42 multiple-sequence-alignment positions at University of Manchester in United Kingdom
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, driving performance by translating strategic plans into an aligned people agenda for delivery across a large and complex organisation. A successful track record of leading and developing a People Partnering
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the project and ensuring its timely completion. An ability to work to deadlines, be task focused and demonstrate excellent organisational skills and confidence in dealing with multiple tasks within a
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multiple members of the project team. This includes core administrative tasks linking with internal finance teams, the trial sponsors team, the clinical site, external clinical monitoring teams, contracts
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-to-end delivery of Unit M’s accelerator programmes Work with university and external stakeholders to align on strategy and execution Organise inspiring workshops, mentoring, pitch events, and investor
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for those who wish to gain experience in the field of change management. In this role you will be supporting the work of one of the Business Change Managers across multiple projects within the RLP. The role
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proteins to obtain new mechanistic insights. These findings will be clinically valuable in multiple collagen-diseases, including lung fibrosis and chronic skin wounds. You will interact closely with
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, Compliance efforts, and Energy Management practices are always aligned with the highest industry standards. Key Responsibilities: Lead and manage FMC teams, including professional, technical, and
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experience. Champions and role-models’ ways of working within immediate network and stakeholder groups that aligns to a people centred and inclusive culture. Collaboration – Is able to build strong and long
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team, you will play a pivotal role in delivering high-quality IT support and driving continuous service improvement across the University. You will lead and manage multiple projects and services, and be
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applicant will develop a coordinated control strategy of multiple QBs to maximise their usage in GB’s network, and will investigate the optimisation of sizing and location of power flow devices in the network