Project description:Here, we apply tRNA-seq and YAMAT-seq to profile the expressions of tRFs and tRNAs in plants. We provide a high-quality expression atlas of tRFs and tRNAs in Arabidopsis and rice, and uncover complex tRF population and the dynamic expressions of tRNA genes in plants.

Project description:Here, we adopt a method that combines tRNA-seq and cp-RNA-seq to identify and quantify tRFs and tRNAs in plants. We provide a high-quality expression atlas of tRFs and tRNAs in Arabidopsis and rice, and uncovers complex tRFs repertoire and the dynamic expressions of tRNA genes in plants.

Project description:8-week brain total tRNA, total tRNA fragments (tRFs), and ribosome-contained tRNAs were sequenced using MiSeq.

Project description:Transfer RNAs (tRNA) are quintessential in deciphering the genetic code; disseminating nucleic acid triplets into correct amino acid identity. While this decoding function is clear, an emerging theme is that tRNA abundance and functionality can powerfully impact protein production rate, folding, activity, and messenger RNA stability. Importantly, however, the expression pattern of tRNAs (in even simple systems) is obliquely known. Limited analysis suggests tRNA levels change during proliferation, differentiation, cancer, and neurodegeneration; possibly mediating changes in translation efficiency and mRNA stability. A major limitation for the field has been the ability to subject tRNA pools to high-throughput analysis as they are highly structured, modified, and of high sequence similarity. Here we present Quantitative Mature tRNA sequencing (QuantM-tRNA seq), an easily implemented high-throughput technique to monitor tRNA abundance and sequence variants (possibly due to RNA modifications). With QuantM-tRNA seq we provide a comprehensive analysis of the tRNA transcriptome from distinct mammalian tissues. We observe dramatic distinctions in isodecoder expression and likely RNA modifications between unique tissues with a particularly strong signature within the central nervous system. Remarkably, despite dramatic changes in tRNA isodecoder gene expression, the overall anticodon pool of each tRNA family is similar. These findings suggest that anticodon pools are buffered via an unknown mechanism to achieve uniform decoding throughout the body.

Project description:tRNA related fragments(tRF) and tRNA halves(tiRNA) are novel class of short non-coding RNA derived from tRNAs. Using RNA sequencing, we evaluated the tRFs/tiRNAs expression profiles in relapsed/refractory multiple myeloma and multiple myeloma patients. Bioinformatics analyses indicated that tRFs/tiRNAs may be involved in the progression and drug-resistance of multiple myeloma.

Project description:The genetic code is an abstraction of how mRNA codons and tRNA anticodons molecularly interact during protein synthesis; the stability and regulation of this interaction remains largely unexplored. Here, we quantitatively characterized the expression of mRNA and tRNA genes across developing mouse tissues. Substantial fractions of both gene sets dynamically change expression from early organogenesis to adult tissues. mRNA codon pools are highly stable over development and reflect the genomic background; in contrast, changes in transcription at specific tRNA genes are coordinated across anticodon families to produce a stable isoacceptor output. During development, the pools of mRNA codons and tRNA anticodons are invariant and highly correlated, revealing a stable molecular interaction interlocking transcription and translation.

Project description:The goal of this study was to determine the state of the tRNA transcriptome in Thymus tissue of Mus Musculus (Mouse). This includes expression data of mature tRNAs and tRNA fragments (tRFs), as well as associated modification states of these RNAs assessed using mismatching percentages from sequencing data.

Project description:The goal of this study was to determine the state of the tRNA transcriptome in Heart tissue of Mus Musculus (Mouse). This includes expression data of mature tRNAs and tRNA fragments (tRFs), as well as associated modification states of these RNAs assessed using mismatching percentages from sequencing data.

Project description:The goal of this study was to determine the state of the tRNA transcriptome in Kidney tissue of Mus Musculus (Mouse). This includes expression data of mature tRNAs and tRNA fragments (tRFs), as well as associated modification states of these RNAs assessed using mismatching percentages from sequencing data.

Project description:The goal of this study was to determine the state of the tRNA transcriptome in Brain tissue of Mus Musculus (Mouse). This includes expression data of mature tRNAs and tRNA fragments (tRFs), as well as associated modification states of these RNAs assessed using mismatching percentages from sequencing data.