Pages that link to "Q34602627"

The following pages link to Intronic delay is essential for oscillatory expression in the segmentation clock (Q34602627):

Displaying 50 items.

• From dynamic expression patterns to boundary formation in the presomitic mesoderm (Q21090160) (← links)
• The relationship between growth and pattern formation (Q26738615) (← links)
• Timing by rhythms: Daily clocks and developmental rulers (Q26778954) (← links)
• Control of Hes7 expression by Tbx6, the Wnt pathway and the chemical Gsk3 inhibitor LiCl in the mouse segmentation clock (Q27322328) (← links)
• Oscillatory control of Delta-like1 in cell interactions regulates dynamic gene expression and tissue morphogenesis. (Q27322653) (← links)
• Delta-Notch signalling in segmentation (Q28069407) (← links)
• Heterochrony and developmental timing mechanisms: changing ontogenies in evolution (Q28654605) (← links)
• Evidence for intron length conservation in a set of mammalian genes associated with embryonic development (Q28731907) (← links)
• Single-cell-resolution imaging of the impact of Notch signaling and mitosis on segmentation clock dynamics (Q30528453) (← links)
• Spatial gradients of protein-level time delays set the pace of the traveling segmentation clock waves (Q30617464) (← links)
• Complex dynamics of transcription regulation (Q31053995) (← links)
• Rate of elongation by RNA polymerase II is associated with specific gene features and epigenetic modifications (Q33657722) (← links)
• Timing embryo segmentation: dynamics and regulatory mechanisms of the vertebrate segmentation clock (Q33660946) (← links)
• Modeling the zebrafish segmentation clock's gene regulatory network constrained by expression data suggests evolutionary transitions between oscillating and nonoscillating transcription (Q33779631) (← links)
• Why eukaryotic cells use introns to enhance gene expression: splicing reduces transcription-associated mutagenesis by inhibiting topoisomerase I cutting activity. (Q33904719) (← links)
• Reduction theories elucidate the origins of complex biological rhythms generated by interacting delay-induced oscillations (Q34075422) (← links)
• Hes7 3'UTR is required for somite segmentation function (Q34234902) (← links)
• Higher frequency of intron loss from the promoter proximally paused genes of Drosophila melanogaster (Q34338739) (← links)
• Ultradian oscillations and pulses: coordinating cellular responses and cell fate decisions (Q34341432) (← links)
• Transcript length mediates developmental timing of gene expression across Drosophila (Q34402703) (← links)
• Coupling mRNA processing with transcription in time and space. (Q35006630) (← links)
• Models in biology: 'accurate descriptions of our pathetic thinking'. (Q35179460) (← links)
• The Lipoxygenase Gene Family in Poplar: Identification, Classification, and Expression in Response to MeJA Treatment (Q35558244) (← links)
• Dynamics of the slowing segmentation clock reveal alternating two-segment periodicity. (Q35635073) (← links)
• The Her7 node modulates the network topology of the zebrafish segmentation clock via sequestration of the Hes6 hub. (Q35741905) (← links)
• The synchrony and cyclicity of developmental events (Q35853789) (← links)
• The function of introns (Q35886478) (← links)
• Promoters Architecture-Based Mechanism for Noise-Induced Oscillations in a Single-Gene Circuit (Q35950806) (← links)
• A Stochastic Individual-Based Model of the Progression of Atrial Fibrillation in Individuals and Populations (Q35987323) (← links)
• A balance of positive and negative regulators determines the pace of the segmentation clock (Q36146536) (← links)
• Introns and gene expression: cellular constraints, transcriptional regulation, and evolutionary consequences (Q36302418) (← links)
• Effects of Antioxidants in Human Cancers: Differential Effects on Non-Coding Intronic RNA Expression (Q36731710) (← links)
• RNA splicing regulates the temporal order of TNF-induced gene expression (Q37031722) (← links)
• Intron Length Coevolution across Mammalian Genomes (Q37262015) (← links)
• Transcript processing and export kinetics are rate-limiting steps in expressing vertebrate segmentation clock genes. (Q37319464) (← links)
• A fluorescence spotlight on the clockwork development and metabolism of bone. (Q37902096) (← links)
• Experiments, measurements, and mathematical modeling to decipher time signals in development (Q38018288) (← links)
• Genetic visualization of notch signaling in mammalian neurogenesis (Q38042806) (← links)
• Oscillatory gene expression and somitogenesis. (Q38116917) (← links)
• Signalling dynamics in vertebrate segmentation (Q38261780) (← links)
• Genetic oscillators in development (Q38692687) (← links)
• Persistent natural infection of a Culex tritaeniorhynchus cell line with a novel Culex tritaeniorhynchus rhabdovirus strain (Q38859965) (← links)
• Different types of oscillations in Notch and Fgf signaling regulate the spatiotemporal periodicity of somitogenesis (Q39532078) (← links)
• Gene length may contribute to graded transcriptional responses in the Drosophila embryo (Q40924440) (← links)
• Oscillatory dynamics of p38 activity with transcriptional and translational time delays (Q41123019) (← links)
• Collective cell movement promotes synchronization of coupled genetic oscillators (Q41838471) (← links)
• Control of endogenous gene expression timing by introns (Q42786863) (← links)
• Temperature-dependent self-splicing group I introns in the flagellin genes of the thermophilic Bacillus species (Q43034367) (← links)
• Delay-managed tradeoff in the molecular dynamics of the segmentation clock (Q43941194) (← links)
• Pnrc2 regulates 3'UTR-mediated decay of segmentation clock-associated transcripts during zebrafish segmentation (Q46713018) (← links)