Open AccessThe emerging role of RNA ‐binding proteins in the life cycle of T rypanosoma brucei
Author(s) -
Kolev Nikolay G.,
Ullu Elisabetta,
Tschudi Christian
Publication year - 2014
Publication title -
cellular microbiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.542
H-Index - 138
eISSN - 1462-5822
pISSN - 1462-5814
DOI - 10.1111/cmi.12268
Subject(s) - trypanosoma brucei , biology , rna binding protein , regulation of gene expression , function (biology) , gene , model organism , computational biology , rna , gene expression , adaptation (eye) , organism , microbiology and biotechnology , trypanosoma , identification (biology) , rna interference , genetics , neuroscience , botany
Summary One of the key questions in understanding the biology of an organism is how to correlate cellular fate and function with gene expression patterns. This is particularly relevant for pathogenic organisms, like the parasitic protozoa T rypanosoma brucei , who often cycle between different hosts, thereby encountering vastly different environments. Survival in and adaptation to new surroundings requires activation of specific gene networks, which is most often achieved by regulatory mechanisms embedded in the transcriptional machinery. However, in T . brucei and related trypanosomatids these responses appear to be accomplished mainly by post‐transcriptional mechanisms. Although an understanding of how this parasite modulates gene regulatory networks is in the early stages, RNA ‐binding proteins ( RBPs ) are beginning to take centre stage. Here, we discuss recent progress in the identification of RBPs with crucial roles in different stages of the T . brucei life cycle, and in elucidating targets of RBPs .