Shao-Wen Shi
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View article: Simultaneous deep transcriptome and proteome profiling in a single mouse oocyte
Simultaneous deep transcriptome and proteome profiling in a single mouse oocyte Open
View article: Pick-up single-cell proteomic analysis for quantifying up to 3000 proteins in a Mammalian cell
Pick-up single-cell proteomic analysis for quantifying up to 3000 proteins in a Mammalian cell Open
The shotgun proteomic analysis is currently the most promising single-cell protein sequencing technology, however its identification level of ~1000 proteins per cell is still insufficient for practical applications. Here, we develop a pick…
View article: Simultaneous deep transcriptome and proteome profiling in a single mouse oocyte
Simultaneous deep transcriptome and proteome profiling in a single mouse oocyte Open
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 transc…
View article: Simultaneous transcriptome and proteome profiling in a single mouse oocyte with a deep single-cell multi-omics approach
Simultaneous transcriptome and proteome profiling in a single mouse oocyte with a deep single-cell multi-omics approach Open
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 simultane…
View article: Pick-up Single-Cell Proteomic Analysis for Quantifying up to 3000 Proteins in a Tumor Cell
Pick-up Single-Cell Proteomic Analysis for Quantifying up to 3000 Proteins in a Tumor Cell Open
The shotgun proteomic analysis is currently the most promising single-cell protein sequencing technology, however its identification level of ∼1000 proteins per cell is still insufficient for practical applications. Here, we develop a pick…
View article: Chromosomal microarray analysis vs. karyotyping for fetal ventriculomegaly: a meta-analysis
Chromosomal microarray analysis vs. karyotyping for fetal ventriculomegaly: a meta-analysis Open
Background: Chromosomal abnormalities are important causes of ventriculomegaly (VM). In mild and isolated cases of fetal VM, obstetricians rarely give clear indications for pregnancy termination. We aimed to calculate the incidence of chro…