Deciphering driver regulators of cell fate decisions from single|cell ...

Deciphering driver regulators of cell fate decisions from single-cell ...

Single-cell technologies enable the dynamic analyses of cell fate mapping. However, capturing the gene regulatory relationships and ...

WPZgithub/CEFCON: Deciphering driver regulators of cell ... - GitHub

Deciphering driver regulators of cell fate decisions from single-cell RNA-seq data - WPZgithub/CEFCON.

Author Correction: Deciphering driver regulators of cell fate ... - Nature

Author Correction: Deciphering driver regulators of cell fate decisions from single-cell transcriptomics data with CEFCON ... The original version ...

(PDF) Deciphering driver regulators of cell fate decisions from single ...

CEFCON uses the attention coefficients to assign weights to individual gene interactions and then selects the top-weighted interactions to construct the cell- ...

Deciphering driver regulators of cell fate decisions from single-cell ...

Single-cell technologies enable the dynamic analyses of cell fate mapping. However, capturing the gene regulatory relationships and identifying the driver ...

Identify the driver regulators of cell fate decisions

CEFCON is a computational tool for deciphering driver regulators of cell fate decisions from single-cell RNA-seq data.

Deciphering driver regulators of cell fate decisions from single-cell ...

Deciphering driver regulators of cell fate decisions from single-cell transcriptomics data with CEFCON.-article.

A logic-incorporated gene regulatory network deciphers principles in ...

By examining the two driving modes, we can gain a better understanding and characterization of cell fate decisions, including in-vivo cell ...

(PDF) Author Correction: Deciphering driver regulators of cell fate ...

PDF | On Feb 13, 2024, Peizhuo Wang and others published Author Correction: Deciphering driver regulators of cell fate decisions from single- ...

Deciphering the decisive factors driving fate bifurcations in somatic ...

Single-cell studies have demonstrated that somatic cell reprogramming is a continuous process of cell fates transition.

A Logic-incorporated Gene Regulatory Network Deciphers ... - eLife

By examining the two driving modes, we can gain a better understanding and characterization of cell fate decisions, including in-vivo cell ...

Single-cell transcriptional analysis to uncover regulatory circuits ...

Motivation: Transcriptional regulatory networks controlling cell fate decisions in mammalian embryonic development remain elusive despite a long time of ...

Deciphering driver regulators of cell fate decisions from single-cell ...

AbstractSingle-cell technologies enable the dynamic analyses of cell fate mapping. However, capturing the gene regulatory relationships and identifying the ...

Characterization of cell-fate decision landscapes by estimating ...

Identifying lineage-specific regulators during dynamic biological processes, such as differentiation from single-cell transcriptomics data, ...

Uncovering underlying physical principles and driving forces of cell ...

We also infer cell–cell interactions and cell-type-specific gene regulatory networks, encompassing feedback mechanisms and interaction ...

Deciphering Cell Fate Decision by Integrated Single-Cell ...

... fate restricted and develop into mature cells with specialized functions. A comprehensive understanding of the regulatory mechanisms of cell fate choices ...

Fatecode enables cell fate regulator prediction using classification ...

We propose Fatecode, a computational method that predicts cell fate regulators based only on single-cell RNA sequencing (scRNA-seq) data.

Revealing Dynamic Mechanisms of Cell Fate Decisions From Single ...

While cellular processes such as proliferation, differentiation, and reprogramming are governed by complex gene regulatory programs, each cell makes its own ...

Deciphering driver regulators of cell fate decisions from single-cell ...

Single-cell technologies enable the dynamic analyses of cell fate mapping. However, capturing the gene regulatory relationships and identifying ...

Using single‐cell genomics to understand developmental processes ...

Embryonic stem cells are a foundational tool of developmental biology research, offering a platform to investigate specific cell fate choices by ...