IRESite: the database of experimentally verified IRES structures ()

IRESite is an exhaustive, manually annotated non-redundant relational database focused on the IRES elements (Internal Ribosome Entry Site) and containing information not available in the primary public databases. IRES elements were originally found in eukaryotic viruses hijacking initiation of translation of their host. Later on, they were also discovered in 5′-untranslated regions of some eukaryotic mRNA molecules. Currently, IRESite presents up to 92 biologically relevant aspects of every experiment, e.g. the nature of an IRES element, its functionality/defectivity, origin, size, sequence, structure, its relative position with respect to surrounding protein coding regions, positive/negative controls used in the experiment, the reporter genes used to monitor IRES activity, the measured reporter protein yields/activities, and references to original publications as well as cross-references to other databases, and also comments from submitters and our curators. Furthermore, the site presents the known similarities to rRNA sequences as well as RNA–protein interactions. Special care is given to the annotation of promoter-like regions. The annotated data in IRESite are bound to mostly complete, full-length mRNA, and whenever possible, accompanied by original plasmid vector sequences. New data can be submitted through the publicly available web-based interface at and are curated by a team of lab-experienced biologists

ISG20L2: an RNA nuclease regulating T cell activation.

ISG20L2, a 3' to 5' exoribonuclease previously associated with ribosome biogenesis, is identified here in activated T cells as an enzyme with a preferential affinity for uridylated miRNA substrates. This enzyme is upregulated in T lymphocytes upon TCR and IFN type I stimulation and appears to be involved in regulating T cell function. ISG20L2 silencing leads to an increased basal expression of CD69 and induces greater IL2 secretion. However, ISG20L2 absence impairs CD25 upregulation, CD3 synaptic accumulation and MTOC translocation towards the antigen-presenting cell during immune synapsis. Remarkably, ISG20L2 controls the expression of immunoregulatory molecules, such as AHR, NKG2D, CTLA-4, CD137, TIM-3, PD-L1 or PD-1, which show increased levels in ISG20L2 knockout T cells. The dysregulation observed in these key molecules for T cell responses support a role for this exonuclease as a novel RNA-based regulator of T cell function.This study was supported by grant P2022/BMD7209- INTEGRAMUNE from the Comunidad de Madrid, a grant from “La Caixa” Banking Foundation (HR17-00016) to FS-M; the Spanish Ministerio de Ciencia e Innovación (PDC2021-121719-I00 and PID2020-120412RB-I00 to FS-M), grant from AECC, CIBER Cardiovascular (CB16/11/00272, Fondo de Investigación Sanitaria del Instituto de Salud Carlos III and co-funding by Fondo Europeo de Desarrollo Regional FEDER). The Centro Nacional de Investigaciones Cardiovasculares (CNIC) is supported by the Spanish Ministry of Economy and Competitiveness (MINECO) and the Pro-CNIC Foundation, and is a Severo Ochoa Center of Excellence (MINECO award SEV-2015- 0505). Vaňáčová’s laboratory is supported by the Czech Science Foundation (20-19617S and 23-07372S to S.V.) and the institutional support CEITEC 2020 (LQ1601). ARG and SGD are supported by a grant from the Spanish Ministry of Universities. Funding agencies do not have intervened in the design of the studies, with no copyright over the study.S

S čepičkou nebo bez čepičky? Iniciace translace eukaryot se zaměřením na opurtunního patogena C. albicans

Candida albicans belongs to serious human opportunistic pathogens, causing severe health complications to immunocompromised patients. To my best knowledge, it is the only organism that survives with unmethylated cap structures found on the 5'ends of mRNA molecules. Using functional assay, I demonstrated that orf19.7626 codes for C. albicans translation initiation factor 4E (Ca4E). We couldn't prove our hypothesis, that Ca4E could be responsible for the unmethylated cap recognition in our model organism S. cerevisiae. Candida sp. possesses also another rather unusual feature - ambiguous CUG codon. In most of the cases, CUG is decoded as a serine, but sometimes also as a leucine. This gives rise to a so called "statistical proteome". One CUG codon is also part of the mRNA coding for Ca4E protein, therefore two versions of Ca4E-Ca4ELeu and Ca4ESer -might occur in C. albicans simultaneously. Both of them are able to rescue deletion of S. cerevisiae eIF4E gene, but they confer temperature sensitivity to the heterologous host. This phenotype is more pronounced with the Ca4ELeu version. We observed milder temperature sensitive phenotype after co-expression of Ca4E together with C. albicans eIF4G (Ca4G). Conformational coupling between eIF4E and eIF4G leads to enhanced affinity of eIF4E to the cap...Candida albicans je bezpochyby veľmi dôležitý oportúnny patogén, ohrozujúci hlavne imunokompromitovaných pacientov. Pokiaľ viem, ide o jediný organizmus, ktorý je schopný prežívať s nemetylovanými čiapočkami nachádzajúcimi sa na 5'konci mRNA. Funkčnou analýzou som potvrdila, že orf19.7626 kóduje translačný iniciačný faktor 4E C. albicans (Ca4E). Predpoklad, že Ca4E proteín by mohol rozpoznávať nemetylované čiapočky, sa nám v modelovom organizme S. cerevisiae nepodarilo potvrdiť. Rod Candida má však aj ďalšiu zvláštnosť- dvojaké dekódovanie CUG kodónu. Vo veľkej väčšine prípadov je dekódovaný ako serín, ale môže ísť aj o leucín, takže vzniká tzv. "štatistický proteóm". Jeden takýto kodón je aj súčasťou mRNA Ca4E proteínu. U C. albicans by sa teda mohli vyskytovať súčasne dve varianty Ca4E - Ca4ELeu a Ca4ESer . Obe formy dokážu nahradiť eIF4E S. cerevisiae, ale spôsobujú termosenzitívny fenotyp, ktorý je výraznejší v prípade Ca4ELeu proteínu. Zmiernenie termosenzitívneho fenotypu sa podarilo docieliť koprodukciou Ca4E spolu s C. albicans eIF4G proteínom (Ca4G). Úlohou eIF4G je prepojiť mRNA s 43S podjednotkou ribozómu pomocou interakcie s eIF4E, ktorá zároveň zvyšuje afinitu eIF4E k čiapočke. Preto sa domnievam, že interakcia Ca4E s eIF4G proteínom S. cerevisiae nie je dostačujúca. Ca4G taktiež...Department of Genetics and MicrobiologyKatedra genetiky a mikrobiologieFaculty of SciencePřírodovědecká fakult

To cap or not to cap? Eukaryotic translation initiation with a special interest in human opportunistic pathogen C. albicans

Candida albicans belongs to serious human opportunistic pathogens, causing severe health complications to immunocompromised patients. To my best knowledge, it is the only organism that survives with unmethylated cap structures found on the 5'ends of mRNA molecules. Using functional assay, I demonstrated that orf19.7626 codes for C. albicans translation initiation factor 4E (Ca4E). We couldn't prove our hypothesis, that Ca4E could be responsible for the unmethylated cap recognition in our model organism S. cerevisiae. Candida sp. possesses also another rather unusual feature - ambiguous CUG codon. In most of the cases, CUG is decoded as a serine, but sometimes also as a leucine. This gives rise to a so called "statistical proteome". One CUG codon is also part of the mRNA coding for Ca4E protein, therefore two versions of Ca4E-Ca4ELeu and Ca4ESer -might occur in C. albicans simultaneously. Both of them are able to rescue deletion of S. cerevisiae eIF4E gene, but they confer temperature sensitivity to the heterologous host. This phenotype is more pronounced with the Ca4ELeu version. We observed milder temperature sensitive phenotype after co-expression of Ca4E together with C. albicans eIF4G (Ca4G). Conformational coupling between eIF4E and eIF4G leads to enhanced affinity of eIF4E to the cap..