Given their central role in translation, splicing, localization and stability of transcripts, RNA binding proteins (RBPs) are key regulators of several cellular processes. While experimental efforts have been put to study how RBPs bind to transcripts, very little is known about the RNA contributions to the interaction. Here, we review the most common RNA-centric methods to reveal interactions with RBPs: both in vitro (SELEX, SEQR, RNA-compete and RBNS) and in silico (MEME, SeAMotE, GLAM2, iDeep, MEMERIS, RNA context, RCK, RNApromo and GraphProt). We emphasize the main advantages and disadvantages of each technique and highlight the key physico-chemical features contributing to the identification of RNA motifs involved in RBP recognition. We discuss extrinsic determinants influencing protein-RNA binding, such as post-transcriptional and post-translational modifications as well as expression and location of transcripts.

This study aimed to determine the characteristics, metabolic pathways and cellular functions of S-nitrosylated proteins from pork postmortem muscle using bioinformatics analysis. The results showed that S-nitrosylated proteins had a broad range of molecular weight and pI value and were mainly located in the functional region of secondary structure. The motif revealed the lysine (K) positioned at -5, -7, +1 and +5 through the S-nitrosocysteine while \"C-X-X-C\" was identified as the motif for non-S-nitrosylation-modified cysteine. The proteins were widely localized in cell compartments and mostly belonged to enzymes participating in the metabolic process. Glycolysis was the most significant pathways of S-nitrosylated proteins in postmortem muscle. The cell death of muscle cells was predicted to be inhibited by S-nitrosylation with the potential influence on the apoptosis. Those identified pathways and cellular functions of S-nitrosylation are proposed to have a profound influence on meat quality and should be highly regarded.

The present study was performed to identify and validate monogenean species from different piscine hosts using molecular tools. Nine species of freshwater monogeneans were collected from gills and skin of freshwater fishes at Hastinapur, Meerut, India. After microscopic examination, molecular analysis was performed utilizing 28S gene marker. Phylogenetic analysis indicated the validation and systematic position of these nine different monogeneans belongs to the Dactylogyridae and Gyrodactylidae families. The findings also confirm that the 28S rDNA sequence is highly conserved and may prove to be useful in taxonomic studies of parasitic platyhelminthes. Besides this, the study is also supplemented by molecular morphometrics that is based on 28S secondary structure homologies of nine monogenean species. The data indicate that 28S motifs i.e., ≤ 50bp in size can also be considered a promising tool for monogenean species identification and their validation.