The human prototypical SR protein SRSF1 is an oncoprotein that contains two RRMs and plays a pivotal role in RNA metabolism. We determined the structure of the RRM1 bound to RNA and found that the domain binds preferentially to a CN motif (N is for any nucleotide). Based on this solution structure, we engineered a protein containing a single glutamate to asparagine mutation (E87N), which gains the ability to bind to uridines and thereby activates SMN exon7 inclusion, a strategy that is used to cure spinal muscular atrophy. Finally, we revealed that the flexible inter-RRM linker of SRSF1 allows RRM1 to bind RNA on both sides of RRM2 binding site. Besides revealing an unexpected bimodal mode of interaction of SRSF1 with RNA, which will be of interest to design new therapeutic strategies, this study brings a new perspective on the mode of action of SRSF1 in cells.

• MeSH
• asparagin genetika   MeSH
• exony genetika   MeSH
• HEK293 buňky MeSH
• kyselina glutamová genetika   MeSH
• lidé MeSH
• místa sestřihu RNA genetika   MeSH
• motiv rozpoznávající RNA genetika   MeSH
• nukleární magnetická rezonance biomolekulární MeSH
• protein přežití motorických neuronů 1 genetika   MeSH
• proteinové inženýrství MeSH
• rekombinantní proteiny genetika   izolace a purifikace   metabolismus   ultrastruktura   MeSH
• serin-arginin sestřihové faktory genetika   izolace a purifikace   metabolismus   ultrastruktura   MeSH
• sestřih RNA * MeSH
• simulace molekulární dynamiky MeSH
• spinální svalová atrofie genetika   terapie   MeSH
• substituce aminokyselin MeSH
• uridin metabolismus   MeSH
• výpočetní biologie MeSH
• Check Tag
• lidé MeSH
• Publikační typ
• časopisecké články MeSH
• práce podpořená grantem MeSH

Berberine bridge enzyme-like (BBE-like) proteins form a multigene family (pfam 08031), which is present in plants, fungi and bacteria. They adopt the vanillyl alcohol-oxidase fold and predominantly show bi-covalent tethering of the FAD cofactor to a cysteine and histidine residue, respectively. The Arabidopsis thaliana genome was recently shown to contain genes coding for 28 BBE-like proteins, while featuring four distinct active site compositions. We determined the structure of a member of the AtBBE-like protein family (termed AtBBE-like 28), which has an active site composition that has not been structurally and biochemically characterized thus far. The most salient and distinguishing features of the active site found in AtBBE-like 28 are a mono-covalent linkage of a histidine to the 8α-position of the flavin-isoalloxazine ring and the lack of a second covalent linkage to the 6-position, owing to the replacement of a cysteine with a histidine. In addition, the structure reveals the interaction of a glutamic acid (Glu426) with an aspartic acid (Asp369) at the active site, which appear to share a proton. This arrangement leads to the delocalization of a negative charge at the active site that may be exploited for catalysis. The structure also indicates a shift of the position of the isoalloxazine ring in comparison to other members of the BBE-like family. The dioxygen surrogate chloride was found near the C(4a) position of the isoalloxazine ring in the oxygen pocket, pointing to a rapid reoxidation of reduced enzyme by dioxygen. A T-DNA insertional mutant line for AtBBE-like 28 results in a phenotype, that is characterized by reduced biomass and lower salt stress tolerance. Multiple sequence analysis showed that the active site composition found in AtBBE-like 28 is only present in the Brassicaceae, suggesting that it plays a specific role in the metabolism of this plant family.

• MeSH
• Arabidopsis enzymologie   genetika   MeSH
• druhová specificita MeSH
• katalytická doména MeSH
• kyselina aspartová chemie   genetika   MeSH
• kyselina glutamová chemie   genetika   MeSH
• mutageneze MeSH
• N-demethylasy chemie   genetika   MeSH
• proteiny huseníčku chemie   genetika   MeSH
• sekundární struktura proteinů MeSH
• tolerance k soli fyziologie   MeSH
• Publikační typ
• časopisecké články MeSH

HLA-B27 is a relative risk factor for ankylosing spondylitis (AS) and is present in about 10% in European populations but in 95% of AS patients. Various data suggest that the HLA-B27 molecule itself could be the strongest risk factor, but there is no explanation for this association. To define differential antigen presenting features of HLA-B27 in healthy individuals and AS patients, a question that cannot be addressed by biochemical studies on cell lines, the HLA-B27 protein was purified from peripheral blood lymphocytes of AS patients and healthy controls and pool sequencing of the bound peptides was performed. Results show that peptides are rich in proline (Pro) and the content of arginine (Arg) is much lower in comparison with sequences listed in the register of peptides eluted from cell cultures. Statistically significant differences were detected in frequencies of a subset of amino acids, predominantly at positions in the middle of the peptides. The frequency of Glu was increased and Gln was decreased in peptides from AS patients. Detailed analysis of purity of the immunoisolated HLA molecules excluded that the peptides might originate from any co-purified HLA molecules other than B27. We conclude that statistically significant increase in the Glu/Gln ratio of peptides from AS patients, consistent with increased deamidation in vivo, may account for differential antigenicity of HLA-B27 in patients. Source protein(s) of deamidated peptides remain unknown.

• MeSH
• ankylózující spondylitida genetika   MeSH
• arginin genetika   MeSH
• dospělí MeSH
• financování organizované MeSH
• glutamin genetika   MeSH
• HLA-B27 antigen genetika   chemie   MeSH
• kyselina glutamová genetika   MeSH
• lidé MeSH
• peptidové fragmenty genetika   chemie   genetika   MeSH
• prolin genetika   MeSH
• rizikové faktory MeSH
• sekvenční analýza proteinů MeSH
• Check Tag
• dospělí MeSH
• lidé MeSH
• mužské pohlaví MeSH
• ženské pohlaví MeSH
• Publikační typ
• srovnávací studie MeSH