Add to ORKGThreshold generation in fate-selection circuits is often achieved through deterministic bistability, which requires cooperativity (i.e., nonlinear activation) and associated hysteresis. However, the Tat positive-feedback loop that controls HIV’s fate decision between replication and proviral latency lacks self-cooperativity and deterministic bistability. Absent cooperativity, it is unclear how HIV can temporarily remain in an off-state long enough for the kinetically slower epigenetic silencing mechanisms to act—expression fluctuations should rapidly trigger active positive feedback and replication, precluding establishment of latency. Here, using flow cytometry and single-cell imaging, we find that the Tat circuit exhibits a transient acti...
<p>Protein translation occurs from each transcript independently at rate , and each protein is degra...
<p>(A) Schematic of the open-loop HIV circuit. Doxycycline addition induces transcription from the T...
Summary: Transcriptional circuit architectures in several organisms have been evolutionarily selecte...
Threshold generation in fate-selection circuits is often achieved through deterministic bistability,...
Human Immunodeficiency Virus type 1 (HIV) is a lentivirus that infects CD4+ T cells, causing progres...
Steady-state behavior and bistability have been proposed as mechanisms for decision-making in gene c...
During early infection, the HIV virus makes a key decision between two states: lytic and lysogenic f...
Proviral latency is the main persistence mechanism that precludes eradication of human immunodeficie...
Fundamental to biological decision-making is the ability to generate bimodal expression patterns whe...
Animal viruses (e.g., lentiviruses and herpesviruses) use transcriptional positive feedback (i.e., t...
The HIV-1 virus can enter a dormant state and become inactive, which reduces accessibility by antivi...
SummaryHIV-1 Tat transactivation is vital for completion of the viral life cycle and has been implic...
Animal viruses (e.g., lentiviruses and herpesviruses) use transcriptional positive feedback (i.e., t...
SummaryBiological circuits can be controlled by two general schemes: environmental sensing or autono...
Biological circuits can be controlled by two general schemes: environmental sensing or autonomous pr...
<p>Protein translation occurs from each transcript independently at rate , and each protein is degra...
<p>(A) Schematic of the open-loop HIV circuit. Doxycycline addition induces transcription from the T...
Summary: Transcriptional circuit architectures in several organisms have been evolutionarily selecte...
Threshold generation in fate-selection circuits is often achieved through deterministic bistability,...
Human Immunodeficiency Virus type 1 (HIV) is a lentivirus that infects CD4+ T cells, causing progres...
Steady-state behavior and bistability have been proposed as mechanisms for decision-making in gene c...
During early infection, the HIV virus makes a key decision between two states: lytic and lysogenic f...
Proviral latency is the main persistence mechanism that precludes eradication of human immunodeficie...
Fundamental to biological decision-making is the ability to generate bimodal expression patterns whe...
Animal viruses (e.g., lentiviruses and herpesviruses) use transcriptional positive feedback (i.e., t...
The HIV-1 virus can enter a dormant state and become inactive, which reduces accessibility by antivi...
SummaryHIV-1 Tat transactivation is vital for completion of the viral life cycle and has been implic...
Animal viruses (e.g., lentiviruses and herpesviruses) use transcriptional positive feedback (i.e., t...
SummaryBiological circuits can be controlled by two general schemes: environmental sensing or autono...
Biological circuits can be controlled by two general schemes: environmental sensing or autonomous pr...
<p>Protein translation occurs from each transcript independently at rate , and each protein is degra...
<p>(A) Schematic of the open-loop HIV circuit. Doxycycline addition induces transcription from the T...
Summary: Transcriptional circuit architectures in several organisms have been evolutionarily selecte...