Michael Kertesz

Overview

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

Snapshot

Articles 18

Citations 5136

Followers 0

Related Specialties

Science

Microbiology

Cell Biology

Top 10 Co-Authors

Eran Segal

Howard Y Chang

Dmitry Pushkarev

Sikander Sultan

Timothy A Blauwkamp

Yue Wan

Shamsa Akbar

Mark Kowarsky

Stephen R Quake

Jennifer Okamoto

Published In

Proc Natl Acad Sci U S A

Biochemistry

Nat Genet

Methods Mol Biol

Nat Biotechnol

Affiliations

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Recent Articles

11.

Understanding the transcriptome through RNA structure

Wan Y, Kertesz M, Spitale R, Segal E, Chang H

Nat Rev Genet . 2011 Aug; 12(9):641-55. PMID: 21850044

RNA structure is crucial for gene regulation and function. In the past, transcriptomes have largely been parsed by primary sequences and expression levels, but it is now becoming feasible to...

12.

Computational prediction of RNA structural motifs involved in post-transcriptional regulatory processes

Rabani M, Kertesz M, Segal E

Methods Mol Biol . 2011 Mar; 714:467-79. PMID: 21431758

mRNA molecules are tightly regulated, mostly through interactions with proteins and other RNAs, but the mechanisms that confer the specificity of such interactions are poorly understood. It is clear, however,...

13.

Genome-wide measurement of RNA secondary structure in yeast

Kertesz M, Wan Y, Mazor E, Rinn J, Nutter R, Chang H, et al.

Nature . 2010 Sep; 467(7311):103-7. PMID: 20811459

The structures of RNA molecules are often important for their function and regulation, yet there are no experimental techniques for genome-scale measurement of RNA structure. Here we describe a novel...

14.

Computational prediction of RNA structural motifs involved in posttranscriptional regulatory processes

Rabani M, Kertesz M, Segal E

Proc Natl Acad Sci U S A . 2008 Sep; 105(39):14885-90. PMID: 18815376

Messenger RNA molecules are tightly regulated, mostly through interactions with proteins and other RNAs, but the mechanisms that confer the specificity of such interactions are poorly understood. It is clear,...

15.

The role of site accessibility in microRNA target recognition

Kertesz M, Iovino N, Unnerstall U, Gaul U, Segal E

Nat Genet . 2007 Sep; 39(10):1278-84. PMID: 17893677

MicroRNAs are key regulators of gene expression, but the precise mechanisms underlying their interaction with their mRNA targets are still poorly understood. Here, we systematically investigate the role of target-site...

16.

Functional demarcation of active and silent chromatin domains in human HOX loci by noncoding RNAs

Rinn J, Kertesz M, Wang J, Squazzo S, Xu X, Brugmann S, et al.

Cell . 2007 Jul; 129(7):1311-23. PMID: 17604720

Noncoding RNAs (ncRNA) participate in epigenetic regulation but are poorly understood. Here we characterize the transcriptional landscape of the four human HOX loci at five base pair resolution in 11...

17.

Succinate complex crystal structures of the alpha-ketoglutarate-dependent dioxygenase AtsK: steric aspects of enzyme self-hydroxylation

Muller I, Stuckl C, Wakeley J, Kertesz M, Uson I

J Biol Chem . 2004 Nov; 280(7):5716-23. PMID: 15542595

The alkylsulfatase AtsK from Pseudomonas putida S-313 is a member of the non-heme iron(II)-alpha-ketoglutarate-dependent dioxygenase superfamily. In the initial step of their catalytic cycle, enzymes belonging to this widespread and...

18.

Crystal structure of the alkylsulfatase AtsK: insights into the catalytic mechanism of the Fe(II) alpha-ketoglutarate-dependent dioxygenase superfamily

Muller I, Kahnert A, Pape T, Sheldrick G, Meyer-Klaucke W, Dierks T, et al.

Biochemistry . 2004 Mar; 43(11):3075-88. PMID: 15023059

The alkylsulfatase AtsK from Pseudomonas putida S-313 belongs to the widespread and versatile non-heme iron(II) alpha-ketoglutarate-dependent dioxygenase superfamily and catalyzes the oxygenolytic cleavage of a variety of different alkyl sulfate...