Project description:BackgroundOnly one spliceosomal-type intron has previously been identified in the unicellular eukaryotic parasite, Giardia lamblia (a diplomonad). This intron is only 35 nucleotides in length and is unusual in possessing a non-canonical 5' intron boundary sequence, CT, instead of GT.ResultsWe have identified a second spliceosomal-type intron in G. lamblia, in the ribosomal protein L7a gene (Rpl7a), that possesses a canonical GT 5' intron boundary sequence. A comparison of the two known Giardia intron sequences revealed extensive nucleotide identity at both the 5' and 3' intron boundaries, similar to the conserved sequence motifs recently identified at the boundaries of spliceosomal-type introns in Trichomonas vaginalis (a parabasalid). Based on these observations, we searched the partial G. lamblia genome sequence for these conserved features and identified a third spliceosomal intron, in an unassigned open reading frame. Our comprehensive analysis of the Rpl7a intron in other eukaryotic taxa demonstrates that it is evolutionarily conserved and is an ancient eukaryotic intron.ConclusionAn analysis of the phylogenetic distribution and properties of the Rpl7a intron suggests its utility as a phylogenetic marker to evaluate particular eukaryotic groupings. Additionally, analysis of the G. lamblia introns has provided further insight into some of the conserved and unique features possessed by the recently identified spliceosomal introns in related organisms such as T. vaginalis and Carpediemonas membranifera.

Project description:Non-coding RNAs (ncRNAs) have diverse essential biological functions in all organisms, and in eukaryotes, two such classes of ncRNAs are the small nucleolar (sno) and small nuclear (sn) RNAs. In this study, we have identified and characterized a collection of sno and snRNAs in Giardia lamblia, by exploiting our discovery of a conserved 12 nt RNA processing sequence motif found in the 3' end regions of a large number of G. lamblia ncRNA genes. RNA end mapping and other experiments indicate the motif serves to mediate ncRNA 3' end formation from mono- and di-cistronic RNA precursor transcripts. Remarkably, we find the motif is also utilized in the processing pathway of all four previously identified trans-spliced G. lamblia introns, revealing a common RNA processing pathway for ncRNAs and trans-spliced introns in this organism. Motif sequence conservation then allowed for the bioinformatic and experimental identification of additional G. lamblia ncRNAs, including new U1 and U6 spliceosomal snRNA candidates. The U6 snRNA candidate was then used as a tool to identity novel U2 and U4 snRNAs, based on predicted phylogenetically conserved snRNA-snRNA base-pairing interactions, from a set of previously identified G. lamblia ncRNAs without assigned function. The Giardia snRNAs retain the core features of spliceosomal snRNAs but are sufficiently evolutionarily divergent to explain the difficulties in their identification. Most intriguingly, all of these snRNAs show structural features diagnostic of U2-dependent/major and U12-dependent/minor spliceosomal snRNAs.

Project description:Giardia lamblia P15 genome sequencing

Project description:3'-end sequencing and Oxford Nanopore Technologies long-read sequencing of trophozoite RNA to define mRNA cleavage sites

Project description:Transcriptional profiling of Giardia lamblia WB comparing control 5'5npac cells with pPPax2 cells. Two-condition experiment 5'5npac cells with pPPax2 cells.

Project description:Transcriptional profiling of Giardia lamblia WB comparing control 5'5npac cells with pPTopoII cells. Two-condition experiment 5'5npac cells with pPTopoII cells.

Project description:Transcriptional profiling of Giardia lamblia WB comparing control 5'5npac cells with pPMBF1 cells. Multiprotein bridging factor 1 (MBF1) gene family proteins are involved in cell growth and differentiation in various organisms. We asked whether Giardia MBF1-like protein can induce various endogenous genes. We used epitope-tagged system to overexpress Giardia MBF1 by constructing and transfecting pPMBF1, a plasmid for expressing MBF1, to trophozoites. The control cell line is 5'5npac cell line, which expressed only the puromycin selection marker. To understand the effect of MBF1 overexpression on transcription profiles, we performed microarray analysis for pPMBF1 and 5'5npac cell lines.

Project description:Transcriptional profiling of Giardia lamblia WB comparing control 5'5npac cells with pPTopoII cells.

Project description:Transcriptional profiling of Giardia lamblia WB comparing control 5'5npac cells with pPPax2 cells.

Project description:RNASequencing and RNA level measurements of G. lamblia transcripts during trophozite stage to compare expression between genes of interest