Project description:Nowadays, although single-cell multi-omics technologies are undergoing rapid development, simultaneous transcriptome and proteome analysis of a single-cell individual still faces great challenges. Here, we developed a single-cell simultaneous transcriptome and proteome (scSTAP) analysis platform based on microfluidics, high-throughput sequencing and mass spectrometry technology, to achieve deep and joint quantitative analysis of transcriptome and proteome at the single-cell level, providing an important resource for understanding the relationship between transcription and translation in cells. This platform was applied to analyze single mouse oocytes at different meiotic maturation stages, reaching an average quantification depth of 19948 genes and 2663 protein groups in single mouse oocytes.

Project description:Transcriptome and proteome analysis of early embryonic mouse brain development

Project description:To explore the effects of moderate intensity exercise on protein of lactylation in mouse muscle tissue metabolism. The healthy adult mice running for 6 weeks as exercise model and sedentary mice as control were used to perform transcriptomic, proteomic, lactylation-proteomics, and metabolomics analysis. In addition, correlation analysis between transcriptome and proteome, and proteome and metabolome was conducted as well.

Project description:Circadian analysis of the mouse retinal pigment epithelium transcriptome

Project description:Single-cell transcriptome analysis of mouse main olfactory epithelium

Project description:Functional analysis of transcriptome (mRNA and microRNA) and proteome formation during treatment of cord-blood derived stem cell lines (USSC) with retinoic acid-containing XXL-medium to estimate the impact of microRNAs on final proteome.

Project description:Proteome and transcriptome integrativecombined analysis

Project description:Animal toxins are of interest to a wide range of scientists, due to their numerous applications in pharmacology, neurology, hematology, medicine, and drug research. This, and to a lesser extent the development of new performing tools in transcriptomics and proteomics, has led to an increase in toxin discovery. In this context, providing publicly available data on animal toxins has become essential. The UniProtKB/Swiss-Prot Tox-Prot program (http://www.uniprot.org/program/Toxins) plays a crucial role by providing such an access to venom protein sequences and functions from all venomous species. This program has up to now curated more than 5000 venom proteins to the high-quality standards of UniProtKB/Swiss-Prot (release 2012_02). Proteins targeted by these toxins are also available in the knowledgebase. This paper describes in details the type of information provided by UniProtKB/Swiss-Prot for toxins, as well as the structured format of the knowledgebase.

Project description:Comparative analysis of the human and mouse placental transcriptome and proteome

Project description:RNA localization and local translation are important biological processes that underlie establishment of body axis, cell migration and synaptic plasticity. However, it is unclear to which extent mRNA localization contributes toward local proteome and how much of protein localization is achieved via protein transport or local translation of uniformly distributed mRNAs. To address this question, we performed genome-wide analysis of the local proteome, transcriptome, and translation rates in neurites and cell bodies of neurons differentiated from mouse embryonic stem cells.