Mariel Vázquez | Academic Influence

Mariel Vázquez's AcademicInfluence.com Rankings

Mariel Vázquez

Mathematics

#4055

World Rank

#5842

Historical Rank

Measure Theory

#4421

World Rank

#5194

Historical Rank

mathematics Degrees

Mariel Vázquez

Biology

#6569

World Rank

#9317

Historical Rank

Mathematical Biology

#23

World Rank

#25

Historical Rank

biology Degrees

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Mathematics
Biology

Mariel Vázquez's Degrees

PhD Mathematics University of California, Berkeley
Masters Mathematics University of California, Berkeley
Bachelors Mathematics National Autonomous University of Mexico

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Why Is Mariel Vázquez Influential?

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According to Wikipedia, Mariel Vázquez is a Mexican mathematical biologist who specializes in the topology of DNA. She is a professor at the University of California, Davis, jointly affiliated with the departments of mathematics and of microbiology and molecular genetics.

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Mariel Vázquez'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

Knotting probability of DNA molecules confined in restricted volumes: DNA knotting in phage capsids (2002) (231)
DNA knots reveal a chiral organization of DNA in phage capsids. (2005) (204)
Investigation of viral DNA packaging using molecular mechanics models. (2002) (123)
Chromosomes are predominantly located randomly with respect to each other in interphase human cells (2002) (103)
Unlinking chromosome catenanes in vivo by site‐specific recombination (2007) (100)
Radiation-induced chromosome aberrations: insights gained from biophysical modeling. (2002) (98)
Tangle analysis of Gin site-specific recombination (2004) (59)
FtsK-dependent XerCD-dif recombination unlinks replication catenanes in a stepwise manner (2013) (55)
Tangle analysis of Xer recombination reveals only three solutions, all consistent with a single three-dimensional topological pathway. (2005) (55)
Applications of computational homology to the analysis of treatment response in breast cancer patients (2010) (36)
Random state transitions of knots: a first step towards modeling unknotting by type II topoisomerases. (2007) (36)
Chromosome spatial clustering inferred from radiogenic aberrations (2004) (35)
TangleSolve: topological analysis of site-specific recombination (2002) (34)
Tangle analysis of difference topology experiments: applications to a Mu protein-DNA complex (2007) (28)
Pathways of DNA unlinking: A story of stepwise simplification (2017) (27)
Reproducibility of 3D chromatin configuration reconstructions. (2014) (25)
The Rabl configuration limits topological entanglement of chromosomes in budding yeast (2019) (20)
Computer analysis of mFISH chromosome aberration data uncovers an excess of very complicated metaphases (2002) (20)
Comparing DNA Damage-Processing Pathways by Computer Analysis of Chromosome Painting Data (2004) (16)
Determining the topology of stable protein-DNA complexes. (2013) (15)
Using Graph Theory to Describe and Model Chromosome Aberrations (2002) (14)
Bounds for minimum step number of knots confined to tubes in the simple cubic lattice (2012) (13)
Current theoretical models fail to predict the topological complexity of the human genome (2015) (12)
New biologically motivated knot table. (2013) (11)
A note on band surgery and the signature of a knot (2018) (10)
Distance one lens space fillings and band surgery on the trefoil knot (2017) (10)
Mathematical Methods in Dna Topology: Applications to Chromosome Organization and Site-Specific Recombination (2009) (10)
SCHIP: statistics for chromosome interphase positioning based on interchange data (2005) (7)
Recent advances on the non-coherent band surgery model for site-specific recombination (2018) (7)
Fine structure of viral dsDNA encapsidation. (2019) (6)
Signed Unknotting Number and Knot Chirality Discrimination via Strand Passage(Statistical Physics and Topology of Polymers with Ramifications to Structure and Function of DNA and Proteins) (2011) (6)
The Tangle Model for Site-specific Recombination : A Computer Interface and the TnpI-IRS Recombination System (2007) (5)
Quantitative Study of the Chiral Organization of the Phage Genome Induced by the Packaging Motor (2020) (4)
Site-Specific Recombination Modeled as a Band Surgery: Applications to Xer Recombination (2014) (4)
Chromonic liquid crystals and packing configurations of bacteriophage viruses (2021) (4)
Ion-dependent DNA Configuration in Bacteriophage Capsids. (2020) (3)
A Liquid Crystal Model of Viral DNA Encapsidation (2017) (3)
A Symmetry Motivated Link Table (2018) (2)
説 DNA and Knot Theory (2012) (2)
Modeling RNA:DNA Hybrids with Formal Grammars (2020) (1)
UCSF Comprehensive Cancer Center) (2005) (1)
Tangle analysis of Gin site-specific recombination 567 (2004) (1)
The Rabl configuration limits topological entanglement of chromosomes in budding yeast (2019) (1)
Helical organization of DNA-like liquid crystal filaments in cylindrical viral capsids (2022) (0)
Pathways of DNA unlinking: A story of stepwise simplification (2017) (0)
Modeling the DNA Unknotting Action of Type II Topoisomerases (2011) (0)
Modelling State Transitions in Knot Space Motivated by Type II Topoisomerase Action (2007) (0)
A Random Spooling Model of P4 DNA Packing Organization (2009) (0)
COMPUTER MODELING OF DNA UNKNOTTING BY TYPE II TOPOISOMERASES (2004) (0)
Entanglement statistics of polymers in a lattice tube and unknotting of 4-plats (2022) (0)
104 MODELING DNA UNKNOTTING BY TYPE II TOPOISOMERASES. (2007) (0)
MODELING DNA UNKNOTTING BY TYPE II TOPOISOMERASES.: 104 (2007) (0)
Computer simulations show that the bacteriophage packaging motor induces a chiral organization of the genome (2019) (0)
Using machine learning to detect coronaviruses potentially infectious to humans (2022) (0)
BaMBA 9 Biology and Mathematics in the Bay AreaUC Davis-November 22 nd , 2014 Towards a Better Understanding of the Unclassified Variants of the BRCA 1 Gene (2014) (0)
DNA unlinking by Xer recombination (2013) (0)
Supplementary Materials : A Symmetry Motivated Link Table (2018) (0)

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