2560-2575

Photo-SNAP-tag, a Light-Regulated Chemical Labeling System.
Authors: Cleveland, Joseph D and Tucker, Chandra L
Journal: ACS chemical biology (2020)

Interrogating surface versus intracellular transmembrane receptor populations using cell-impermeable SNAP-tag substrates.
Authors: Poc, Pascal and Gutzeit, Vanessa A and Ast, Julia and Lee, Joon and Jones, Ben J and D'Este, Elisa and Mathes, Bettina and Lehmann, Martin and Hodson, David J and Levitz, Joshua and Broichhagen, Johannes
Journal: Chemical science (2020): 7871-7883

Development of Strong Anaerobic Fluorescent Reporters for Clostridium acetobutylicum and Clostridium ljungdahlii Using HaloTag and SNAP-tag Proteins.
Authors: Charubin, Kamil and Streett, Hannah and Papoutsakis, Eleftherios Terry
Journal: Applied and environmental microbiology (2020)

Using the SNAP-Tag technology to easily measure and demonstrate apoptotic changes in cancer and blood cells with different dyes.
Authors: Woitok, Mira and Grieger, Elena and Akinrinmade, Olusiji A and Bethke, Susanne and Pham, Anh Tuan and Stein, Christoph and Fendel, Rolf and Fischer, Rainer and Barth, Stefan and Niesen, Judith
Journal: PloS one (2020): e0243286

The covalent SNAP tag for protein display quantification and low-pH protein engineering.
Authors: Jin, Wei and Madan, Bharat and Mussman, Brooklyn K and Hailemariam, Amen T and Fahad, Ahmed S and Wolfe, Jacy R and Kwon, Young Do and Zhang, Baoshan and Shapiro, Lawrence and Kwong, Peter D and DeKosky, Brandon J
Journal: Journal of biotechnology (2020): 50-56

An Improved Intracellular Synthetic Lipidation-Induced Plasma Membrane Anchoring System for SNAP-Tag Fusion Proteins.
Authors: Yoshii, Tatsuyuki and Tahara, Kai and Suzuki, Sachio and Hatano, Yuka and Kuwata, Keiko and Tsukiji, Shinya
Journal: Biochemistry (2020): 3044-3050

Visualizing and Manipulating Biological Processes by Using HaloTag and SNAP-Tag Technologies.
Authors: Hoelzel, Conner A and Zhang, Xin
Journal: Chembiochem : a European journal of chemical biology (2020): 1935-1946

[Combined application of SNAP-tag and fluorescence technique in in-situ protein analysis].
Authors: Qiao, Qinglong and Zhou, Wei and Chen, Jie and Liu, Wenjuan and Miao, Lu and Yin, Wenting and Xu, Zhaochao
Journal: Se pu = Chinese journal of chromatography (2019): 872-877

A SNAP-tag fluorogenic probe mimicking the chromophore of the red fluorescent protein Kaede.
Authors: Jung, Kwan Ho and Fares, Matthew and Grainger, Leeann S and Wolstenholme, Charles H and Hou, Anna and Liu, Yu and Zhang, Xin
Journal: Organic & biomolecular chemistry (2019): 1906-1915

One-step site-specific antibody fragment auto-conjugation using SNAP-tag technology.
Authors: Hussain, Ahmad Fawzi and Heppenstall, Paul A and Kampmeier, Florian and Meinhold-Heerlein, Ivo and Barth, Stefan
Journal: Nature protocols (2019): 3101-3125

Applications of SNAP-tag technology in skin cancer therapy.
Authors: Padayachee, Eden Rebecca and Adeola, Henry Ademola and Van Wyk, Jennifer Catherine and Nsole Biteghe, Fleury Augustine and Chetty, Shivan and Khumalo, Nonhlanhla Patience and Barth, Stefan
Journal: Health science reports (2019): e103

Beyond O6-Benzylguanine: O6-(5-Pyridylmethyl)guanine as a Substrate for the Self-Labeling Enzyme SNAP-Tag.
Authors: Macias-Contreras, Miguel and He, Huan and Zhu, Lei
Journal: Bioconjugate chemistry (2018): 4104-4109

Imaging Newly Synthesized and Old Histone Variant Dynamics Dependent on Chaperones Using the SNAP-Tag System.
Authors: Torné, Júlia and Orsi, Guillermo A and Ray-Gallet, Dominique and Almouzni, Geneviève
Journal: Methods in molecular biology (Clifton, N.J.) (2018): 207-221

SNAP-Tag-Based Subcellular Protein Labeling and Fluorescent Imaging with Naphthalimides.
Authors: Wang, Chao and Song, Xinbo and Xiao, Yi
Journal: Chembiochem : a European journal of chemical biology (2017): 1762-1769

Fine Tuning Antibody Conjugation Methods using SNAP-tag Technology.
Authors: Chouman, Karinna and Woitok, Mira and Mladenov, Radoslav and Kessler, Claudia and Weinhold, Elmar and Hanz, Gisela and Fischer, Rainer and Meinhold-Heerlein, Ivo and Bleilevens, Andreas and Gresch, Gerrit and Haugg, Anka Maria and Zeppernick, Felix and Bauerschlag, Dirk and Maass, Nicolai and Stickeler, Elmar and Kolberg, Katharina and Hussain, Ahmad Fawzi
Journal: Anti-cancer agents in medicinal chemistry (2017): 1434-1440

SNAP-Tag Technology: A Promising Tool for Ex Vivo Immunophenotyping.
Authors: Choudhary, Swati and Barth, Stefan and Verma, Rama S
Journal: Molecular diagnosis & therapy (2017): 315-326

Toward Discovery of Novel Microtubule Targeting Agents: A SNAP-tag-Based High-Content Screening Assay for the Analysis of Microtubule Dynamics and Cell Cycle Progression.
Authors: Berges, Nina and Arens, Katharina and Kreusch, Verena and Fischer, Rainer and Di Fiore, Stefano
Journal: SLAS discovery : advancing life sciences R & D (2017): 387-398

A wash-free SNAP-tag fluorogenic probe based on the additive effects of quencher release and environmental sensitivity.
Authors: Leng, Shuang and Qiao, Qinglong and Miao, Lu and Deng, Wuguo and Cui, Jingnan and Xu, Zhaochao
Journal: Chemical communications (Cambridge, England) (2017): 6448-6451

Specifically and wash-free labeling of SNAP-tag fused proteins with a hybrid sensor to monitor local micro-viscosity.
Authors: Wang, Chao and Song, Xinbo and Chen, Lingcheng and Xiao, Yi
Journal: Biosensors & bioelectronics (2017): 313-320

Synthesis of Janelia Fluor HaloTag and SNAP-Tag Ligands and Their Use in Cellular Imaging Experiments.
Authors: Grimm, Jonathan B and Brown, Timothy A and English, Brian P and Lionnet, Timothée and Lavis, Luke D
Journal: Methods in molecular biology (Clifton, N.J.) (2017): 179-188

Fluorescent Probe Encapsulated in SNAP-Tag Protein Cavity To Eliminate Nonspecific Fluorescence and Increase Detection Sensitivity.
Authors: Zeng, Yan-Syun and Gao, Ruo-Cing and Wu, Ting-Wei and Cho, Chien and Tan, Kui-Thong
Journal: Bioconjugate chemistry (2016): 1872-9

Monitoring Nitric Oxide in Subcellular Compartments by Hybrid Probe Based on Rhodamine Spirolactam and SNAP-tag.
Authors: Wang, Chao and Song, Xinbo and Han, Zhuo and Li, Xiaoyu and Xu, Yongping and Xiao, Yi
Journal: ACS chemical biology (2016): 2033-40

Functional Characterization of Histone Chaperones Using SNAP-Tag-Based Imaging to Assess De Novo Histone Deposition.
Authors: Clément, C and Vassias, I and Ray-Gallet, D and Almouzni, G
Journal: Methods in enzymology (2016): 97-117

SNAP-Tag Technology: A Useful Tool To Determine Affinity Constants and Other Functional Parameters of Novel Antibody Fragments.
Authors: Niesen, Judith and Sack, Markus and Seidel, Melanie and Fendel, Rolf and Barth, Stefan and Fischer, Rainer and Stein, Christoph
Journal: Bioconjugate chemistry (2016): 1931-41

A Broad G Protein-Coupled Receptor Internalization Assay that Combines SNAP-Tag Labeling, Diffusion-Enhanced Resonance Energy Transfer, and a Highly Emissive Terbium Cryptate.
Authors: Levoye, Angélique and Zwier, Jurriaan M and Jaracz-Ros, Agnieszka and Klipfel, Laurence and Cottet, Martin and Maurel, Damien and Bdioui, Sara and Balabanian, Karl and Prézeau, Laurent and Trinquet, Eric and Durroux, Thierry and Bachelerie, Françoise
Journal: Frontiers in endocrinology (2015): 167

Tracking a protein following dissociation from a protein-protein complex using a split SNAP-tag system.
Authors: Mie, Masayasu and Naoki, Tatsuhiko and Kobatake, Eiry
Journal: Analytical biochemistry (2015): 53-5

Capturing Cell-Cell Interactions via SNAP-tag and CLIP-tag Technology.
Authors: Hoehnel, S and Lutolf, M P
Journal: Bioconjugate chemistry (2015): 1678-86