Laura E. Yu scite author profile

Lechuguilla Cave is an ancient, deep, oligotrophic subterranean environment that contains an abundance of low-density ferromanganese deposits, the origin of which is uncertain. To assess the possibility that biotic factors may be involved in the production of these deposits and to investigate the nature of the microbial community in these materials, we carried out culture-independent, small subunit ribosomal RNA (SSU rRNA) sequence-based studies from two sites and from manganese and iron enrichment cultures inoculated with ferromanganese deposits from Lechuguilla and Spider Caves. Sequence analysis showed the presence of some organisms whose closest relatives are known iron- and manganese-oxidizing/reducing bacteria, including Hyphomicrobium, Pedomicrobium, Leptospirillum, Stenotrophomonas and Pantoea. The dominant clone types in one site grouped with mesophilic Archaea in both the Crenarchaeota and Euryarchaeota. The second site was dominated almost entirely by lactobacilli. Other clone sequences were most closely related to those of nitrite-oxidizing bacteria, nitrogen-fixing bacteria, actinomycetes and beta- and gamma-Proteobacteria. Geochemical analyses showed a fourfold enrichment of oxidized iron and manganese from bedrock to darkest ferromanganese deposits. These data support our hypothesis that microorganisms may contribute to the formation of manganese and iron oxide-rich deposits and a diverse microbial community is present in these unusual secondary mineral formations.

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Identification of pentatricopeptide repeat proteins in Trypanosoma brucei

Mingler

Hingst

Clement

et al. 2006

Molecular and Biochemical Parasitology

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Evidence for U-tail Stabilization of gRNA/mRNA Interactions in Kinetoplastid RNA Editing

Koslowsky¹,

Reifur²,

Yu³

et al. 2004

RNA Biology

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The most dramatic example of RNA editing is found in the mitochondria of trypanosomes. In these organisms, U-insertions/deletions can create mRNAs that are twice as large as the gene that encodes them. Guide RNAs (gRNAs) that are complementary to short stretches of the mature message direct the precise placements of the U residues. The binding of gRNA to mRNA is a fundamental step in RNA editing and understanding the relative importance of the elements that confer affinity and specificity on this interaction is critical to our understanding of the editing process. In this study, we have analyzed the relative binding affinities of two different gRNA/mRNA pairs. The affinity of gA6-14 for its message (ATPase 6) is high, with an apparent K D in the 5-10 nM range. In contrast, gCYb-558 has a low affinity for its cognate mRNA. Deletion of the gRNA U-tail caused a significant reduction in the binding affinity for only the gCYb-558 pair, and was observed only under physiological magnesium conditions. These results indicate that the U-tail contribution can differ substantially between the different gRNA/mRNA pairs. In addition, our results suggest that the efficiency of gRNA/mRNA interaction is highly dependent on thermodynamic parameters determined by the local sequences and their adopted structures surrounding the anchor-binding site.

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Connexin 26 35delG does not represent a mutational hotspot

et al. 2003

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Non-syndromic hearing impairment (NSHI) is the most common form of deafness and presents with no other symptoms or sensory defects. Mutations in the gap junction gene GJB2 account for a high proportion of recessive NSHI. The GJB2 gene encodes connexin 26, which forms plasma membrane channels between cochlear cells. In Caucasian populations a single mutation, 35delG, accounts for most cases of NSHI. This mutation appears to be most prevalent in individuals of Mediterranean European descent, with carrier frequencies estimated as being as high as one in thirty. The 35delG region may be a mutational hotspot. The mutation arises from the deletion of a guanine from a six-guanine stretch and nearby microsatellite markers show little evidence for linkage disequilibrium. We believe that 35delG is an old mutation in a chromosomal region of high recombination. The genetic context of the 35delG mutation was examined to distinguish between an old or a recurring mutation. We identified two singlenucleotide polymorphisms (SNPs) immediately upstream of the first exon of GJB2. Polymerase chain reaction/restriction fragment length polymorphism analysis determined the SNP genotype of 35delG containing chromosomes from various populations, including Italy, Brazil, and North America. We found the same, relatively rare, polymorphism associated with the 35delG mutation in all populations studied. We have also examined microsatellite markers D13S175, which is 80 kb telomeric to GJB2, and D13S1316, which is 80 kb centromeric to GJB2. D13S175 appears to be in weak linkage disequilibrium with 35delG, while D13S1316 is less so. SNPs located between the 35delG mutation and the microsatellite markers show strong evidence of linkage disequilibrium. Taken together, these results indicate there has been substantial recombination near the 35delG mutation; however, we present evidence that the 35delG mutation arose in European and Middle Eastern populations from a single mutational event on a founder chromosome.

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Interactions of mRNAs and gRNAs involved in trypanosome mitochondrial RNA editing: Structure probing of a gRNA bound to its cognate mRNA

Yu¹,

Koslowsky²

2006

RNA

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Expression of mitochondrial genes in Trypanosoma brucei requires RNA editing of its mRNA transcripts. During editing, uridylates are precisely inserted and deleted as directed by the gRNA template to create the protein open reading frame. This process involves the bimolecular interaction of the gRNA with its cognate pre-edited mRNA and the assembly of a protein complex with the enzymatic machinery required. While a considerable amount of work has been done identifying the protein components of the editing complex, very little is known about how a functional editosome is assembled. In addition, the importance of RNA structure in establishing a functional editing complex is poorly understood. Work in our lab suggests that different mRNA/gRNA pairs can form similar secondary structures suggesting that a common core architecture may be important for editosome recognition and function. Using solution structure probing, we have investigated the structure of the initiating gRNA, gCYb-558, in the mRNA/gRNA complex with pre-edited apocytochrome b mRNA. Our data indicate that the stem-loop formed by the guiding region of the gRNA alone is maintained in its interaction with the pre-edited message. In addition, our data suggest that a gRNA stem-loop structure is maintained through the first few editing events by the use of alternative base-pairing with the U-tail.

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Laura E. Yu

Diverse microbial communities inhabiting ferromanganese deposits in Lechuguilla and Spider Caves

Identification of pentatricopeptide repeat proteins in Trypanosoma brucei

Evidence for U-tail Stabilization of gRNA/mRNA Interactions in Kinetoplastid RNA Editing

Connexin 26 35delG does not represent a mutational hotspot

Interactions of mRNAs and gRNAs involved in trypanosome mitochondrial RNA editing: Structure probing of a gRNA bound to its cognate mRNA

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