Michael P. Snyder
#171,587
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Michael P. Snyder's AcademicInfluence.com Rankings
Michael P. Snyderbiology Degrees
Biology
#14124
World Rank
#17796
Historical Rank
Computational Biology
#338
World Rank
#339
Historical Rank
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Biology
Why Is Michael P. Snyder Influential?
(Suggest an Edit or Addition)Michael P. Snyder'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
- RNA-Seq: a revolutionary tool for transcriptomics (2009) (11298)
- Functional profiling of the Saccharomyces cerevisiae genome (2002) (4225)
- Global analysis of protein phosphorylation in yeast (2005) (1006)
- Genomic analysis of regulatory network dynamics reveals large topological changes (2004) (1005)
- Unlocking the secrets of the genome (2009) (832)
- Protein chip technology. (2003) (789)
- Analysis of yeast protein kinases using protein chips (2000) (777)
- Subcellular localization of the yeast proteome. (2002) (740)
- Protein analysis on a proteomic scale (2003) (587)
- Large-scale analysis of the yeast genome by transposon tagging and gene disruption (1999) (548)
- Mitotic stability of yeast chromosomes: A colony color assay that measures nondisjunction and chromosome loss (1985) (421)
- Analyzing antibody specificity with whole proteome microarrays (2003) (271)
- Sexual dimorphism in mammalian gene expression. (2005) (262)
- SBF Cell Cycle Regulator as a Target of the Yeast PKC-MAP Kinase Pathway (1997) (260)
- Spa2p Interacts with Cell Polarity Proteins and Signaling Components Involved in Yeast Cell Morphogenesis (1998) (251)
- Regulation of Gene Expression by a Metabolic Enzyme (2004) (236)
- Pheromone-regulated Genes Required for Yeast Mating Differentiation (1998) (200)
- Protein microarray technology (2006) (199)
- Molecular Dissection of a Yeast Septin: Distinct Domains Are Required for Septin Interaction, Localization, and Function (2003) (194)
- Functional genomics of genes with small open reading frames (sORFs) in S. cerevisiae. (2006) (188)
- Bud-site selection and cell polarity in budding yeast. (2002) (177)
- Bent DNA at a yeast autonomously replicating sequence (1986) (152)
- Microarrays to characterize protein interactions on a whole‐proteome scale (2003) (147)
- Isolation of the gene encoding yeast DNA polymerase I (1985) (135)
- Charging it up: global analysis of protein phosphorylation. (2006) (133)
- Severe acute respiratory syndrome diagnostics using a coronavirus protein microarray. (2006) (127)
- Impact of Chromatin Structures on DNA Processing for Genomic Analyses (2009) (124)
- Differential Regulation of the Kar3p Kinesin-related Protein by Two Associated Proteins, Cik1p and Vik1p (1999) (122)
- Phosphorylation of γ-Tubulin Regulates Microtubule Organization in Budding Yeast (2001) (119)
- An integrated approach for finding overlooked genes in yeast (2002) (113)
- Proteomics: Protein complexes take the bait (2002) (112)
- Initiation of the TORC1-regulated G0 program requires Igo1/2, which license specific mRNAs to evade degradation via the 5'-3' mRNA decay pathway. (2010) (109)
- Emerging technologies in yeast genomics (2001) (105)
- Nuclear dot antigens may specify transcriptional domains in the nucleus (1993) (91)
- Negative regulation of calcineurin signaling by Hrr25p, a yeast homolog of casein kinase I. (2003) (89)
- TRIPLES: a database of gene function in Saccharomyces cerevisiae (2000) (81)
- A novel mitochondrial protein, Tar1p, is encoded on the antisense strand of the nuclear 25S rDNA. (2002) (81)
- Applications of DNA tiling arrays to experimental genome annotation and regulatory pathway discovery (2005) (71)
- "Omic" approaches for unraveling signaling networks. (2002) (69)
- Calixarene derivative as a tool for highly sensitive detection and oriented immobilization of proteins in a microarray format through noncovalent molecular interaction (2005) (66)
- Proteome chips for whole-organism assays (2006) (63)
- SPA1: A gene important for chromosome segregation and other mitotic functions in S. cerevisiae (1988) (59)
- Cytoskeletal activation of a checkpoint kinase. (2003) (57)
- Higher order structure is present in the yeast nucleus: autoantibody probes demonstrate that the nucleolus lies opposite the spindle pole body (1989) (54)
- Regulation of polarized growth initiation and termination cycles by the polarisome and Cdc42 regulators (2004) (50)
- The TRIPLES database: a community resource for yeast molecular biology (2002) (49)
- Transformation of Candida albicans with a synthetic hygromycin B resistance gene (2010) (45)
- Global analysis of protein function using protein microarrays (2005) (37)
- Arabidopsis Protein Microarrays for the High-Throughput Identification of Protein-Protein Interactions (2007) (37)
- Large-scale identification of genes important for apical growth in Saccharomyces cerevisiae by directed allele replacement technology (DART) screening (2002) (37)
- Proteomic-Based Detection of a Protein Cluster Dysregulated during Cardiovascular Development Identifies Biomarkers of Congenital Heart Defects (2009) (36)
- The alpha-factor receptor C-terminus is important for mating projection formation and orientation in Saccharomyces cerevisiae. (2002) (33)
- Myo2p, a class V myosin in budding yeast, associates with a large ribonucleic acid-protein complex that contains mRNAs and subunits of the RNA-processing body. (2008) (32)
- Insertional mutagenesis: transposon-insertion libraries as mutagens in yeast. (2002) (31)
- ChIP-Seq using high-throughput DNA sequencing for genome-wide identification of transcription factor binding sites. (2010) (28)
- YMD: a microarray database for large-scale gene expression analysis (2002) (23)
- The KNS1 gene of Saccharomyces cerevisiae encodes a nonessential protein kinase homologue that is distantly related to members of the CDC28/cdc2 gene family (1991) (21)
- A Pilot Study of Transcription Unit Analysis in Rice Using Oligonucleotide Tiling-path Microarray (2005) (18)
- A plethora of sites (2004) (18)
- The spindle pole body of yeast (1994) (17)
- Screening λgt11 Expression Libraries with Antibody Probes (1985) (16)
- Integrated analysis of co-expressed MAP kinase substrates in Arabidopsis thaliana (2009) (14)
- Carbohydrate analysis prepares to enter the "Omics" era. (2002) (11)
- Two short autoepitopes on the nuclear dot antigen are similar to epitopes encoded by the Epstein-Barr virus. (1995) (11)
- Yeast genomics: past, present, and future promise (2002) (9)
- Phosphorylation of yeast transcription factors correlates with the evolution of novel sequence and function. (2012) (9)
- γ-Tubulin of budding yeast (1999) (6)
- Control of Cell Polarity and Shape (2001) (6)
- Quaternionic multi-S4 instantons in general covariant SU(2) Yang-Mills and HP(n) σ-models☆ (1980) (6)
- 17 – λgt 11: Gene Isolation with Antibody Probes and Other Applications (1989) (5)
- A dynamic approach to mapping coordinates between microplates and microarrays (2002) (5)
- An integrated web interface for large-scale characterization of sequence data (2000) (4)
- A new journal for the post-genome era (2000) (3)
- A metadata framework for interoperating heterogeneous genome data using XML (2001) (3)
- Graphically-enabled integration of bioinformatics tools allowing parallel execution (2000) (3)
- Genome-wide maps of DNA-protein interactions using a yeast ORF and intergenic microarray (1999) (2)
- Making drug addicts out of yeast (2001) (2)
- Large-Scale Protein Localization in Yeast (2006) (1)
- Global Analysis of Phosphoregulatory Networks (2010) (1)
- 14 Yeast Protein Microarrays (2007) (1)
- Completion of a rough draft of the DNA sequence of human: an important milestone. (2000) (0)
- Computational Methods and Bioinformatic Tools (2004) (0)
- NuMA :An UnusuallyLong Coiled-Coil RelatedProteinintheMammalian Nucleus (1992) (0)
- Deciphering DNA Sequence Information (2011) (0)
- 1 Deciphering DNA Sequence Information (2011) (0)
- Microarray approaches to experimental genome annotation (2005) (0)
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What Schools Are Affiliated With Michael P. Snyder?
Michael P. Snyder is affiliated with the following schools:
