41 multiple-sequence-alignment positions at UNIVERSITY OF SOUTHAMPTON in United Kingdom
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products. Own and coordinate content plans and workflows, embedding best practice and aligning with NIHR’s wider communications goals. Use data and user insights to inform decisions, drive performance, and
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Interest We welcome applications from all disciplines aligned with one of the strategic research priorities below: Clean Technologies: Net zero innovation, sustainable energy, circular economy Life Sciences
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to lead and drive change within projects, programmes or across the university to deliver long-term, strategically aligned outcomes. Ability to think from a user’s perspective and support change adoption. A
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, requiring the ability to self-organise, manage complex projects, and align your work with the strategic goals of the wider research and technical team. To informally discuss this position, please contact
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will evolve into an increasingly independent role, so you should possess the ability to self-organise and plan your schedule of work to align with the larger team goals. To informally discuss this
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Innovation (UKRI), focusing on populations with multiple long-term conditions. You will contribute to a social care initiative, developing and testing an AI-informed digital tool to help individuals with
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for diagnosing mental health conditions, particularly in individuals with multiple long-term conditions (MLTC). It aims to assess the potential for AI tools to exacerbate disparities based on sociodemographic
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translation and commercial readiness of our AI-informed digital tool for use in NHS and social care. This includes contributing to early work aligned with the Digital Technology Assessment Criteria (DTAC
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commercial insights and guidance to business units, ensuring alignment with procurement processes and legal compliance. Manage supplier relationships with a focus on performance, value delivery, and continuous
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multiple techniques. This will allow researchers to visualise and ‘manually weight’ different types of information from different sources globally and locally across a macromolecular structure, and pipe