Fusion crystallization reveals the behavior of both the 1TEL crystallization chaperone and the TNK1 UBA domain

Human thirty-eight-negative kinase-1 (TNK1) is implicated in cancer progression. The TNK1-UBA domain binds polyubiquitin and plays a regulatory role in TNK1 activity and stability. Sequence analysis suggests an unusual architecture for the TNK1 UBA domain, but an experimentally-validated molecular s...

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Autores principales: Nawarathnage, Supeshala, Tseng, Yi Jie, Soleimani, Sara, Smith, Tobin, Romo, Maria J Pedroza, Abiodun, Wisdom Oshireku, Egbert, Christina M., Madhusanka, Deshan, Bunn, Derick, Woods, Bridger, Tsubaki, Evan, Stewart, Cameron, Brown, Seth, Doukov, Tzanko, Andersen, Joshua L., Moody, James D.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cold Spring Harbor Laboratory 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10312729/
https://www.ncbi.nlm.nih.gov/pubmed/37398013
http://dx.doi.org/10.1101/2023.06.14.544429
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author Nawarathnage, Supeshala
Tseng, Yi Jie
Soleimani, Sara
Smith, Tobin
Romo, Maria J Pedroza
Abiodun, Wisdom Oshireku
Egbert, Christina M.
Madhusanka, Deshan
Bunn, Derick
Woods, Bridger
Tsubaki, Evan
Stewart, Cameron
Brown, Seth
Doukov, Tzanko
Andersen, Joshua L.
Moody, James D.
author_facet Nawarathnage, Supeshala
Tseng, Yi Jie
Soleimani, Sara
Smith, Tobin
Romo, Maria J Pedroza
Abiodun, Wisdom Oshireku
Egbert, Christina M.
Madhusanka, Deshan
Bunn, Derick
Woods, Bridger
Tsubaki, Evan
Stewart, Cameron
Brown, Seth
Doukov, Tzanko
Andersen, Joshua L.
Moody, James D.
author_sort Nawarathnage, Supeshala
collection PubMed
description Human thirty-eight-negative kinase-1 (TNK1) is implicated in cancer progression. The TNK1-UBA domain binds polyubiquitin and plays a regulatory role in TNK1 activity and stability. Sequence analysis suggests an unusual architecture for the TNK1 UBA domain, but an experimentally-validated molecular structure is undetermined. To gain insight into TNK1 regulation, we fused the UBA domain to the 1TEL crystallization chaperone and obtained crystals diffracting as far as 1.53 Å. A 1TEL search model enabled solution of the X-ray phases. GG and GSGG linkers allowed the UBA to reproducibly find a productive binding mode against its host 1TEL polymer and to crystallize at protein concentrations as low as 0.1 mg/mL. Our studies support a mechanism of TELSAM fusion crystallization and show that TELSAM fusion crystals require fewer crystal contacts than traditional protein crystals. Modeling and experimental validation suggest the UBA domain may be selective for both the length and linkages of polyubiquitin chains.
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spelling pubmed-103127292023-07-01 Fusion crystallization reveals the behavior of both the 1TEL crystallization chaperone and the TNK1 UBA domain Nawarathnage, Supeshala Tseng, Yi Jie Soleimani, Sara Smith, Tobin Romo, Maria J Pedroza Abiodun, Wisdom Oshireku Egbert, Christina M. Madhusanka, Deshan Bunn, Derick Woods, Bridger Tsubaki, Evan Stewart, Cameron Brown, Seth Doukov, Tzanko Andersen, Joshua L. Moody, James D. bioRxiv Article Human thirty-eight-negative kinase-1 (TNK1) is implicated in cancer progression. The TNK1-UBA domain binds polyubiquitin and plays a regulatory role in TNK1 activity and stability. Sequence analysis suggests an unusual architecture for the TNK1 UBA domain, but an experimentally-validated molecular structure is undetermined. To gain insight into TNK1 regulation, we fused the UBA domain to the 1TEL crystallization chaperone and obtained crystals diffracting as far as 1.53 Å. A 1TEL search model enabled solution of the X-ray phases. GG and GSGG linkers allowed the UBA to reproducibly find a productive binding mode against its host 1TEL polymer and to crystallize at protein concentrations as low as 0.1 mg/mL. Our studies support a mechanism of TELSAM fusion crystallization and show that TELSAM fusion crystals require fewer crystal contacts than traditional protein crystals. Modeling and experimental validation suggest the UBA domain may be selective for both the length and linkages of polyubiquitin chains. Cold Spring Harbor Laboratory 2023-06-14 /pmc/articles/PMC10312729/ /pubmed/37398013 http://dx.doi.org/10.1101/2023.06.14.544429 Text en https://creativecommons.org/licenses/by-nc-nd/4.0/This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License (https://creativecommons.org/licenses/by-nc-nd/4.0/) , which allows reusers to copy and distribute the material in any medium or format in unadapted form only, for noncommercial purposes only, and only so long as attribution is given to the creator.
spellingShingle Article
Nawarathnage, Supeshala
Tseng, Yi Jie
Soleimani, Sara
Smith, Tobin
Romo, Maria J Pedroza
Abiodun, Wisdom Oshireku
Egbert, Christina M.
Madhusanka, Deshan
Bunn, Derick
Woods, Bridger
Tsubaki, Evan
Stewart, Cameron
Brown, Seth
Doukov, Tzanko
Andersen, Joshua L.
Moody, James D.
Fusion crystallization reveals the behavior of both the 1TEL crystallization chaperone and the TNK1 UBA domain
title Fusion crystallization reveals the behavior of both the 1TEL crystallization chaperone and the TNK1 UBA domain
title_full Fusion crystallization reveals the behavior of both the 1TEL crystallization chaperone and the TNK1 UBA domain
title_fullStr Fusion crystallization reveals the behavior of both the 1TEL crystallization chaperone and the TNK1 UBA domain
title_full_unstemmed Fusion crystallization reveals the behavior of both the 1TEL crystallization chaperone and the TNK1 UBA domain
title_short Fusion crystallization reveals the behavior of both the 1TEL crystallization chaperone and the TNK1 UBA domain
title_sort fusion crystallization reveals the behavior of both the 1tel crystallization chaperone and the tnk1 uba domain
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10312729/
https://www.ncbi.nlm.nih.gov/pubmed/37398013
http://dx.doi.org/10.1101/2023.06.14.544429
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