Stephen P. Bell

Q: What Schools Are Affiliated With Stephen P. Bell

Stephen P. Bell is affiliated with the following schools: University of California, Berkeley, Stanford University, Massachusetts Institute of Technology, Harvard University

Stephen P. Bell's AcademicInfluence.com Rankings

Stephen P. Bell

Biology

#3817

World Rank

#5782

Historical Rank

Biochemistry

#2355

World Rank

#2504

Historical Rank

biology Degrees

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Biology

Stephen P. Bell's Degrees

PhD Biochemistry University of California, Berkeley
Bachelors Biochemistry University of California, Berkeley

Why Is Stephen P. Bell Influential?

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According to Wikipedia, Stephen P. Bell is an American biochemist. Bell earned a doctorate from the University of California, Berkeley, and teaches at the Massachusetts Institute of Technology, where he specializes in researching DNA replication and replisomes. He was named a Howard Hughes Medical Investigator in 2000. In 2009, Bell received the NAS Award in Molecular Biology and was named a member of the National Academy of Sciences itself in 2017. MIT appointed Bell the Uncas and Helen Whitaker Professor of Biology in 2018. He is a member of the Editorial Board for Genes & Development.

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Stephen P. Bell'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

DNA replication in eukaryotic cells. (2002) (2197)
Genome-wide location and function of DNA binding proteins. (2000) (1534)
ATP-dependent recognition of eukaryotic origins of DNA replication by a multiprotein complex (1992) (1218)
Purification and biochemical characterization of the promoter-specific transcription factor, Sp1. (1986) (1027)
The histone modification pattern of active genes revealed through genome-wide chromatin analysis of a higher eukaryote. (2004) (854)
Components and Dynamics of DNA Replication Complexes in S. cerevisiae: Redistribution of MCM Proteins and Cdc45p during S Phase (1997) (792)
Nucleolar transcription factor hUBF contains a DNA-binding motif with homology to HMG proteins (1990) (566)
Genome-Wide Distribution of ORC and MCM Proteins in S. cerevisiae: High-Resolution Mapping of Replication Origins (2001) (441)
Yeast origin recognition complex functions in transcription silencing and DNA replication. (1993) (436)
Initiation of DNA replication in eukaryotic cells. (1997) (412)
Conserved nucleosome positioning defines replication origins. (2010) (353)
Polymerases and the Replisome: Machines within Machines (1998) (326)
Sequential ATP hydrolysis by Cdc6 and ORC directs loading of the Mcm2-7 helicase. (2006) (320)
The origin recognition complex: from simple origins to complex functions. (2002) (316)
Coordination of replication and transcription along a Drosophila chromosome. (2004) (314)
Functional cooperativity between transcription factors UBF1 and SL1 mediates human ribosomal RNA synthesis. (1988) (308)
Eukaryotic Origin-Dependent DNA Replication In Vitro Reveals Sequential Action of DDK and S-CDK Kinases (2011) (293)
Nucleosomes positioned by ORC facilitate the initiation of DNA replication. (2001) (280)
Chromosome Duplication in Saccharomyces cerevisiae (2016) (279)
The multidomain structure of Orc1 p reveals similarity to regulators of DNA replication and transcriptional silencing (1995) (276)
Differential assembly of Cdc45p and DNA polymerases at early and late origins of DNA replication. (1999) (272)
ATP hydrolysis by ORC catalyzes reiterative Mcm2-7 assembly at a defined origin of replication. (2004) (264)
Coordinate Binding of ATP and Origin DNA Regulates the ATPase Activity of the Origin Recognition Complex (1997) (252)
Drosophila ORC specifically binds to ACE3, an origin of DNA replication control element. (1999) (218)
Architecture of the yeast origin recognition complex bound to origins of DNA replication (1997) (210)
Interactions between two catalytically distinct MCM subgroups are essential for coordinated ATP hydrolysis and DNA replication. (2001) (203)
ORC localization in Drosophila follicle cells and the effects of mutations in dE2F and dDP. (1999) (193)
Localized H3K36 methylation states define histone H4K16 acetylation during transcriptional elongation in Drosophila (2007) (176)
Mapping of Meiotic Single-Stranded DNA Reveals Double-Strand-Break Hotspots near Centromeres and Telomeres (2007) (176)
Single-Molecule Studies of Origin Licensing Reveal Mechanisms Ensuring Bidirectional Helicase Loading (2015) (168)
Mec1 is one of multiple kinases that prime the Mcm2-7 helicase for phosphorylation by Cdc7. (2010) (167)
Interaction of the S-phase cyclin Clb5 with an "RXL" docking sequence in the initiator protein Orc6 provides an origin-localized replication control switch. (2004) (163)
Orc6 is required for dynamic recruitment of Cdt1 during repeated Mcm2-7 loading. (2007) (151)
Genomic profiling and expression studies reveal both positive and negative activities for the Drosophila Myb MuvB/dREAM complex in proliferating cells. (2007) (147)
Incorporation into the prereplicative complex activates the Mcm2-7 helicase for Cdc7-Dbf4 phosphorylation. (2009) (146)
Helicase loading at chromosomal origins of replication. (2013) (130)
A genomic view of eukaryotic DNA replication (2005) (128)
Assembly of alternative multiprotein complexes directs rRNA promoter selectivity. (1990) (123)
ATPase switches controlling DNA replication initiation. (2000) (120)
Subunit Organization of Mcm2-7 and the Unequal Role of Active Sites in ATP Hydrolysis and Viability (2008) (119)
Molecular mechanisms governing species-specific transcription of ribosomal RNA (1989) (108)
CDK prevents Mcm2-7 helicase loading by inhibiting Cdt1 interaction with Orc6. (2011) (107)
The Xenopus ribosomal gene enhancers bind an essential polymerase I transcription factor, xUBF. (1989) (99)
The B2 element of the Saccharomyces cerevisiae ARS1 origin of replication requires specific sequences to facilitate pre-RC formation (2001) (95)
Cell-cycle control of the establishment of mating-type silencing in S. cerevisiae. (2002) (95)
Mcm10 regulates DNA replication elongation by stimulating the CMG replicative helicase. (2017) (92)
Multiple functions for Mcm2-7 ATPase motifs during replication initiation. (2014) (90)
Visualization of replication initiation and elongation in Drosophila (2002) (87)
Regulation of origin recognition complex conformation and ATPase activity: differential effects of single‐stranded and double‐stranded DNA binding (2000) (83)
The dynamics of eukaryotic replication initiation: origin specificity, licensing, and firing at the single-molecule level. (2015) (79)
A conserved MCM single-stranded DNA binding element is essential for replication initiation (2014) (79)
ATP bound to the origin recognition complex is important for preRC formation (2001) (77)
Dynamics of Pre-replicative Complex Assembly* (2010) (74)
Multiple Cdt1 molecules act at each origin to load replication‐competent Mcm2–7 helicases (2011) (69)
Separation of DNA Replication from the Assembly of Break-Competent Meiotic Chromosomes (2012) (63)
Mechanism and Timing of Mcm2–7 Ring Closure During DNA Replication Origin Licensing (2017) (59)
Eukaryotic replicators and associated protein complexes. (1995) (52)
Genome-wide analysis of re-replication reveals inhibitory controls that target multiple stages of replication initiation. (2006) (52)
Nucleosomes influence multiple steps during replication initiation (2017) (47)
DNA replication and the cell cycle. (1992) (45)
Cell cycle execution point analysis of ORC function and characterization of the checkpoint response to ORC inactivation in Saccharomyces cerevisiae (2006) (44)
Mec 1 Is One of Multiple Kinases that Prime the Mcm 2-7 Helicase for Phosphorylation by Cdc 7 (2010) (35)
3 Assembly of Pre-replication Complexes (2006) (23)
Mapping Subunit Location on the Saccharomyces cerevisiae Origin Recognition Complex Free and Bound to DNA Using a Novel Nanoscale Biopointer* (2004) (22)
A conserved Mcm4 motif is required for Mcm2-7 double-hexamer formation and origin DNA unwinding (2019) (18)
Multiple kinases inhibit origin licensing and helicase activation to ensure reductive cell division during meiosis (2018) (18)
Replication origin–flanking roadblocks reveal origin-licensing dynamics and altered sequence dependence (2017) (14)
Orc 6 is required for dynamic recruitment of Cdt 1 during repeated Mcm 2 – 7 loading (2007) (14)
Putting Two Heads Together to Unwind DNA (2009) (14)
A helicase-tethered ORC flip enables bidirectional helicase loading (2021) (14)
Rethinking origin licensing (2017) (12)
DDK regulates replication initiation by controlling the multiplicity of Cdc45-GINS binding to Mcm2-7 (2020) (11)
Binding Proteins Genome-Wide Location and Function of DNA (2008) (11)
The replicon model and eukaryotic chromosomes. (1993) (10)
Terminating the replisome (2014) (8)
Multiple Cdt 1 molecules act at each origin to load replication-competent Mcm 2-7 helicases (2011) (7)
CDK prevents Mcm 2 – 7 helicase loading by inhibiting Cdt 1 interaction with Orc 6 (2011) (6)
Initiation-specific alleles of the Cdc45 helicase-activating protein (2019) (4)
Conserved nucleosome positioning defines replication origins Material (2010) (2)
Polymerases and the Replisome: Review Machines within Machines (1998) (1)
Transcriptional repression of CDC6 and SLD2 during meiosis is associated with production of short heterogeneous RNA isoforms (2018) (1)
PfMCM N-terminal domain without DNA (2014) (0)
Editor's evaluation: Molecular determinants of phase separation for Drosophila DNA replication licensing factors (2021) (0)
Regulation of replication origin licensing by ORC phosphorylation reveals a two-step mechanism for Mcm2–7 ring closing (2023) (0)
MCM-ssDNA co-crystal structure (2014) (0)
Bell and Kaguni Helicase Loading 1 Helicase Loading at Chromosomal Origins of Replication (2014) (0)
Transcriptional repression of CDC6 and SLD2 during meiosis is associated with production of short heterogeneous RNA isoforms (2018) (0)
7.28 Molecular Biology, Spring 2001 (2001) (0)
Dynamics of Pre-replicative Complex DNA and Chromosomes : (2010) (0)
Cell division and the replicon (2000) (0)
Assembly Dynamics of Pre-replicative Complex (2013) (0)
Architecture and Evolutionary Stability of Yeast Signaling Pathways (2007) (0)
Author response: A conserved MCM single-stranded DNA binding element is essential for replication initiation (2014) (0)
Author response: Nucleosomes influence multiple steps during replication initiation (2017) (0)
Single‐Molecule Studies of Eukaryotic DNA Replication (2016) (0)
Incorporation into the pre‐replication complex activates the Mcm2‐7 replicative DNA helicase for phosphorylation by the S‐phase kinase, Cdc7‐Dbf4 (2009) (0)
Distinct RPA functions promote eukaryotic DNA replication initiation and elongation (2022) (0)
In vitro helicase loading and ORC binding on replicative and non‐replicative ACSs (2011) (0)
EUKARYOTIC DNA REPLICATION & GENOME MAINTENANCE (2011) (0)
Transcriptional Silencing, DNA-Replication, and the Yeast Origin Recognition Complex (1994) (0)
Decision letter: Molecular determinants of phase separation for Drosophila DNA replication licensing factors (2021) (0)
ATP bound to the origin reca important for preRC formatic (2016) (0)
A role for the Speedy gene family in the early stages of mammalian meiosis (2008) (0)

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What Schools Are Affiliated With Stephen P. Bell?

Stephen P. Bell is affiliated with the following schools:

Stephen P. Bell's Academic­Influence.com Rankings