Carolyn Lawrence-Dill
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American plant biologist
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Why Is Carolyn Lawrence-Dill Influential?
(Suggest an Edit or Addition)According to Wikipedia, Carolyn Joy Lawrence-Dill is an American plant biologist and academic administrator. She develops computational systems and tools to help plant science researchers use plant genetics and genomics data for basic biology applications that advance plant breeding.
Carolyn Lawrence-Dill'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
- A standardized kinesin nomenclature (2004) (750)
- MAKER-P: A Tool Kit for the Rapid Creation, Management, and Quality Control of Plant Genome Annotations1[W][OPEN] (2013) (315)
- PlantGDB: a resource for comparative plant genomics (2007) (262)
- MaizeGDB, the community database for maize genetics and genomics (2004) (193)
- MaizeGDB update: new tools, data and interface for the maize model organism database (2015) (173)
- Activities and specificities of CRISPR/Cas9 and Cas12a nucleases for targeted mutagenesis in maize (2018) (149)
- Maize Metabolic Network Construction and Transcriptome Analysis (2013) (120)
- Dyneins Have Run Their Course in Plant Lineage (2001) (112)
- MaizeGDB: The Maize Model Organism Database for Basic, Translational, and Applied Research (2008) (106)
- Comparative Plant Genomics Resources at PlantGDB1 (2005) (101)
- The effect of artificial selection on phenotypic plasticity in maize (2017) (98)
- The Quest for Understanding Phenotypic Variation via Integrated Approaches in the Field Environment1[OPEN] (2016) (95)
- The Locus Lookup tool at MaizeGDB: identification of genomic regions in maize by integrating sequence information with physical and genetic maps (2010) (87)
- MaizeGDB: curation and outreach go hand-in-hand (2011) (85)
- A quick guide to CRISPR sgRNA design tools (2016) (81)
- Maize GO Annotation—Methods, Evaluation, and Review (maize‐GAMER) (2018) (80)
- Achieving Plant CRISPR Targeting that Limits Off‐Target Effects (2016) (73)
- Maximum Likelihood Methods Reveal Conservation of Function Among Closely Related Kinesin Families (2002) (71)
- The Maize Genetics and Genomics Database. The Community Resource for Access to Diverse Maize Data1 (2005) (68)
- MaizeGDB's new data types, resources and activities (2007) (62)
- Translational Genomics for Bioenergy Production from Fuelstock Grasses: Maize as the Model Species (2007) (61)
- MaizeGDB becomes ‘sequence-centric’ (2009) (57)
- Response to Persistent ER Stress in Plants: A Multiphasic Process That Transitions Cells from Prosurvival Activities to Cell Death[OPEN] (2018) (53)
- High-frequency random DNA insertions upon co-delivery of CRISPR-Cas9 ribonucleoprotein and selectable marker plasmid in rice (2019) (50)
- An ontology approach to comparative phenomics in plants (2015) (49)
- Automated Update, Revision, and Quality Control of the Maize Genome Annotations Using MAKER-P Improves the B73 RefGen_v3 Gene Models and Identifies New Genes1[OPEN] (2014) (48)
- A Recommendation for Naming Transcription Factor Proteins in the Grasses (2009) (45)
- G-quadruplex (G4) motifs in the maize (Zea mays L.) genome are enriched at specific locations in thousands of genes coupled to energy status, hypoxia, low sugar, and nutrient deprivation. (2014) (38)
- Choosing a genome browser for a Model Organism Database: surveying the Maize community (2010) (38)
- Crowdsourcing image analysis for plant phenomics to generate ground truth data for machine learning (2018) (38)
- GenomeQC: a quality assessment tool for genome assemblies and gene structure annotations (2019) (35)
- Predicting Chromosomal Locations of Genetically Mapped Loci in Maize Using the Morgan2McClintock Translator (2006) (32)
- Maize chromosomal knobs are located in gene-dense areas and suppress local recombination (2012) (28)
- A high-resolution gene expression atlas links dedicated meristem genes to key architectural traits (2019) (28)
- MaizeGDB: The Maize Genetics and Genomics Database. (2016) (27)
- Maize Genomes to Fields: 2014 and 2015 field season genotype, phenotype, environment, and inbred ear image datasets (2018) (24)
- Utility of Climatic Information via Combining Ability Models to Improve Genomic Prediction for Yield Within the Genomes to Fields Maize Project (2021) (23)
- POPcorn: An Online Resource Providing Access to Distributed and Diverse Maize Project Data (2011) (22)
- Emerging semantics to link phenotype and environment (2015) (21)
- Effects of mild night chilling on respiration of expanding cotton leaves. (2000) (19)
- The MaizeGDB Genome Browser tutorial: one example of database outreach to biologists via video (2011) (18)
- High-throughput linkage analysis of Mutator insertion sites in maize. (2009) (14)
- Relative utility of agronomic, phenological, and morphological traits for assessing genotype‐by‐environment interaction in maize inbreds (2020) (13)
- Idea Factory: the Maize Genomes to Fields Initiative (2019) (11)
- Gene Ontology Meta Annotator for Plants (GOMAP) (2019) (11)
- Assessing plant performance in the Enviratron (2019) (10)
- Multi-source and ontology-based retrieval engine for maize mutant phenotypes (2011) (8)
- MaizeDIG: Maize Database of Images and Genomes (2019) (6)
- Gene Ontology Meta Annotator for Plants (GOMAP) (2021) (5)
- Computing on Phenotypic Descriptions for Candidate Gene Discovery and Crop Improvement (2020) (5)
- LumberJack: a heuristic tool for sequence alignment exploration and phylogenetic inference (2004) (5)
- A hypothesis-driven approach to assessing significance of differences in RNA expression levels among specific groups of genes (2017) (5)
- Plant Genome Research Outreach Portal. A Gateway to Plant Genome Research “Outreach” Programs and Activities1 (2004) (4)
- Automated Methods Enable Direct Computation on Phenotypic Descriptions for Novel Candidate Gene Prediction (2020) (4)
- NAPPN: Who We Are, Where We Are Going, and Why You Should Join Us! (2019) (4)
- 'Computable' Phenotypes Enable Comparative and Predictive Phenomics Among Plant Species and Across Domains of Life (2018) (4)
- Transdisciplinary Graduate Training in Predictive Plant Phenomics (2018) (2)
- Automated methods enable direct computation on phenotypic descriptions for novel candidate gene prediction (2019) (2)
- An Interdisciplinary Graduate Course for Engineers, Plant Scientists, and Data Scientists in the Area of Predictive Plant Phenomics (2017) (2)
- Board # 78 : Training Students with T-shaped Interdisciplinary Studies in Predictive Plant Phenomics (2017) (2)
- Maize GO Annotation - Methods, Evaluation, and Review (maize-GAMER) (2017) (2)
- Implementing bioinformatic workflows within the BioExtract Server (2008) (2)
- Editorial: Phenotyping; From Plant, to Data, to Impact and Highlights of the International Plant Phenotyping Symposium - IPPS 2018 (2020) (2)
- Semantic linking of phenotypes and environments (2015) (2)
- COGENFITO : a composite genotype finder tool for optimizing isoline selection in maize breeding schemes (2010) (1)
- Ten simple rules to ruin a collaborative environment (2022) (1)
- Creating Bioinformatic Workflows within the BioExtract Server (2007) (1)
- Plant Cytogenetics in Genome Databases (2012) (1)
- Databases and Data Mining (2009) (1)
- maize-GAMER Annotaions for maize.B73.AGPv4.r1 (2017) (1)
- Standardized genome-wide function prediction enables comparative functional genomics: a new application area for Gene Ontologies in plants (2021) (0)
- Original article MaizeGDB becomes 'sequence-centric' (2009) (0)
- Compare Expression Profiles for Pre-defined Gene Groups with C-REx (2019) (0)
- Reply: Specific Reasons to Favor Maize in the U.S. (2007) (0)
- Phenolog Identification Datasets and Supplemental Files (2019) (0)
- Genomes To Fields (G2F) (2016) (0)
- MaizeGDB - Past, Present, and Future (2011) (0)
- Perspective Finding Our Way through Phenotypes (2014) (0)
- Sowing the seeds of skepticism: Russian state news and the anti-GMO movement (2018) (0)
- A combined bioinformatic/molecular-based approach to understanding molecular motors in plants (2003) (0)
- How to discover branching phenotypes (2015) (0)
- Finding Our Way Through Phenotypes (2019) (0)
- Plant Databases and Data Analysis Tools (2013) (0)
- GMO News Sources (2017) (0)
- The Case for Retaining Natural Language Descriptions of Phenotypes in Plant Databases and a Web Application as Proof of Concept (2021) (0)
- Cross-disciplinary activities in Big Data for Agricultural Innovation (2017) (0)
- MaizeGDB , maize genetics cooperation and the ~2500MB B73 genome generated tsunami (2010) (0)
- The Agricultural Genome to Phenome Initiative (AG2PI): creating a shared vision across crop and livestock research communities (2022) (0)
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