Polly Fordyce
#104,325
Most Influential Person Now
Researcher
Polly Fordyce's AcademicInfluence.com Rankings
Polly Fordyceengineering Degrees
Engineering
#8424
World Rank
#9960
Historical Rank
#1497
USA Rank
Biomedical Engineering
#937
World Rank
#954
Historical Rank
#82
USA Rank
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Engineering
Polly Fordyce's Degrees
- PhD Biomedical Engineering Stanford University
- Masters Biomedical Engineering Stanford University
Why Is Polly Fordyce Influential?
(Suggest an Edit or Addition)According to Wikipedia, Polly Fordyce is an Associate Professor of Genetics and Bioengineering and fellow of the ChEM-H Institute at Stanford University. Her laboratory's research focuses on developing and applying new microfluidic platforms for quantitative, high-throughput biophysics and biochemistry and single-cell genomics.
Polly Fordyce'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
- Individual dimers of the mitotic kinesin motor Eg5 step processively and support substantial loads in vitro (2006) (269)
- Simultaneous, coincident optical trapping and single-molecule fluorescence (2004) (223)
- De Novo Identification and Biophysical Characterization of Transcription Factor Binding Sites with Microfluidic Affinity Analysis (2010) (181)
- Stepping and Stretching (2003) (120)
- Structure of the transcriptional network controlling white‐opaque switching in Candida albicans (2013) (110)
- Combined optical trapping and single-molecule fluorescence (2003) (100)
- High-throughput chromatin accessibility profiling at single-cell resolution (2018) (94)
- Identification and characterization of a previously undescribed family of sequence-specific DNA-binding domains (2013) (70)
- Eg5 steps it up! (2006) (63)
- Discovering epistatic feature interactions from neural network models of regulatory DNA sequences (2018) (61)
- Revealing enzyme functional architecture via high-throughput microfluidic enzyme kinetics (2020) (54)
- Basic leucine zipper transcription factor Hac1 binds DNA in two distinct modes as revealed by microfluidic analyses (2012) (53)
- Comprehensive, high-resolution binding energy landscapes reveal context dependencies of transcription factor binding (2017) (47)
- How duplicated transcription regulators can diversify to govern the expression of nonoverlapping sets of genes (2014) (46)
- Programmable Microfluidic Synthesis of Over One Thousand Uniquely Identifiable Spectral Codes (2017) (46)
- Microfluidic affinity and ChIP-seq analyses converge on a conserved FOXP2-binding motif in chimp and human, which enables the detection of evolutionarily novel targets (2013) (43)
- Quantitative mapping of protein-peptide affinity landscapes using spectrally encoded beads (2018) (34)
- Double emulsion flow cytometry with high-throughput single droplet isolation and nucleic acid recovery† (2020) (34)
- An Open-Source, Programmable Pneumatic Setup for Operation and Automated Control of Single- and Multi-Layer Microfluidic Devices (2017) (32)
- Satb1 integrates DNA binding site geometry and torsional stress to differentially target nucleosome-dense regions (2019) (31)
- Double Emulsion Picoreactors for High-Throughput Single-Cell Encapsulation and Phenotyping via FACS (2020) (24)
- Multi-step Variable Height Photolithography for Valved Multilayer Microfluidic Devices. (2017) (18)
- Tuning T cell receptor sensitivity through catch bond engineering (2022) (16)
- Machine learning for microfluidic design and control (2022) (13)
- micrIO: An Open-Source Autosampler and Fraction Collector for Automated Microfluidic Input-Output (2019) (13)
- Diversification of DNA binding specificities enabled SREBP transcription regulators to expand the repertoire of cellular functions that they govern in fungi (2018) (12)
- High-Throughput Affinity Measurements of Transcription Factor and DNA Mutations Reveal Affinity and Specificity Determinants. (2020) (11)
- An open-source software analysis package for Microspheres with Ratiometric Barcode Lanthanide Encoding (MRBLEs) (2018) (11)
- Peptide library synthesis on spectrally encoded beads for multiplexed protein/peptide bioassays (2017) (10)
- High throughput and quantitative enzymology in the genomic era. (2021) (10)
- Live imaging of Aiptasia larvae, a model system for coral and anemone bleaching, using a simple microfluidic device (2019) (10)
- Fundamentals to function: Quantitative and scalable approaches for measuring protein stability. (2021) (7)
- Metasurface optofluidics for dynamic control of light fields (2022) (7)
- MRBLES 2.0: High-throughput generation of chemically functionalized spectrally and magnetically encoded hydrogel beads using a simple single-layer microfluidic device (2020) (7)
- Large-scale mapping and systematic mutagenesis of human transcriptional effector domains (2022) (6)
- How Will Kinetics and Thermodynamics Inform Our Future Efforts to Understand and Build Biological Systems? (2017) (6)
- High-throughput chromatin accessibility profiling at single-cell resolution (2018) (6)
- MRBLES 2.0: High-throughput generation of chemically functionalized spectrally and magnetically encoded hydrogel beads using a simple single-layer microfluidic device (2020) (6)
- DeCoDe: degenerate codon design for complete protein-coding DNA libraries (2019) (5)
- Hydraulic expulsion of tumbu fly larvae. (2014) (5)
- Why Do Long Zinc Finger Proteins have Short Motifs? (2019) (5)
- A bead-based method for high-throughput mapping of the sequence- and force-dependence of T cell activation (2022) (3)
- High-throughput binding affinity measurements for mutations spanning a transcription factor-DNA interface reveal affinity and specificity determinants (2020) (3)
- Discovering novel calcineurin inhibitors through quantitative mapping of protein-peptide affinity landscapes (2018) (3)
- Short tandem repeats bind transcription factors to tune eukaryotic gene expression (2022) (2)
- Quantitative analysis of ZFY and CTCF reveals dependent recognition of tandem zinc finger proteins (2021) (2)
- Large-scale mapping and mutagenesis of human transcriptional effector domains (2023) (2)
- Protocol for Peptide Synthesis on Spectrally Encoded Beads for MRBLE-pep Assays. (2020) (2)
- MRBLE-pep Measurements Reveal Accurate Binding Affinities for B56, a PP2A Regulatory Subunit (2020) (2)
- Short tandem repeats recruit transcription factors to tune eukaryotic gene expression (2022) (2)
- , PROCESSIVELY USES INTERNAL STRAIN TO WALK Stepping and Stretching : HOW KINESIN REGULATION : ENZYME CATALYSIS (2003) (2)
- Satb1integrates DNA sequence,shape, motif densityand torsional stressto differentially bind targets in nucleosome-dense regions (2018) (2)
- Systematic characterization of effect of flow rates and buffer compositions on double emulsion droplet volumes and stability (2022) (1)
- Structure-activity mapping of the peptide- and force-dependent landscape of T-cell activation (2021) (1)
- Leveraging Microfluidics for High‐Throughput Studies of Transcription Factor/DNA Binding (2020) (1)
- Live imaging of Aiptasia larvae, a model system for studying coral bleaching, using a simple microfluidic device (2018) (1)
- uPIC–M: Efficient and Scalable Preparation of Clonal Single Mutant Libraries for High-Throughput Protein Biochemistry (2021) (1)
- BET-seq: Binding energy topographies revealed by microfluidics and high-throughput sequencing. (2018) (1)
- Integrating systems biology data to yield functional genomics insights (2011) (1)
- On the dependent recognition of some long zinc finger proteins. (2023) (0)
- A Microfluidics-Based Assay for Mapping Connectivity in Highly Proficient Enzymes Reveals Functional Modularity (2019) (0)
- Lab on a Chip (2022) (0)
- A Microfluidics-Based Platform For Identification and Detailed Characterization of Transcription Factor Binding Sites (2010) (0)
- Systematic Characterization of Double Emulsion Droplets for Biological Applications (2022) (0)
- High-throughput, quantitative measurements reveal the biophysical mechanisms by which transcription factor mutations drive disease. (2023) (0)
- Beyond the DNA binding domain: How do intrinsically disordered regions within transcription factors impact DNA binding specificity? (2023) (0)
- Alleviating cell lysate-induced inhibition to enable RT-PCR from single cells in picoliter-volume double emulsion droplets (2022) (0)
- A High-Throughput Platform Characterizes Functional Effects of Transcription Factor Mutations (2020) (0)
- A microwell platform for high-throughput longitudinal phenotyping and selective retrieval of organoids (2022) (0)
- Joker de Bruijn: Sequence Libraries to Cover All k-mers Using Joker Characters (2017) (0)
- Optimized Sequence Library Design for Efficient In Vitro Interaction Mapping. (2017) (0)
- High throughput measurements of direct activation domain-coactivator interactions. (2023) (0)
- Dropception: Double Emulsion Single Cell Encapsulation and FACS (2020) (0)
- Bringing Enzymology into the Genomic Era: Developing and Deploying New Tools to Quantitatively Map Functional Connections Throughout an Enzyme (2019) (0)
- High-throughput functional assays of Max mutations reveal heterodimerization and DNA-binding preferences (2022) (0)
- Quantitative mapping of protein-peptide affinity landscapes reveals novel calcineurin inhibitors (2018) (0)
- A High-Throughput Assay Platform for Next-Generation Mechanistic Enzymology and Applications (2020) (0)
- Live imaging of Aiptasia larvae, a model system for coral and anemone bleaching, using a simple microfluidic device (2019) (0)
- High-throughput enzymology reveals mutations throughout a phosphatase that decouple catalysis and transition state analog affinity (2022) (0)
- Microfluidic encapsulation of photosynthetic cyanobacteria in hydrogel microparticles augments oxygen delivery to rescue ischemic myocardium. (2023) (0)
- Author response: Quantitative mapping of protein-peptide affinity landscapes using spectrally encoded beads (2018) (0)
- DeCoDe (2020) (0)
- Deep Learning Models Explore the Structural Effects of Transcription Factor-DNA Complexes on Binding Specificity (2019) (0)
- Single-molecule studies of kinesin family motor proteins (2006) (0)
- Quantitative mapping of 1 protein-peptide affinity landscapes 2 using spectrally encoded beads 3 (2019) (0)
- Optimized double emulsion flow cytometry with high-throughput single droplet isolation (2019) (0)
- Lab on a Chip Machine learning for microfluidic design and control (2022) (0)
- Double emulsions as a high-throughput enrichment and isolation platform for slower-growing microbes (2022) (0)
- A High-Throughput Platform for Probing Mechanisms of Transcription Factor-DNA Binding (2019) (0)
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Polly Fordyce is affiliated with the following schools:
