The use of living organisms or systems to develop products and technologies, often for medical or environmental applications.

A technique that involves altering the genetic material of organisms to achieve desired traits, such as disease resistance or improved yield.

The collection, transport, treatment, and disposal of waste materials, aimed at reducing their impact on health and the environment.

Strategies and practices aimed at reducing the risk of disease and promoting health, often through biotechnological interventions.

The process of developing new ideas or products that improve existing solutions or create entirely new markets.

A revolutionary genetic engineering tool that allows precise editing of DNA, enabling targeted modifications in organisms.

The moral implications and responsibilities associated with biotechnological advancements and their applications.

An early model of a product used to test and validate concepts before full-scale production.

The ability to maintain ecological balance by using resources wisely and reducing environmental impact.

Working together with others, such as industry professionals, to achieve common goals in biotechnology.

The practical uses of biotechnological methods in fields like medicine, agriculture, and environmental science.

Small-scale experiments designed to test specific hypotheses or techniques in a controlled environment.

A written document outlining a person's stance on a specific issue, supported by evidence and arguments.

Standardized procedures for assessing the performance and reliability of biotechnological products.

The process of inspecting and interpreting data to extract meaningful insights, often using statistical methods.

A cyclical approach to design where prototypes are continuously improved based on feedback and testing results.

The study of living organisms, encompassing various fields such as biology, ecology, and genetics.

The effect that human activities, including biotechnology, have on the natural environment.

The process of collecting materials and tools necessary for developing biotechnological solutions.

The abilities required to effectively communicate ideas and findings to an audience, essential for stakeholder engagement.

Personal records where students evaluate their learning experiences and understanding of course content.

The application of computer technology to manage and analyze biological data, crucial for genetic research.

The assessment of market conditions to understand demand, competition, and potential for biotechnological innovations.

The process of involving individuals or groups who have an interest in the outcomes of biotechnological projects.

The creation of a detailed plan outlining a biotechnological project, including objectives, methods, and expected outcomes.