about
The B73 Maize Genome: Complexity, Diversity, and DynamicsGenome sequencing and analysis of the model grass Brachypodium distachyonSNP discovery via 454 transcriptome sequencingProgress toward understanding heterosis in crop plantsTranscriptomic shock generates evolutionary novelty in a newly formed, natural allopolyploid plantRefinement of light-responsive transcript lists using rice oligonucleotide arrays: evaluation of gene-redundancyGenetic control of maize shoot apical meristem architectureHigh-resolution genotyping via whole genome hybridizations to microarrays containing long oligonucleotide probesMu transposon insertion sites and meiotic recombination events co-localize with epigenetic marks for open chromatin across the maize genomeTissue specificity and evolution of meristematic WOX3 functionThe potential of genomics in plant systematicsThe roles of aldehyde dehydrogenases (ALDHs) in the PDH bypass of Arabidopsis.Laser-capture microdissection, a tool for the global analysis of gene expression in specific plant cell types: identification of genes expressed differentially in epidermal cells or vascular tissues of maize.The physical and genetic framework of the maize B73 genome.Loss of RNA-dependent RNA polymerase 2 (RDR2) function causes widespread and unexpected changes in the expression of transposons, genes, and 24-nt small RNAs.Maize inbreds exhibit high levels of copy number variation (CNV) and presence/absence variation (PAV) in genome content.DNA sequence-based "bar codes" for tracking the origins of expressed sequence tags from a maize cDNA library constructed using multiple mRNA sources.GRAMA: genetic mapping analysis of temperature gradient capillary electrophoresis data.Assessing probe-specific dye and slide biases in two-color microarray dataCytoplasmic regulation of the accumulation of nuclear-encoded proteins in the mitochondrial proteome of maize.Lateral roots affect the proteome of the primary root of maize (Zea mays L.).Isolation, characterization, and pericycle-specific transcriptome analyses of the novel maize lateral and seminal root initiation mutant rum1.The accumulation of abundant soluble proteins changes early in the development of the primary roots of maize (Zea mays L.).Gene discovery and annotation using LCM-454 transcriptome sequencing.Cell type-specific gene expression profiling in plants by using a combination of laser microdissection and high-throughput technologies.Laser microdissection of narrow sheath mutant maize uncovers novel gene expression in the shoot apical meristem.Global gene expression analysis of the shoot apical meristem of maize (Zea mays L.).Transcriptomic and proteomic analyses of pericycle cells of the maize primary root.Involving undergraduates in the annotation and analysis of global gene expression studies: creation of a maize shoot apical meristem expression databaseExpression and nucleotide diversity of the maize RIK gene.Microarray analysis of vegetative phase change in maize.Microdissection of shoot meristem functional domains.Punctate vascular expression1 is a novel maize gene required for leaf pattern formation that functions downstream of the trans-acting small interfering RNA pathway.Ontogeny of the maize shoot apical meristem.Diversity of maize shoot apical meristem architecture and its relationship to plant morphology.Genetic control of morphometric diversity in the maize shoot apical meristemRegulation of small RNA accumulation in the maize shoot apexParallel short sequence assembly of transcriptomesLaser microdissection-mediated isolation and in vitro transcriptional amplification of plant RNA.Direct calibration of PICKY-designed microarrays.
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American geneticist
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Patrick S Schnable
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Patrick S Schnable
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Patrick S. Schnable
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Patrick Schnable
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Patrick S Schnable
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0000-0001-9169-5204