Michael W. Young
#5,584
Most Influential Person Now
American geneticist, chronobiologist
Michael W. Young's AcademicInfluence.com Rankings
Michael W. Youngbiology Degrees
Biology
#222
World Rank
#406
Historical Rank
#130
USA Rank
Genetics
#107
World Rank
#143
Historical Rank
#67
USA Rank
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Biology
Michael W. Young's Degrees
- PhD Genetics University of Texas at Austin
- Bachelors Biology University of Texas at Austin
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Why Is Michael W. Young Influential?
(Suggest an Edit or Addition)According to Wikipedia, Michael Warren Young is an American biologist and geneticist. He has dedicated over three decades to research studying genetically controlled patterns of sleep and wakefulness within Drosophila melanogaster.
Michael W. Young'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
- Time zones: a comparative genetics of circadian clocks (2001) (1106)
- double-time Is a Novel Drosophila Clock Gene that Regulates PERIOD Protein Accumulation (1998) (813)
- The Drosophila Clock Gene double-time Encodes a Protein Closely Related to Human Casein Kinase Iε (1998) (703)
- Loss of circadian behavioral rhythms and per RNA oscillations in the Drosophila mutant timeless. (1994) (606)
- A Role for the Segment Polarity Gene shaggy/GSK-3 in the Drosophila Circadian Clock (2001) (532)
- vrille, Pdp1, and dClock Form a Second Feedback Loop in the Drosophila Circadian Clock (2003) (505)
- Light-Induced Degradation of TIMELESS and Entrainment of the Drosophila Circadian Clock (1996) (493)
- Antineurogenic phenotypes induced by truncated Notch proteins indicate a role in signal transduction and may point to a novel function for Notch in nuclei. (1993) (445)
- Circadian Regulation of Gene Expression Systems in the Drosophila Head (2001) (442)
- Cycling vrille Expression Is Required for a Functional Drosophila Clock (1999) (439)
- Restoration of circadian behavioural rhythms by gene transfer in Drosophila (1984) (435)
- Sequence of the notch locus of Drosophila melanogaster: relationship of the encoded protein to mammalian clotting and growth factors (1986) (417)
- Molecular mechanisms and physiological importance of circadian rhythms (2019) (400)
- Isolation of timeless by PER Protein Interaction: Defective Interaction Between timeless Protein and Long-Period Mutant PERL (1995) (386)
- Rhythmic Expression of timeless: A Basis for Promoting Circadian Cycles in period Gene Autoregulation (1995) (379)
- Block in nuclear localization of period protein by a second clock mutation, timeless. (1994) (364)
- Mammalian Circadian Autoregulatory Loop A Timeless Ortholog and mPer1 Interact and Negatively Regulate CLOCK-BMAL1-Induced Transcription (1998) (357)
- Interplay of circadian clocks and metabolic rhythms. (2006) (344)
- Regulation of Nuclear Entry of the Drosophila Clock Proteins Period and Timeless (1996) (329)
- Positional Cloning and Sequence Analysis of the Drosophila Clock Gene, timeless (1995) (278)
- A light‐independent oscillatory gene mPer3 in mouse SCN and OVLT (1998) (250)
- A role for the Drosophila neurogenic genes in mesoderm differentiation (1991) (243)
- Ligand-induced cleavage and regulation of nuclear entry of Notch in Drosophila melanogaster embryos. (1998) (242)
- kuzbanian-mediated cleavage of Drosophila Notch. (2002) (241)
- Repeated gene families in Drosophila melanogaster. (1978) (234)
- Identification and characterization of a p53 homologue in Drosophila melanogaster. (2000) (233)
- Changes in abundance or structure of the per gene product can alter periodicity of the Drosophila clock (1987) (232)
- Mutation of the Human Circadian Clock Gene CRY1 in Familial Delayed Sleep Phase Disorder (2017) (231)
- Suppression of PERIOD protein abundance and circadian cycling by the Drosophila clock mutation timeless. (1995) (220)
- Structure and distribution of the Notch protein in developing Drosophila. (1989) (216)
- Product of per locus of Drosophila shares homology with proteoglycans (1986) (208)
- The molecular control of circadian behavioral rhythms and their entrainment in Drosophila. (1998) (207)
- Mutations altering the structure of epidermal growth factor-like coding sequences at the Drosophila Notch locus (1987) (202)
- Molecular genetics of a biological clock in Drosophila. (1984) (198)
- Phosphorylation of PERIOD Is Influenced by Cycling Physical Associations of DOUBLE-TIME, PERIOD, and TIMELESS in the Drosophila Clock (2001) (193)
- Medicine in the Fourth Dimension. (2019) (188)
- An unusual coding sequence from a Drosophila clock gene is conserved in vertebrates (1985) (186)
- PER-TIM Interactions in Living Drosophila Cells: An Interval Timer for the Circadian Clock (2006) (182)
- Posttranscriptional and Posttranslational Regulation of Clock Genes (2004) (180)
- The Notch locus of Drosophila melanogaster (1983) (177)
- A TIMELESS-Independent Function for PERIOD Proteins in the Drosophila Clock (2000) (169)
- Middle repetitive DNA: a fluid component of the Drosophila genome. (1979) (152)
- Guidelines for Genome-Scale Analysis of Biological Rhythms (2017) (146)
- Integration of Light and Temperature in the Regulation of Circadian Gene Expression in Drosophila (2007) (145)
- The Double-Time Protein Kinase Regulates the Subcellular Localization of the Drosophila Clock Protein Period (2005) (142)
- A Drosophila PIAS homologue negatively regulates stat92E (2001) (138)
- Structure of Full-length Drosophila Cryptochrome (2011) (134)
- insomniac and Cullin-3 Regulate Sleep and Wakefulness in Drosophila (2011) (131)
- Differing levels of dispersed repetitive DNA among closely related species of Drosophila. (1982) (131)
- Circadian rhythms in drosophila can be driven by period expression in a restricted group of central brain cells (1995) (129)
- Control of Daily Transcript Oscillations in Drosophila by Light and the Circadian Clock (2006) (127)
- Ontogeny of a biological clock in Drosophila melanogaster. (1992) (118)
- Single amino acid substitutions in EGF-like elements of notch and delta modify drosophila development and affect cell adhesion in vitro (1992) (112)
- Interactive features of proteins composing eukaryotic circadian clocks. (2014) (105)
- Nonessential Sequences, Genes, and the Polytene Chromosome Bands of DROSOPHILA MELANOGASTER. (1978) (99)
- In situ localization of the per clock protein during development of Drosophila melanogaster (1988) (92)
- Short-period mutations of per affect a double-time-dependent step in the Drosophila circadian clock (2000) (90)
- Flavin reduction activates Drosophila cryptochrome (2013) (88)
- Activating PER Repressor through a DBT-Directed Phosphorylation Switch (2008) (88)
- Life's 24-hour clock: molecular control of circadian rhythms in animal cells. (2000) (80)
- Isolation and analysis of six timeless alleles that cause short- or long-period circadian rhythms in Drosophila. (2000) (80)
- Post-translational enzyme activation in an animal via optimized conditional protein splicing. (2007) (79)
- Updated structure of Drosophila cryptochrome (2013) (77)
- The Drosophila clock gene per affects intercellular junctional communication (1987) (75)
- Nomadic gene families in Drosophila. (1981) (74)
- Control of Sleep by Cyclin A and Its Regulator (2012) (71)
- New short period mutations of the Drosophila clock gene per (1992) (69)
- Temperature compensation and temperature sensation in the circadian clock (2015) (66)
- Further evidence for function of the Drosophila Notch protein as a transmembrane receptor. (1993) (64)
- Restriction of P-element insertions at the Notch locus of Drosophila melanogaster (1987) (60)
- Molecular and statistical tools for circadian transcript profiling. (2005) (58)
- Specific genetic interference with behavioral rhythms in Drosophila by expression of inverted repeats. (2000) (57)
- Coordination between Differentially Regulated Circadian Clocks Generates Rhythmic Behavior. (2018) (55)
- An examination of the one cistron: one chromomere concept. (1974) (53)
- Drosophila TIM Binds Importin α1, and Acts as an Adapter to Transport PER to the Nucleus (2015) (52)
- Transposon-dependent mutant phenotypes at the Notch locus of Drosophila (1986) (48)
- A biological clock in Drosophila. (1985) (43)
- Circadian clock activity of cryptochrome relies on tryptophan-mediated photoreduction (2018) (41)
- Kinetics of Doubletime Kinase-dependent Degradation of the Drosophila Period Protein* (2011) (38)
- Changes in active site histidine hydrogen bonding trigger cryptochrome activation (2016) (38)
- Igloo, a GAP-43-related gene expressed in the developing nervous system of Drosophila. (1994) (37)
- The In(put)s and Out(put)s of the Drosophila Circadian Clock (2008) (34)
- Molecular anatomy of a light-sensitive circadian pacemaker in Drosophila. (1996) (33)
- CK1 and GSK3 in the Drosophila and mammalian circadian clock. (2003) (32)
- Time Travels: A 40-Year Journey from Drosophila's Clock Mutants to Human Circadian Disorders (Nobel Lecture). (2018) (32)
- Analysis of transcripts from two families of nomadic DNA. (1982) (27)
- Structure of an enclosed dimer formed by the Drosophila period protein. (2011) (27)
- Chronic social isolation signals starvation and reduces sleep in Drosophila (2021) (26)
- miR-124 Regulates Diverse Aspects of Rhythmic Behavior in Drosophila (2016) (26)
- Extrachromosomal DNA forms of copia-like transposable elements, F elements and middle repetitive DNA sequences in Drosophila melanogaster. Variation in cultured cells and embryos. (1985) (26)
- Marking Time for a Kingdom (2000) (24)
- A Key Temporal Delay in the Circadian Cycle of Drosophila Is Mediated by a Nuclear Localization Signal in the Timeless Protein (2011) (22)
- Studying circadian rhythm and sleep using genetic screens in Drosophila. (2015) (22)
- New Clock Mutations in Drosophila a (1991) (21)
- A PER/TIM/DBT interval timer for Drosophila's circadian clock. (2007) (21)
- CK1/Doubletime activity delays transcription activation in the circadian clock (2018) (20)
- Casein kinase Iε Does Not Rescue double-time Function in Drosophila Despite Evolutionarily Conserved Roles in the Circadian Clock (2008) (16)
- Molecular control of circadian behavioral rhythms. (1999) (14)
- Application of an ex vivo cellular model of circadian variation for bipolar disorder research: a proof of concept study (2013) (13)
- Erratum: The drosophila clock gene per affects intercellular junctional communication (Nature (1987) 328, (686-691)) (1992) (12)
- Molecular genetics of timing in intrinsic circadian rhythm sleep disorders (2002) (12)
- Per—no link to gap junctions (1992) (12)
- Circadian rhythms. Marking time for a kingdom. (2000) (11)
- The Drosophila genes timeless and period collaborate to promote cycles of gene expression composing a circadian pacemaker. (1996) (9)
- The Drosophila clock gene per affects intercellular junctional communication (1992) (9)
- An ultradian clock shapes genome expression in yeast. (2004) (8)
- Corrigendum: Structure of full-length Drosophila cryptochrome (2013) (8)
- The Right period for a Siesta (2008) (5)
- Adverse impact of polyphasic sleep patterns in humans: Report of the National Sleep Foundation sleep timing and variability consensus panel. (2021) (5)
- Mutation of the Human Circadian Clock Gene CRY 1 in Familial Delayed Sleep Phase Disorder Graphical (2017) (5)
- Diverse roles for the Notch receptor in the development of D. melanogaster. (1997) (5)
- The 2006 Pittendrigh/Aschoff Lecture: New Roles for Old Proteins in the Drosophila Circadian Clock (2007) (4)
- Big Ben Rings in a Lesson on Biological Clocks (2002) (4)
- Repeated DNA Sequences in Drosophila (1981) (3)
- As Time Flew By (2017) (2)
- CHAPTER 96 – Casein Kinase I and Regulation of the Circadian Clock (2003) (2)
- Chronic sleep loss disrupts rhythmic gene expression in Drosophila (2022) (2)
- Circadian Timekeeping in Drosophila (2001) (2)
- Time-restricted feeding prolongs lifespan in Drosophila in a peripheral clock-dependent manner (2020) (2)
- Reflections On Contributing To “ Big Discoveries ” About The Fly Clock : Our Fortunate Paths As PostDocs With 2017 Nobel Laureates (2018) (1)
- Circadian rhythms. Preface. (2005) (1)
- Human Anatomy, JA Gosling, PF Harris, I Whitmore, PLT Willan. Mosby, Philadelphia (2002), . Illus. 377 pages £33, ISBN: 0 7234 3195 7 (2003) (0)
- New Clock Mutations in Drosophikz ‘ (2006) (0)
- Molecular mechanisms and physiological importance of circadian rhythms (2019) (0)
- I. General Papers Ii. Applications 1. Mrna Target A. Dna Probe A. Rpl (0)
- Author response: CK1/Doubletime activity delays transcription activation in the circadian clock (2018) (0)
- A Role for the Drosophila Blood-Brain Barrier in the Regulation of Sleep (2021) (0)
- Nobel Laureate Series What Makes Us Tick? (2020) (0)
- factors.to mammalian clotting and growth melanogaster: relationship of the encoded Sequence of the notch locus of Drosophila (2013) (0)
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