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#abpp — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #abpp, aggregated by home.social.

  1. Great to hear the full story of this exciting project that is done in collaboration with, among others, Madeline Kavanagh, of our @LED3hub. (2/2)

    #ChemBio #Chemistry #Synthesis #SAR #Tuberculosis #Virulence #ABPP #PAL

  2. Great to hear the full story of this exciting project that is done in collaboration with, among others, Madeline Kavanagh, of our @LED3hub. (2/2)

    #ChemBio #Chemistry #Synthesis #SAR #Tuberculosis #Virulence #ABPP #PAL

  3. Great to hear the full story of this exciting project that is done in collaboration with, among others, Madeline Kavanagh, of our @LED3hub. (2/2)

    #ChemBio #Chemistry #Synthesis #SAR #Tuberculosis #Virulence #ABPP #PAL

  4. Great to hear the full story of this exciting project that is done in collaboration with, among others, Madeline Kavanagh, of our @LED3hub. (2/2)

    #ChemBio #Chemistry #Synthesis #SAR #Tuberculosis #Virulence #ABPP #PAL

  5. Interesting paper by the group of Rolf Breinbauer in Organic & Biomolecular Chemistry. They synthesized three α-fluoromethyl naphthoquinone-based probes as potentially reduction-activated probes for oxidoreductases, but found promiscuous reactivity.

    pubs.rsc.org/en/content/articl
    #Chemistry #ChemBio #ABPP #ChemPro #ProteoProbes #ChemicalProteomics

  6. Interesting paper by the group of Rolf Breinbauer in Organic & Biomolecular Chemistry. They synthesized three α-fluoromethyl naphthoquinone-based probes as potentially reduction-activated probes for oxidoreductases, but found promiscuous reactivity.

    pubs.rsc.org/en/content/articl
    #Chemistry #ChemBio #ABPP #ChemPro #ProteoProbes #ChemicalProteomics

  7. Interesting paper by the group of Rolf Breinbauer in Organic & Biomolecular Chemistry. They synthesized three α-fluoromethyl naphthoquinone-based probes as potentially reduction-activated probes for oxidoreductases, but found promiscuous reactivity.

    pubs.rsc.org/en/content/articl
    #Chemistry #ChemBio #ABPP #ChemPro #ProteoProbes #ChemicalProteomics

  8. Interesting paper by the group of Rolf Breinbauer in Organic & Biomolecular Chemistry. They synthesized three α-fluoromethyl naphthoquinone-based probes as potentially reduction-activated probes for oxidoreductases, but found promiscuous reactivity.

    pubs.rsc.org/en/content/articl
    #Chemistry #ChemBio #ABPP #ChemPro #ProteoProbes #ChemicalProteomics

  9. Interesting bioRxiv preprint by the group of Michael Taylor. They designed new derivatives of N-substituted pyridinium salts for tryptophan labeling that allow labeling of the proteome with green light.

    biorxiv.org/content/10.1101/20
    #Chemistry #ChemBio #ABPP #ChemPro #ProteoProbes

  10. Interesting bioRxiv preprint by the group of Michael Taylor. They designed new derivatives of N-substituted pyridinium salts for tryptophan labeling that allow labeling of the proteome with green light.

    biorxiv.org/content/10.1101/20
    #Chemistry #ChemBio #ABPP #ChemPro #ProteoProbes

  11. Interesting bioRxiv preprint by the group of Michael Taylor. They designed new derivatives of N-substituted pyridinium salts for tryptophan labeling that allow labeling of the proteome with green light.

    biorxiv.org/content/10.1101/20
    #Chemistry #ChemBio #ABPP #ChemPro #ProteoProbes

  12. Interesting bioRxiv preprint by the group of Michael Taylor. They designed new derivatives of N-substituted pyridinium salts for tryptophan labeling that allow labeling of the proteome with green light.

    biorxiv.org/content/10.1101/20
    #Chemistry #ChemBio #ABPP #ChemPro #ProteoProbes

  13. Interesting bioRxiv preprint by the group of Michael Taylor. They designed new derivatives of N-substituted pyridinium salts for tryptophan labeling that allow labeling of the proteome with green light.

    biorxiv.org/content/10.1101/20
    #Chemistry #ChemBio #ABPP #ChemPro #ProteoProbes

  14. Interesting talk by Weining Zhao at #ISCPDD. He talked about the use of #ChemicalProteomics to study the target proteins of Fraxetin. They identified PTGR2 as a relevant target in human cells.

    pubs.rsc.org/en/content/articl
    #ABPP #AfBPP #Chemistry #ChemBio #ProteoProbes #ChemPro

  15. Interesting talk by Weining Zhao at #ISCPDD. He talked about the use of #ChemicalProteomics to study the target proteins of Fraxetin. They identified PTGR2 as a relevant target in human cells.

    pubs.rsc.org/en/content/articl
    #ABPP #AfBPP #Chemistry #ChemBio #ProteoProbes #ChemPro

  16. Interesting talk by Weining Zhao at #ISCPDD. He talked about the use of #ChemicalProteomics to study the target proteins of Fraxetin. They identified PTGR2 as a relevant target in human cells.

    pubs.rsc.org/en/content/articl
    #ABPP #AfBPP #Chemistry #ChemBio #ProteoProbes #ChemPro

  17. Interesting talk by Weining Zhao at #ISCPDD. He talked about the use of #ChemicalProteomics to study the target proteins of Fraxetin. They identified PTGR2 as a relevant target in human cells.

    pubs.rsc.org/en/content/articl
    #ABPP #AfBPP #Chemistry #ChemBio #ProteoProbes #ChemPro

  18. Interesting talk by Weining Zhao at #ISCPDD. He talked about the use of #ChemicalProteomics to study the target proteins of Fraxetin. They identified PTGR2 as a relevant target in human cells.

    pubs.rsc.org/en/content/articl
    #ABPP #AfBPP #Chemistry #ChemBio #ProteoProbes #ChemPro

  19. Interesting bioRxiv preprint by the group of Ben Cravatt and Bruno Melillo of Scripps Research with first author Rachel Hayward. They profile tryptoline stereoprobes elaborated at remote positions with #ABPP and find striking influence of remote substituents on the target profile. (1/2)

    doi.org/10.1101/2025.10.20.683

    #Chemistry #ChemBio #ChemicalProteomics #ChemPro #ProteoProbes

  20. Interesting bioRxiv preprint by the group of Ben Cravatt and Bruno Melillo with first author Rachel Hayward. They profile tryptoline stereoprobes elaborated at remote positions with #ABPP and find striking influence of remote substituents on the target profile. (1/2) doi.org/10.1101/2025...

    Tryptoline Stereoprobe Elabora...

  21. I envy the glycoscience community for their #glycotime hashtag. A great way to make posts visible. Anyone in #ChemicalProteomics that has a good idea, which hashtag we might use to make all of our work more visible and findable?
    #Chemistry #ChemBio #DrugDiscovery #ABPP
    nature.com/articles/s41587-025

  22. I envy the glycoscience community for their #glycotime hashtag. A great way to make posts visible. Anyone in #ChemicalProteomics that has a good idea, which hashtag we might use to make all of our work more visible and findable?
    #Chemistry #ChemBio #DrugDiscovery #ABPP
    nature.com/articles/s41587-025

  23. I envy the glycoscience community for their #glycotime hashtag. A great way to make posts visible. Anyone in #ChemicalProteomics that has a good idea, which hashtag we might use to make all of our work more visible and findable?
    #Chemistry #ChemBio #DrugDiscovery #ABPP
    nature.com/articles/s41587-025

  24. I envy the glycoscience community for their #glycotime hashtag. A great way to make posts visible. Anyone in #ChemicalProteomics that has a good idea, which hashtag we might use to make all of our work more visible and findable?
    #Chemistry #ChemBio #DrugDiscovery #ABPP
    nature.com/articles/s41587-025

  25. I envy the glycoscience community for their #glycotime hashtag. A great way to make posts visible. Anyone in #ChemicalProteomics that has a good idea, which hashtag we might use to make all of our work more visible and findable?
    #Chemistry #ChemBio #DrugDiscovery #ABPP
    nature.com/articles/s41587-025

  26. Interesting paper by the groups of X. Lu, L. Zhou and Y. Sun in @angewandtechemie.bsky.social. #ABPP data guides warhead and target selection for lysine-directed DNA-encoded libraries with squaramides, salicylaldehydes and nitrobenzyl alcohols. (1/2) #ChemBio #Chemsky onlinelibrary.wiley....

  27. Interesting paper by the groups of X. Lu, L. Zhou and Y. Sun in Angewandte Chemie. #ABPP data guides warhead and target selection for lysine-directed DNA-encoded libraries with squaramides, salicylaldehydes and nitrobenzyl alcohols. (1/2) #ChemBio #Chemistry onlinelibrary.wiley.com/doi/10

  28. #FocusOnCovalentDrugs is off to a great start with an inspiring talk by Marcus Bantscheff. He talked about the various #chemoproteomics technologies that his group is applying to better understand the targets of small molecule drugs. Interesting insights into #ABPP and #TPP. (1/2)
    #Chemistry #ChemBio

  29. #FocusOnCovalentDrugs is off to a great start with an inspiring talk by Marcus Bantscheff. He talked about the various #chemoproteomics technologies that his group is applying to better understand the targets of small molecule drugs. Interesting insights into #ABPP and #TPP. (1/2)
    #Chemistry #ChemBio

  30. #FocusOnCovalentDrugs is off to a great start with an inspiring talk by Marcus Bantscheff. He talked about the various #chemoproteomics technologies that his group is applying to better understand the targets of small molecule drugs. Interesting insights into #ABPP and #TPP. (1/2)
    #Chemistry #ChemBio

  31. The flash talk session and the posters were a highlight of #ABPP2025. We heard a lot of exciting research into #covalent #fragment screening, #antibiotic development, #microbiome activities, posttranslational modifications #PTMs and lysine-directed #kinase inhibitors.
    #ABPP #Chemistry #ChemBio

  32. The flash talk session and the posters were a highlight of #ABPP2025. We heard a lot of exciting research into #covalent #fragment screening, #antibiotic development, #microbiome activities, posttranslational modifications #PTMs and lysine-directed #kinase inhibitors.
    #ABPP #Chemistry #ChemBio

  33. The flash talk session and the posters were a highlight of #ABPP2025. We heard a lot of exciting research into #covalent #fragment screening, #antibiotic development, #microbiome activities, posttranslational modifications #PTMs and lysine-directed #kinase inhibitors.
    #ABPP #Chemistry #ChemBio

  34. Looking forward to the #ABPP2025 meeting in London starting this weekend. An amazing lineup of world-leading speakers in the field from academia and industry!

    If you are there on Saturday or Sunday morning and want to catch up, send me a message!

    #ABPP #ChemBio

    eventcreate.com/e/abpp2025/

  35. Looking forward to the #ABPP2025 meeting in London starting this weekend. An amazing lineup of world-leading speakers in the field from academia and industry!

    If you are there on Saturday or Sunday morning and want to catch up, send me a message!

    #ABPP #ChemBio

    eventcreate.com/e/abpp2025/

  36. Looking forward to the #ABPP2025 meeting in London starting this weekend. An amazing lineup of world-leading speakers in the field from academia and industry!

    If you are there on Saturday or Sunday morning and want to catch up, send me a message!

    #ABPP #ChemBio

    eventcreate.com/e/abpp2025/

  37. He then zoomed in on protein S-palmitoylation as the main modification that his group is interested in. In this context, he introduced the power of #ABPP to study this modification. (3/5) pubs.acs.org/doi/full/10.1021/

  38. Inspiring keynote lecture by Uwe Grether of Roche at the #Lunteren meeting of the #SOC and #MCCB divisions of KNCV. He talked about the impressive story of developing MAGL inhibitors into the clinics through a huge diversity of technologies including #ABPP, #AI, #LSF and #HTE.

  39. If you are looking for exciting scientific content (with a focus on #ChemBio, #Chemistry, #ABPP, #ChemicalProteomics) over on bluesky, check out these starter packs:
    short list: go.bsky.app/C4URhFa
    pack 1: go.bsky.app/3SyoVNw
    pack 2: go.bsky.app/9keb2TP

  40. Interesting preprint @biorxivpreprint by the group of @DanNomura. They put an electrophilic handle on the CDK4/6 inhibitor Ribociclib and show that it converts it into a #proteindegrader #TPD. Using #ABPP #ChemicalBiology, they identify RNF126 as responsible E3 ligase. Furthermore, they identify a minimal motif engaging RNF126 and use it to convert various protein ligands into degraders for e.g. CDK4, BCR-ABL and c-ABL, PDE5, BRD4, AR and AR-V7, BTK, SMARCA2, and LRRK2. doi.org/10.1101/2022.11.04.512