The evolution of Jen3 proteins and their role in dicarboxylic acid transport in Yarrowia
2014; Wiley; Volume: 4; Issue: 1 Linguagem: Inglês
10.1002/mbo3.225
ISSN2045-8827
AutoresRémi Dulermo, Heber Gamboa‐Meléndez, Stéphanie Michely, France Thévenieau, Cécile Neuvéglise, Jean‐Marc Nicaud,
Tópico(s)Genetic Neurodegenerative Diseases
ResumoAbstract Jen proteins in yeast are involved in the uptake of mono/dicarboxylic acids. The Jen1 subfamily transports lactate and pyruvate, while the Jen2 subfamily transports fumarate, malate, and succinate. Yarrowia lipolytica has six JEN genes: YALI 0B19470g , YALI 0C15488g , YALI 0C21406g , YALI 0D20108g , YALI 0D24607g , and YALI 0E32901g . Through phylogenetic analyses, we found that these genes represent a new subfamily, Jen3 and that these three Jen subfamilies derivate from three putative ancestral genes. Reverse transcription‐PCR. revealed that only four YLJEN genes are expressed and they are upregulated in the presence of lactate, pyruvate, fumarate, malate, and/or succinate, suggesting that they are able to transport these substrates. Analysis of deletion mutant strains revealed that Jen3 subfamily proteins transport fumarate, malate, and succinate. We found evidence that YALI 0C15488 encodes the main transporter because its deletion was sufficient to strongly reduce or suppress growth in media containing fumarate, malate, or succinate. It appears that the other YLJEN genes play a minor role, with the exception of YALI 0E32901g , which is important for malate uptake. However, the overexpression of each YLJEN gene in the sextuple‐deletion mutant strain Δ YL jen1‐6 revealed that all six genes are functional and have evolved to transport different substrates with varying degrees of efficacy. In addition, we found that YALI 0E32901p transported succinate more efficiently in the presence of lactate or fumarate.
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