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employ cutting-edge single-cell and spatial omics technologies with bioinformatics and machine learning to decipher principles of gene regulation underlying cell identity and its disruption in human
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and LC-MS. Basic skills in computational protein structure analysis and bioinformatic techniques. Self-motivated, pro-active, team- and goal-oriented personality. Excellent communication skills
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methane concentrations Bioelectrochemical systems Sensitive oxygen measurement methods, including electrochemical microsensors and optodes Transcriptomic sequencing and bioinformatic analysis
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genomics * Bioinformatics and statistical analyses of next-generation sequencing data, particularly eDNA metabarcoding and/or shotgun data (illumina, nanopore) * Ecological data analyses and GIS, hereunder
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Genome integrity field, stem cell culture, light microscopy, bioinformatics will be considered an advantage. Strong communication and collaborative skills and an interest in working in an interdisciplinary
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bioinformatics A stimulating, inclusive, and international research environment with structured mentoring and career development support Competitive salary and social benefits according to the collective agreement
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successful candidate will join the Gas Hydrate Research Group, contributing to ongoing and future research activities focused on developing novel gas-hydrate processes for CO2 capture and sequestration
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, and model-based investigations. The candidate will explore and quantify how benthic processes influence the exchange of matter between sediment and water column in oxygen-depleted coastal waters
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will focus on: Expression, characterization and application of proteins suitable for REE recovery, available from UQ. Techno-economic evaluation of process options for REE recovery using proteins
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, including: Participate in the design and detailed engineering phases of up-scale microbial electrochemical reactors. Support commissioning, operation and testing of the up-scale microbial electrochemical