Multistep cell fate transitions with stepwise changes of transcriptional profiles are common to many developmental, regenerative and pathological processes. The multiple intermediate cell lineage states can serve as differentiation checkpoints or branching points for channeling cells to more than one lineages. However, mechanisms underlying these transitions remain elusive. Here, we explored gene regulatory circuits that can generate multiple intermediate cellular states with stepwise modulations of transcription factors. With unbiased searching in the network topology space, we found a motif family containing a large set of networks can give rise to four attractors with the stepwise regulations of transcription factors, which limit the rev...
Models describing the process of stem-cell differentiation are plentiful, and may offer insights int...
MOTIVATION: Combinatorial interactions of transcription factors with cis-regulatory elements control...
Cellular differentiation, reprogramming and transdifferentiation are determined by underlying gene r...
Multistep cell fate transitions with stepwise changes of transcriptional profiles are common to many...
<div><p>Fully-connected triads (FCTs), such as the Oct4-Sox2-Nanog triad, have been implicated as re...
Fully-connected triads (FCTs), such as the Oct4-Sox2-Nanog triad, have been implicated as recurring ...
Background: Cellular differentiation during development is controlled by gene regulatory networks (G...
<div><p>Pluripotent embryonic stem cells are of paramount importance for biomedical sciences because...
Pluripotent embryonic stem cells are of paramount importance for biomedical sciences because of thei...
Haematopoietic lineage commitments are presented by a canonical roadmap in which haematopoietic stem...
Cellular reprogramming has been recently intensively studied experimentally. We developed a global p...
A. Influence diagram for transcriptional regulations among four core factors controlling the early T...
Regulatory gene circuits enable stem and progenitor cells to detect and process developmental signal...
Mathematical models of stem cell differentiation are commonly based upon the concept of subsequent c...
Autoregulation of transcription factors and cross-antagonism between lineage-specific transcription ...
Models describing the process of stem-cell differentiation are plentiful, and may offer insights int...
MOTIVATION: Combinatorial interactions of transcription factors with cis-regulatory elements control...
Cellular differentiation, reprogramming and transdifferentiation are determined by underlying gene r...
Multistep cell fate transitions with stepwise changes of transcriptional profiles are common to many...
<div><p>Fully-connected triads (FCTs), such as the Oct4-Sox2-Nanog triad, have been implicated as re...
Fully-connected triads (FCTs), such as the Oct4-Sox2-Nanog triad, have been implicated as recurring ...
Background: Cellular differentiation during development is controlled by gene regulatory networks (G...
<div><p>Pluripotent embryonic stem cells are of paramount importance for biomedical sciences because...
Pluripotent embryonic stem cells are of paramount importance for biomedical sciences because of thei...
Haematopoietic lineage commitments are presented by a canonical roadmap in which haematopoietic stem...
Cellular reprogramming has been recently intensively studied experimentally. We developed a global p...
A. Influence diagram for transcriptional regulations among four core factors controlling the early T...
Regulatory gene circuits enable stem and progenitor cells to detect and process developmental signal...
Mathematical models of stem cell differentiation are commonly based upon the concept of subsequent c...
Autoregulation of transcription factors and cross-antagonism between lineage-specific transcription ...
Models describing the process of stem-cell differentiation are plentiful, and may offer insights int...
MOTIVATION: Combinatorial interactions of transcription factors with cis-regulatory elements control...
Cellular differentiation, reprogramming and transdifferentiation are determined by underlying gene r...