Reduction in adaptor amounts establishes degradation hierarchy among protease substrates [Microbiology]

Jinki Yeom, Xiaohui Gao, Eduardo A. Groisman
National Academy of Sciences
Published 2018

Publication Date:	2018-05-09
Publisher:	National Academy of Sciences
Print ISSN:	0027-8424
Electronic ISSN:	1091-6490
Topics:	Biology Medicine Natural Sciences in General
Published by:	http://www.nasonline.org/

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autor	Jinki Yeom, Xiaohui Gao, Eduardo A. Groisman
beschreibung	ATP-dependent proteases control critical cellular processes, including development, physiology, and virulence. A given protease may recognize a substrate directly via an unfoldase domain or subunit or indirectly via an adaptor that delivers the substrate to the unfoldase. We now report that cells achieve differential stability among substrates of a given...
citation_standardnr	6254289
datenlieferant	ipn_articles
feed_id	113
feed_publisher	National Academy of Sciences
feed_publisher_url	http://www.nasonline.org/
insertion_date	2018-05-09
journaleissn	1091-6490
journalissn	0027-8424
publikationsjahr_anzeige	2018
publikationsjahr_facette	2018
publikationsjahr_intervall	7984:2015-2019
publikationsjahr_sort	2018
publisher	National Academy of Sciences
quelle	PNAS - Proceedings of the National Academy of Sciences
relation	http://www.pnas.org/content/115/19/E4483.short?rss=1
search_space	articles
shingle_author_1	Jinki Yeom, Xiaohui Gao, Eduardo A. Groisman
shingle_author_2	Jinki Yeom, Xiaohui Gao, Eduardo A. Groisman
shingle_author_3	Jinki Yeom, Xiaohui Gao, Eduardo A. Groisman
shingle_author_4	Jinki Yeom, Xiaohui Gao, Eduardo A. Groisman
shingle_catch_all_1	Reduction in adaptor amounts establishes degradation hierarchy among protease substrates [Microbiology] ATP-dependent proteases control critical cellular processes, including development, physiology, and virulence. A given protease may recognize a substrate directly via an unfoldase domain or subunit or indirectly via an adaptor that delivers the substrate to the unfoldase. We now report that cells achieve differential stability among substrates of a given... Jinki Yeom, Xiaohui Gao, Eduardo A. Groisman National Academy of Sciences 0027-8424 00278424 1091-6490 10916490
shingle_catch_all_2	Reduction in adaptor amounts establishes degradation hierarchy among protease substrates [Microbiology] ATP-dependent proteases control critical cellular processes, including development, physiology, and virulence. A given protease may recognize a substrate directly via an unfoldase domain or subunit or indirectly via an adaptor that delivers the substrate to the unfoldase. We now report that cells achieve differential stability among substrates of a given... Jinki Yeom, Xiaohui Gao, Eduardo A. Groisman National Academy of Sciences 0027-8424 00278424 1091-6490 10916490
shingle_catch_all_3	Reduction in adaptor amounts establishes degradation hierarchy among protease substrates [Microbiology] ATP-dependent proteases control critical cellular processes, including development, physiology, and virulence. A given protease may recognize a substrate directly via an unfoldase domain or subunit or indirectly via an adaptor that delivers the substrate to the unfoldase. We now report that cells achieve differential stability among substrates of a given... Jinki Yeom, Xiaohui Gao, Eduardo A. Groisman National Academy of Sciences 0027-8424 00278424 1091-6490 10916490
shingle_catch_all_4	Reduction in adaptor amounts establishes degradation hierarchy among protease substrates [Microbiology] ATP-dependent proteases control critical cellular processes, including development, physiology, and virulence. A given protease may recognize a substrate directly via an unfoldase domain or subunit or indirectly via an adaptor that delivers the substrate to the unfoldase. We now report that cells achieve differential stability among substrates of a given... Jinki Yeom, Xiaohui Gao, Eduardo A. Groisman National Academy of Sciences 0027-8424 00278424 1091-6490 10916490
shingle_title_1	Reduction in adaptor amounts establishes degradation hierarchy among protease substrates [Microbiology]
shingle_title_2	Reduction in adaptor amounts establishes degradation hierarchy among protease substrates [Microbiology]
shingle_title_3	Reduction in adaptor amounts establishes degradation hierarchy among protease substrates [Microbiology]
shingle_title_4	Reduction in adaptor amounts establishes degradation hierarchy among protease substrates [Microbiology]
timestamp	2025-06-30T23:34:46.134Z
titel	Reduction in adaptor amounts establishes degradation hierarchy among protease substrates [Microbiology]
titel_suche	Reduction in adaptor amounts establishes degradation hierarchy among protease substrates [Microbiology]
topic	W WW-YZ TA-TD
uid	ipn_articles_6254289