Ueli Schibler
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Most Influential Person Now
Swiss biologist, chronobiologist
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Biology
Ueli Schibler's Degrees
- PhD Biochemistry University of Geneva
Why Is Ueli Schibler Influential?
(Suggest an Edit or Addition)According to Wikipedia, Ueli Schibler is a Swiss biologist, chronobiologist and a professor at the University of Geneva. His research has contributed significantly to the field of chronobiology and the understanding of circadian clocks in the body. Several of his studies have demonstrated strong evidence for the existence of robust, self-sustaining circadian clocks in the peripheral tissues.
Ueli Schibler's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Restricted feeding uncouples circadian oscillators in peripheral tissues from the central pacemaker in the suprachiasmatic nucleus. (2000) (2092)
- The Orphan Nuclear Receptor REV-ERBα Controls Circadian Transcription within the Positive Limb of the Mammalian Circadian Oscillator (2002) (2002)
- The mammalian circadian timing system: organization and coordination of central and peripheral clocks. (2010) (1954)
- A Serum Shock Induces Circadian Gene Expression in Mammalian Tissue Culture Cells (1998) (1843)
- Resetting of circadian time in peripheral tissues by glucocorticoid signaling. (2000) (1658)
- SIRT1 Regulates Circadian Clock Gene Expression through PER2 Deacetylation (2008) (1226)
- Changes in size and secondary structure of the ribosomal transcription unit during vertebrate evolution. (1975) (1128)
- A liver-enriched transcriptional activator protein, LAP, and a transcriptional inhibitory protein, LIP, are translated from the sam mRNA (1991) (1043)
- Tissue-specific in vitro transcription from the mouse albumin promoter (1986) (1032)
- Circadian Gene Expression in Individual Fibroblasts Cell-Autonomous and Self-Sustained Oscillators Pass Time to Daughter Cells (2004) (964)
- Mammalian Genes Are Transcribed with Widely Different Bursting Kinetics (2011) (829)
- A Web of Circadian Pacemakers (2002) (708)
- System-Driven and Oscillator-Dependent Circadian Transcription in Mice with a Conditionally Active Liver Clock (2007) (648)
- Circadian rhythms: mechanisms and therapeutic implications. (2007) (589)
- Rhythmic CLOCK-BMAL1 binding to multiple E-box motifs drives circadian Dbp transcription and chromatin transitions (2006) (547)
- LAP, a novel member of the C/EBP gene family, encodes a liver-enriched transcriptional activator protein. (1990) (540)
- Crosstalk between components of circadian and metabolic cycles in mammals. (2011) (525)
- Rhythms of Mammalian Body Temperature Can Sustain Peripheral Circadian Clocks (2002) (524)
- Peripheral Circadian Oscillators in Mammals: Time and Food (2003) (497)
- Multiple signaling pathways elicit circadian gene expression in cultured Rat-1 fibroblasts (2000) (474)
- The circadian PAR-domain basic leucine zipper transcription factors DBP, TEF, and HLF modulate basal and inducible xenobiotic detoxification. (2006) (473)
- Glucocorticoid hormones inhibit food‐induced phase‐shifting of peripheral circadian oscillators (2001) (458)
- CLOCK, an essential pacemaker component, controls expression of the circadian transcription factor DBP. (2000) (429)
- CCAAT/enhancer-binding protein mRNA is translated into multiple proteins with different transcription activation potentials. (1993) (382)
- REV-ERBα Participates in Circadian SREBP Signaling and Bile Acid Homeostasis (2009) (380)
- The interplay of DNA-binding proteins on the promoter of the mouse albumin gene (1987) (375)
- The mammalian circadian timing system: from gene expression to physiology (2004) (372)
- Integration of microRNA miR-122 in hepatic circadian gene expression. (2009) (361)
- Two promoters of different strengths control the transcription of the mouse alpha-amylase gene Amy-1a in the parotid gland and the liver (1983) (342)
- DBP, a liver-enriched transcriptional activator, is expressed late in ontogeny and its tissue specificity is determined posttranscriptionally (1990) (331)
- Poly(ADP-Ribose) Polymerase 1 Participates in the Phase Entrainment of Circadian Clocks to Feeding (2010) (325)
- The Period Length of Fibroblast Circadian Gene Expression Varies Widely among Human Individuals (2005) (313)
- The DBP gene is expressed according to a circadian rhythm in the suprachiasmatic nucleus and influences circadian behavior (1997) (294)
- Circadian transcription of the cholesterol 7 alpha hydroxylase gene may involve the liver-enriched bZIP protein DBP. (1993) (290)
- PERIOD1-Associated Proteins Modulate the Negative Limb of the Mammalian Circadian Oscillator (2005) (269)
- A single mouse α-amylase gene specifies two different tissue-specific mRNAs (1981) (267)
- Properties, Entrainment, and Physiological Functions of Mammalian Peripheral Oscillators (2006) (259)
- Phosphorylation of CREB Ser142 Regulates Light-Induced Phase Shifts of the Circadian Clock (2002) (256)
- The role of cis-acting promoter elements in tissue-specific albumin gene expression. (1989) (252)
- The loss of circadian PAR bZip transcription factors results in epilepsy. (2004) (240)
- The synthesis and processing of the messenger RNAs specifying heavy and light chain immunoglobulins in MPC-11 cells (1978) (236)
- Physical isolation of nascent RNA chains transcribed by RNA polymerase II: evidence for cotranscriptional splicing (1994) (234)
- Cold-Inducible RNA-Binding Protein Modulates Circadian Gene Expression Posttranscriptionally (2012) (223)
- Comparison of methylated sequences in messenger RNA and heterogeneous nuclear RNA from mouse L cells. (1977) (217)
- Differential display of DNA-binding proteins reveals heat-shock factor 1 as a circadian transcription factor. (2008) (215)
- A mammalian RNA polymerase II holoenzyme containing all components required for promoter-specific transcription initiation (1995) (207)
- Simulated body temperature rhythms reveal the phase-shifting behavior and plasticity of mammalian circadian oscillators. (2012) (204)
- Expression of the liver-enriched transcriptional activator protein DBP follows a stringent circadian rhythm (1990) (202)
- Clock-Talk: Interactions between Central and Peripheral Circadian Oscillators in Mammals. (2015) (199)
- Circadian timing of metabolism in animal models and humans (2015) (194)
- Genome-Wide RNA Polymerase II Profiles and RNA Accumulation Reveal Kinetics of Transcription and Associated Epigenetic Changes During Diurnal Cycles (2012) (191)
- A glycosylated liver-specific transcription factor stimulates transcription of the albumin gene (1989) (186)
- Alternative promoters in developmental gene expression. (1987) (179)
- Circadian Expression of the Steroid 15 α-Hydroxylase (Cyp2a4) and Coumarin 7-Hydroxylase (Cyp2a5) Genes in Mouse Liver Is Regulated by the PAR Leucine Zipper Transcription Factor DBP (1999) (177)
- Tissue-specific expression of the gene encoding hepatocyte nuclear factor 1 may involve hepatocyte nuclear factor 4. (1991) (175)
- High accumulation of components of the RNA polymerase II transcription machinery in rodent spermatids. (1995) (155)
- Cell size regulation, a mechanism that controls cellular RNA accumulation: consequences on regulation of the ubiquitous transcription factors Oct1 and NF-Y and the liver-enriched transcription factor DBP (1995) (155)
- The two PAR leucine zipper proteins, TEF and DBP, display similar circadian and tissue‐specific expression, but have different target promoter preferences. (1996) (153)
- Tissue-specific expression of mouse α-amylase genes (1980) (151)
- Diurnal Oscillations in Liver Mass and Cell Size Accompany Ribosome Assembly Cycles (2017) (144)
- The Transcription Factor DBP Affects Circadian Sleep Consolidation and Rhythmic EEG Activity (2000) (140)
- Circadian gene expression is resilient to large fluctuations in overall transcription rates (2009) (135)
- Analysis of circadian liver gene expression by ADDER, a highly sensitive method for the display of differentially expressed mRNAs. (2001) (133)
- Cellular oscillators: rhythmic gene expression and metabolism. (2005) (132)
- Real-time recording of circadian liver gene expression in freely moving mice reveals the phase-setting behavior of hepatocyte clocks. (2013) (130)
- Quantifying ChIP-seq data: a spiking method providing an internal reference for sample-to-sample normalization (2014) (127)
- Blood-Borne Circadian Signal Stimulates Daily Oscillations in Actin Dynamics and SRF Activity (2013) (122)
- Circadian rhythms - from genes to physiology and disease. (2014) (115)
- Mouse liver and salivary gland α-amylase mRNAs differ only in 5′ non-translated sequences (1981) (114)
- Multiple polyadenylation sites in a mouse α-amylase gene (1981) (113)
- Circadian regulation of gene expression in animals. (2001) (104)
- Regulation of circadian gene expression in liver by systemic signals and hepatocyte oscillators. (2007) (102)
- The daily rhythms of genes, cells and organs (2005) (101)
- The rat hepatic leukemia factor (HLF) gene encodes two transcriptional activators with distinct circadian rhythms, tissue distributions and target preferences. (1995) (100)
- Impact of behavior on central and peripheral circadian clocks in the common vole Microtus arvalis, a mammal with ultradian rhythms. (2006) (94)
- The mammalian circadian timing system: synchronization of peripheral clocks. (2011) (90)
- Circadian Dbp transcription relies on highly dynamic BMAL1-CLOCK interaction with E boxes and requires the proteasome. (2012) (89)
- Termination of transcription in the mouse α-amylase gene Amy-2a occurs at multiple sites downstream of the polyadenylation site (1984) (88)
- The role of the transcriptional activator protein DBP in circadian liver gene expression (1992) (87)
- The daily timing of gene expression and physiology in mammals (2007) (86)
- The ins and outs of circadian timekeeping. (1999) (79)
- Circadian time keeping: the daily ups and downs of genes, cells, and organisms. (2006) (75)
- The 2008 Pittendrigh/Aschoff Lecture: Peripheral Phase Coordination in the Mammalian Circadian Timing System (2009) (75)
- A simple method to renature DNA-binding proteins separated by SDS-polyacrylamide gel electrophoresis. (1993) (70)
- Selective suppression of the transcription of ribosomal genes in mouse‐human hybrid cells (1979) (69)
- Circadian gene expression in cultured cells. (2005) (67)
- DNA-binding specificity of PAR and C/EBP leucine zipper proteins: a single amino acid substitution in the C/EBP DNA-binding domain confers PAR-like specificity to C/EBP. (1996) (67)
- The mouse alpha-amylase multigene family. Sequence organization of members expressed in the pancreas, salivary gland and liver. (1982) (67)
- Temperature regulates splicing efficiency of the cold-inducible RNA-binding protein gene Cirbp (2016) (64)
- Transcriptional regulatory logic of the diurnal cycle in the mouse liver (2016) (60)
- Cardiac hypertrophy, low blood pressure, and low aldosterone levels in mice devoid of the three circadian PAR bZip transcription factors DBP, HLF, and TEF. (2010) (58)
- The 5' flanking region of the rat LAP (C/EBP beta) gene can direct high-level, position-independent, copy number-dependent expression in multiple tissues in transgenic mice. (1994) (57)
- The 5'-termini of heterogeneous nuclear RNA: a comparison among molecules of different sizes and ages. (1977) (56)
- Developmental testis-specific regulation of mRNA levels and mRNA translational efficiencies for TATA-binding protein mRNA isoforms. (1997) (55)
- Selective amplification via biotin- and restriction-mediated enrichment (SABRE), a novel selective amplification procedure for detection of differentially expressed mRNAs. (1997) (55)
- Characterization of the 5′ termini of hnRNA in mouse L cells: Implications for processing and cap formation (1976) (53)
- Liver Regeneration Clocks On (2003) (53)
- Accumulation of rare and moderately abundant mRNAs in mouse L-cells is mainly post-transcriptionally regulated. (1984) (50)
- Origins and consequences of transcriptional discontinuity. (2011) (49)
- Genome-Wide Analysis of SREBP1 Activity around the Clock Reveals Its Combined Dependency on Nutrient and Circadian Signals (2014) (46)
- A CLOCK-less clock. (2006) (44)
- Circadian hepatocyte clocks keep synchrony in the absence of a master pacemaker in the suprachiasmatic nucleus or other extrahepatic clocks (2021) (40)
- Proteasomes Keep the Circadian Clock Ticking (2007) (40)
- The relationship between hnRNA and mRNA. (1976) (38)
- A ubiquitous CCAAT factor is required for efficient in vitro transcription from the mouse albumin promoter. (1990) (35)
- The two promoters of the mouse α-amylase gene Amy-1a are differentially activated during parotid gland differentiation (1985) (34)
- A new method for the isolation of undegraded nuclear and cytoplasmic RNA from liver of Xenopus larvae. (1974) (33)
- The systemic control of circadian gene expression (2015) (32)
- Mouse beta-globin and adenovirus-2 major late transcripts are initiated at the cap site in vitro. (1981) (32)
- Circadian rhythms: New cogwheels in the clockworks (1998) (30)
- Metastatic hibernomas in transgenic mice expressing an alpha-amylase-SV40 T antigen hybrid gene. (1989) (30)
- Chronobiology--Reducing Time (2001) (27)
- Structure and expression of the parotid secretory protein gene of mouse. (1986) (27)
- Circadian rhythms. Liver regeneration clocks on. (2003) (26)
- Body temperature cycles (2013) (25)
- Nuclear transcripts of mouse heavy chain immunoglobulin genes contain only the expressed class of C-region sequences. (1979) (24)
- How are the regulators regulated? (1991) (24)
- Developmental coordination of α-amylase and psp gene expression during mouse parotid gland differentiation is controlled posttranscriptionally (1986) (23)
- Circadian glucose homeostasis requires compensatory interference between brain and liver clocks (2008) (23)
- The 5'-terminal sequences of immunoglobulin messenger RNAs of a mouse myeloma. (1978) (22)
- Tissue-specific expression of mouse alpha-amylase genes. (1980) (21)
- REV-ERBs: more than the sum of the individual parts. (2012) (21)
- A single mouse alpha-amylase gene specifies two different tissue-specific mRNAs. (1981) (21)
- Orphan nuclear receptors, molecular clockwork, and the entrainment of peripheral oscillators. (2003) (19)
- Mouse alpha-amylase loci, Amy-1a and Amy-2a, are closely linked. (1985) (19)
- Expression of mouse Amy-2a alpha-amylase genes is regulated by strong pancreas-specific promoters. (1985) (18)
- Different tissue-specific expression of the amylase gene Amy-1 in mice and rats (1986) (18)
- Enlightening the adrenal gland. (2005) (17)
- CAVIN‐3 regulates circadian period length and PER:CRY protein abundance and interactions (2012) (16)
- Intermolecular renaturation of hairpin loops leads to stable and specific aggregates of 28-S rRNA and precursor rRNAs from Xenopus laevis. (1975) (16)
- The arrangement of 18-S and 28-S ribosomal ribonucleic acids within the 40-S precursor molecule of Xenopus laevis. (1976) (15)
- An RNA Polymerase II Complex Containing All Essential Initiation Factors Binds to the Activation Domain of PAR Leucine Zipper Transcription Factor Thyroid Embryonic Factor (1999) (14)
- The Orphan Nuclear Receptor REVERB Controls Circadian Transcription within the Positive Limb of the Mammalian Circadian Oscillator of the hypothalamus (2002) (14)
- Body clocks: Time for the Nobel Prize (2018) (13)
- Differential in vitro transcription from the promoter of a rat alpha 2u globulin gene in liver and spleen nuclear extracts. (1990) (12)
- Posttranscriptional mechanisms controlling diurnal gene expression cycles by body temperature rhythms (2017) (12)
- Circadian clocks: Heartfelt enlightenment (2000) (11)
- A pancreatic clock times insulin release (2015) (11)
- Feeding the Clock (2009) (11)
- Circadian rhythms. Chronobiology--reducing time. (2001) (11)
- CHAPTER 292 – The Mammalian Circadian Timing System (2003) (10)
- Interaction Between Central and Peripheral Clocks in Mammals (2017) (10)
- Circadian Timing in Animals (1999) (10)
- Comparison of mRNA precursors in plasmacytomas producing closely related κ chains (1979) (10)
- Differential regulation of RNA polymerase III genes during liver regeneration (2018) (10)
- Unbiased identification of signal-activated transcription factors by barcoded synthetic tandem repeat promoter screening (BC-STAR-PROM) (2016) (10)
- Multiple polyadenylation sites in a mouse alpha-amylase gene. (1981) (10)
- Rapid size determination of mRNAs complementary to cloned DNA sequences: plaque and colony hybrid-selection of cDNAs. (1984) (10)
- Mouse liver and salivary gland alpha-amylase mRNAs differ only in 5' non-translated sequences. (1981) (9)
- REGULATION OF ALPHA-AMYLASE GENE EXPRESSION (1986) (9)
- Circadian rhythms: Mop up the clock! (2001) (8)
- Tissue specific expression of mouse alpha-amylase genes. (1982) (7)
- 40 Transcriptional Regulatory Mechanisms in Liver and Midgut Morphogenesis of Vertebrates and Invertebrates (1992) (7)
- Transcription Factor Loading: Please Take My Place! (2011) (7)
- Oxidation of CLOCK boosts circadian rhythms (2019) (5)
- Shedding new light on circadian clocks (2013) (5)
- Circadian Cell-Cycle Progression: Cracking Open the Gate (2010) (5)
- The Mammalian Circadian Timekeeping System (2008) (5)
- THE PROCESSING OF MESSENGER RNA AND THE DETERMINATION OF ITS RELATIVE ABUNDANCE (1979) (4)
- BMAL1 dephosphorylation determines the pace of the circadian clock (2021) (4)
- Analysis of differential gene expression using the SABRE enrichment protocol. (2000) (4)
- Rapid identification of DNA fragments containing promoters for RNA polymerase II. (1989) (4)
- Incorporation of [5-3H]uridine into ribonucleotide pools and RNA during thyroxine-induced metamorphosis of Xenopus laevis tadpoles (1976) (3)
- In Vitro Screening for Regulated Transcription Factors with Differential Display of DNA-Binding Proteins (DDDP). (2008) (3)
- The ticking tail: daily oscillations in mRNA poly(A) tail length drive circadian cycles in protein synthesis. (2012) (3)
- The Isolation of differentially expressed mRNA sequences by selective amplification via biotin and restriction-mediated enrichment. (2001) (3)
- Steve Brown (2023) (2)
- Senescence of Timing Reverted: NAD+ Rejuvenates the Circadian Clock. (2020) (2)
- Recording of Diurnal Gene Expression in Peripheral Organs of Mice Using the RT-Biolumicorder. (2022) (2)
- Faculty Opinions recommendation of Melanopsin is required for non-image-forming photic responses in blind mice. (2003) (2)
- Structural arrangement and tissue-specific expression of the two murine alpha-amylase loci Amy-1 and Amy-2. (1986) (2)
- Selenium cysteine and epileptic seizures (2018) (2)
- Glucocorticoid Rhythm Renders Female Mice More Daring (2013) (2)
- Mammalian Circadian Cogwheels Are Parts of Macromolecular Machines. (2017) (2)
- Faculty Opinions recommendation of Melanopsin cells are the principal conduits for rod-cone input to non-image-forming vision. (2008) (1)
- Faculty Opinions recommendation of FIH-1: a novel protein that interacts with HIF-1alpha and VHL to mediate repression of HIF-1 transcriptional activity. (2001) (1)
- Faculty Opinions recommendation of C. elegans EGL-9 and mammalian homologs define a family of dioxygenases that regulate HIF by prolyl hydroxylation. (2001) (1)
- Faculty Opinions recommendation of Illuminating the circadian clock in monarch butterfly migration. (2003) (1)
- Faculty Opinions recommendation of Polyubiquitylation drives replisome disassembly at the termination of DNA replication. (2014) (1)
- CRY Associated Proteins Modulate Circadian Transcription by Regulating CRY Stability (2018) (0)
- [The inter-individual variability of circadian period length in human skin cells]. (2006) (0)
- Faculty Opinions recommendation of The adaptive value of circadian clocks: an experimental assessment in cyanobacteria. (2004) (0)
- Faculty Opinions recommendation of Circadian control of mRNA polyadenylation dynamics regulates rhythmic protein expression. (2013) (0)
- Circadian rhythms in hepatic Abcg5 and Abcg8 expression and biliary cholesterol secretion in mice (2018) (0)
- Faculty Opinions recommendation of Native molecule sequencing by nano-ID reveals synthesis and stability of RNA isoforms. (2020) (0)
- Selenium cysteine and epileptic seizures (2018) (0)
- PARP-1 drives slumber: A reciprocal relationship between sleep homeostasis and DNA damage repair. (2021) (0)
- Mice and Rats (0)
- Getting Surprising Answers to Unasked Questions (2017) (0)
- The coordination of circadian timing in brain and peripheral organs (2007) (0)
- Faculty Opinions recommendation of The neuropeptide PDF acts directly on evening pacemaker neurons to regulate multiple features of circadian behavior. (2009) (0)
- Faculty Opinions recommendation of Light regulates the cell cycle in zebrafish. (2003) (0)
- Faculty Opinions recommendation of Phosphorylation-dependent maturation of Neurospora circadian clock protein from a nuclear repressor toward a cytoplasmic activator. (2006) (0)
- Otto Naegeli Award 2002 honors the work of Prof. Walter Wahli. (2002) (0)
- Faculty Opinions recommendation of Xrn2 accelerates termination by RNA polymerase II, which is underpinned by CPSF73 activity. (2018) (0)
- Faculty Opinions recommendation of Phototransduction by retinal ganglion cells that set the circadian clock. (2002) (0)
- Nanotechnology: Weighing options (2008) (0)
- Gene expression and differentiation Editorial overview (1993) (0)
- Faculty Opinions recommendation of Coordinated regulation of neuronal mRNA steady-state levels through developmentally controlled intron retention. (2012) (0)
- Faculty Opinions recommendation of A myocardin-adjacent lncRNA balances SRF-dependent gene transcription in the heart. (2021) (0)
- [Circadian metabolism of medicaments: an important Geneva discovery]. (2006) (0)
- Faculty Opinions recommendation of Mammalian circadian period, but not phase and amplitude, is robust against redox and metabolic perturbations. (2017) (0)
- Faculty Opinions recommendation of The photopigment melanopsin is exclusively present in pituitary adenylate cyclase-activating polypeptide-containing retinal ganglion cells of the retinohypothalamic tract. (2002) (0)
- Circadian gene expression in mammals: Setting phase and amplitude (2003) (0)
- Faculty Opinions recommendation of Macromolecular assemblies of the mammalian circadian clock. (2017) (0)
- Differentiation and gene regulation. (1995) (0)
- Molecular biology: Telling time (2008) (0)
- Tissue-specific promotors regulate the expression of the mouse alpha-amylase gene amy-1a in the parotid gland and the liver. Abstr. (1982) (0)
- Differentiation and gene regulation The devil is in the detail (1998) (0)
- Biology: an expanding universe--or is convergence to a few principles around the corner? (1996) (0)
- factor 1 as a circadian transcription factor Differential display of DNA-binding proteins reveals heat-shock (2008) (0)
- Faculty Opinions recommendation of NAD+ Controls Circadian Reprogramming through PER2 Nuclear Translocation to Counter Aging. (2020) (0)
- Faculty Opinions recommendation of No transcription-translation feedback in circadian rhythm of KaiC phosphorylation. (2004) (0)
- Running head : Cardiac dysfunction in PAR bZip deficient mice (2010) (0)
- Faculty Opinions recommendation of Long-Distance Cooperative and Antagonistic RNA Polymerase Dynamics via DNA Supercoiling. (2019) (0)
- Methods for Analysing mRNA Expression (2004) (0)
- Structure and Tissue-Specific Expression of Members of the Mouse α-Amylase Multigene Family (1982) (0)
- Environmental sciences: Fresh data (2008) (0)
- Faculty Opinions recommendation of Acetylation of Cytidine in mRNA Promotes Translation Efficiency. (2019) (0)
- Faculty Opinions recommendation of Dissecting differential gene expression within the circadian neuronal circuit of Drosophila. (2010) (0)
- Faculty Opinions recommendation of Constant light desynchronizes mammalian clock neurons. (2005) (0)
- CHAPTER 36: HEPATIC CLOCK (2009) (0)
- Faculty Opinions recommendation of Disruption of mCry2 restores circadian rhythmicity in mPer2 mutant mice. (2002) (0)
- Faculty Opinions recommendation of Adult pancreatic beta-cells are formed by self-duplication rather than stem-cell differentiation. (2004) (0)
- Faculty Opinions recommendation of Asparagine hydroxylation of the HIF transactivation domain a hypoxic switch. (2002) (0)
- World Congress on Osteoporosis, Osteoarthritis and Musculoskeletal Diseases (WCO-IOF-ESCEO 2014): Plenary Lecture Abstracts (2014) (0)
- Faculty Opinions recommendation of Elucidating the ticking of an in vitro circadian clockwork. (2007) (0)
- Cycles of gene expression and genome response during mammalian tissue regeneration (2018) (0)
- …and another for molecular biologists (1981) (0)
- Planetary physics: Storm warning (2008) (0)
- Faculty Opinions recommendation of An integrated perfusion machine preserves injured human livers for 1 week. (2020) (0)
- Comparison of mRNA precursors in plasmacytomas producing closely related kappa chains. (1979) (0)
- Faculty Opinions recommendation of Distinct C/EBPalpha motifs regulate lipogenic and gluconeogenic gene expression in vivo. (2007) (0)
- Physical chemistry: Over ice (2008) (0)
- Faculty Opinions recommendation of Lin28 mediates the terminal uridylation of let-7 precursor MicroRNA. (2008) (0)
- Faculty Opinions recommendation of Circadian transcription depends on limiting amounts of the transcription co-activator nejire/CBP. (2007) (0)
- Faculty Opinions recommendation of Splice site m6A methylation prevents binding of U2AF35 to inhibit RNA splicing. (2021) (0)
- Faculty Opinions recommendation of Chronic circadian disturbance by a shortened light-dark cycle increases mortality. (2012) (0)
- Faculty Opinions recommendation of The Circadian Clock Improves Fitness in the Fruit Fly, Drosophila melanogaster. (2019) (0)
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