Janny van den Burg

Overview

Explore the profile of Janny van den Burg including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 12

Citations 258

Followers 0

Related Specialties

Microbiology

Molecular Biology

Biochemistry

Top 10 Co-Authors

Ben Distel

Karin Strijbis

Marlene van den Berg

Carlo van Roermund

Guy Hardy

Els Mol

Frans Hochstenbach

Wouter F Visser

Areti Gkourtsa

Carlo W T van Roermund

Published In

Eukaryot Cell

J Biol Chem

FASEB J

Microb Cell

FEMS Yeast Res

Affiliations

Soon will be listed here.

Recent Articles

Early adipogenesis is repressed through the newly identified FHL2-NFAT5 signaling complex

Clemente-Olivo M, Hernandez-Quiles M, Sparrius R, van der Stoel M, Janssen V, Habibe J, et al.

Cell Signal . 2023 Jan; 104:110587. PMID: 36610523

The LIM-domain-only protein FHL2 is a modulator of signal transduction and has been shown to direct the differentiation of mesenchymal stem cells towards osteoblast and myocyte phenotypes. We hypothesized that...

Loss of nuclear UBE3A activity is the predominant cause of Angelman syndrome in individuals carrying UBE3A missense mutations

Bossuyt S, Punt A, de Graaf I, van den Burg J, Williams M, Heussler H, et al.

Hum Mol Genet . 2021 Feb; 30(6):430-442. PMID: 33607653

Angelman syndrome (AS) is a severe neurodevelopmental disorder caused by deletion (~75%) or mutation (~10%) of the ubiquitin E3 ligase A (UBE3A) gene, which encodes a HECT type E3 ubiquitin...

A versatile plasmid system for reconstitution and analysis of mammalian ubiquitination cascades in yeast

Avagliano Trezza R, van den Burg J, van den Oever N, Distel B

Microb Cell . 2018 Mar; 5(3):150-157. PMID: 29487861

Ubiquitination is a posttranslational protein modification that regulates most aspects of cellular life. The sheer number of ubiquitination enzymes that are present in a mammalian cell, over 700 in total,...

Binding of a proline-independent hydrophobic motif by the Candida albicans Rvs167-3 SH3 domain

Gkourtsa A, van den Burg J, Avula T, Hochstenbach F, Distel B

Microbiol Res . 2016 Jul; 190:27-36. PMID: 27393996

Src-homology 3 (SH3) domains are small protein-protein interaction modules. While most SH3 domains bind to proline-x-x-proline (PxxP) containing motifs in their binding partners, some SH3 domains recognize motifs other than...

Identification and characterization of Rvs162/Rvs167-3, a novel N-BAR heterodimer in the human fungal pathogen Candida albicans

Gkourtsa A, van den Burg J, Strijbis K, Avula T, Bijvoets S, Timm D, et al.

Eukaryot Cell . 2014 Dec; 14(2):182-93. PMID: 25548150

Membrane reshaping resides at the core of many important cellular processes, and among its mediators are the BAR (Bin, Amphiphysin, Rvs) domain-containing proteins. We have explored the diversity and function...

Alternative splicing directs dual localization of Candida albicans 6-phosphogluconate dehydrogenase to cytosol and peroxisomes

Strijbis K, van den Burg J, Visser W, van den Berg M, Distel B

FEMS Yeast Res . 2011 Nov; 12(1):61-8. PMID: 22094058

The pentose phosphate pathway (PPP) is the main source of NADPH in the cell and therefore essential for the maintenance of the redox balance and anabolic reactions. NADPH is produced...

Contributions of carnitine acetyltransferases to intracellular acetyl unit transport in Candida albicans

Strijbis K, van Roermund C, van den Burg J, van den Berg M, Hardy G, Wanders R, et al.

J Biol Chem . 2010 Jun; 285(32):24335-46. PMID: 20522553

Transport of acetyl-CoA between intracellular compartments is mediated by carnitine acetyltransferases (Cats) that reversibly link acetyl units to the carrier molecule carnitine. The genome of the opportunistic pathogenic yeast Candida...

Identification and characterization of a complete carnitine biosynthesis pathway in Candida albicans

Strijbis K, van Roermund C, Hardy G, van den Burg J, Bloem K, de Haan J, et al.

FASEB J . 2009 Mar; 23(8):2349-59. PMID: 19289605

Carnitine is an essential metabolite that enables intracellular transport of fatty acids and acetyl units. Here we show that the yeast Candida albicans can synthesize carnitine de novo, and we...

The activity of the glyoxylate cycle in peroxisomes of Candida albicans depends on a functional beta-oxidation pathway: evidence for reduced metabolite transport across the peroxisomal membrane

Piekarska K, Hardy G, Mol E, van den Burg J, Strijbis K, van Roermund C, et al.

Microbiology (Reading) . 2008 Oct; 154(Pt 10):3061-3072. PMID: 18832312

The glyoxylate cycle, a metabolic pathway required for generating C(4) units from C(2) compounds, is an important factor in virulence, in both animal and plant pathogens. Here, we report the...

10.

Carnitine-dependent transport of acetyl coenzyme A in Candida albicans is essential for growth on nonfermentable carbon sources and contributes to biofilm formation

Strijbis K, van Roermund C, Visser W, Mol E, van den Burg J, MacCallum D, et al.

Eukaryot Cell . 2008 Feb; 7(4):610-8. PMID: 18281597

In eukaryotes, acetyl coenzyme A (acetyl-CoA) produced during peroxisomal fatty acid beta-oxidation needs to be transported to mitochondria for further metabolism. Two parallel pathways for acetyl-CoA transport have been identified...