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RAP opportunity at National Institute of Standards and Technology NIST Microsystems for Massively Multiplexed Molecular Biology Location Material Measurement Laboratory, Biosystems and
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independent strategies (metagenomics, bioinformatics, synthetic biology) to determine microbial function from sequence data. Since this project is highly interdisciplinary, we are seeking applicants from
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impacts on the survival of both. The development of molecular biology techniques (PCR, metagenomics, biomarkers, and biosensors) has resulted in an explosion of new methods and strategies to generate
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of novel epigenetic editing methods to alter the DNA methylation patterns in genes associated with cancer development. key words Epigenetics; Epigenetics editing; Biology; Molecular; Genome editing; DNA
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be simulated by a microfluidic chip system and then analyzed? Because of the interdisciplinary nature of this work, we are seeking applicants from diverse fields including chemistry, biology, physics
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including chemical engineering, biomedical engineering, material science, electrical engineering, chemistry, mechanical engineering, physics, and biology. key words DNA; Drug delivery; Light scattering
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the objective of commercialization for AST [5]. Research supporting this application and others is now transitioning back to NIST in collaboration with the Molecular Cellular and Developmental Biology Department
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coverage and secondary ion images with submicrometer spatial resolution. The SIMS method can be applied to problems in materials science, semiconductor technology, organic coatings, biology, environmental