Michael J Kerner

Overview

Explore the profile of Michael J Kerner including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 7

Citations 676

Followers 0

Related Specialties

Biochemistry

Cell Biology

Chemistry

Top 10 Co-Authors

F Ulrich Hartl

Manajit Hayer-Hartl

Costa Georgopoulos

Dean J Naylor

Matthias Mann

Hung-Chun Chang

Peter Wipf

Dmitrij Frishman

Yasushi Ishihama

Anna P Stines

Published In

Org Lett

Cell

J Biol Chem

BMC Genomics

Protein Sci

Affiliations

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Recent Articles

Carbamoyl Anion Addition to Azirines

Kerner M, Kuttruff C, Chevliakov M, Buono F, Gao D, Krawiec M, et al.

Org Lett . 2021 May; 23(11):4396-4399. PMID: 33988373

The addition of carbamoyl anions to azirines affords synthetically useful 2-aziridinyl amide building blocks. The reaction scope was explored with respect to both formamide and azirine, and the addition was...

Semipinacol-Type Rearrangements of [3-(Arylsulfonyl)bicyclo[1.1.0]butan-1-yl]alkanols

Kerner M, Wipf P

Org Lett . 2021 Apr; 23(9):3615-3619. PMID: 33872016

Selective lithiation of arylsulfonylbicyclo[1.1.0]butanes at the bridgehead methine and addition to carbonyl compounds yield tertiary bicyclobutyl alcohols that form spiro[3.4]octanes and related heteroatom-containing spirocycles via an acid- or halogen-mediated semipinacol...

Protein abundance profiling of the Escherichia coli cytosol

Ishihama Y, Schmidt T, Rappsilber J, Mann M, Hartl F, Kerner M, et al.

BMC Genomics . 2008 Feb; 9:102. PMID: 18304323

Background: Knowledge about the abundance of molecular components is an important prerequisite for building quantitative predictive models of cellular behavior. Proteins are central components of these models, since they carry...

Structural features of the GroEL-GroES nano-cage required for rapid folding of encapsulated protein

Tang Y, Chang H, Roeben A, Wischnewski D, Wischnewski N, Kerner M, et al.

Cell . 2006 Jun; 125(5):903-14. PMID: 16751100

GroEL and GroES form a chaperonin nano-cage for proteins up to approximately 60 kDa to fold in isolation. Here we explored the structural features of the chaperonin cage critical for...

Proteome-wide analysis of chaperonin-dependent protein folding in Escherichia coli

Kerner M, Naylor D, Ishihama Y, Maier T, Chang H, Stines A, et al.

Cell . 2005 Jul; 122(2):209-20. PMID: 16051146

The E. coli chaperonin GroEL and its cofactor GroES promote protein folding by sequestering nonnative polypeptides in a cage-like structure. Here we define the contribution of this system to protein...

A mobile loop order-disorder transition modulates the speed of chaperonin cycling

Shewmaker F, Kerner M, Hayer-Hartl M, Klein G, Georgopoulos C, Landry S

Protein Sci . 2004 Jul; 13(8):2139-48. PMID: 15238634

Molecular machines order and disorder polypeptides as they form and dissolve large intermolecular interfaces, but the biological significance of coupled ordering and binding has been established in few, if any,...

Functional characterization of an archaeal GroEL/GroES chaperonin system: significance of substrate encapsulation

Figueiredo L, Klunker D, Ang D, Naylor D, Kerner M, Georgopoulos C, et al.

J Biol Chem . 2003 Oct; 279(2):1090-9. PMID: 14576149

In all three kingdoms of life chaperonins assist the folding of a range of newly synthesized proteins. As shown recently, Archaea of the genus Methanosarcina contain both group I (GroEL/GroES)...