A) The use of natural resources to create new materials. B) The process of cloning organisms in laboratories. C) A field that combines principles of biology and engineering to design and construct biological devices. D) The study of natural biological systems.
A) A diagram showing the relationships between different species in an ecosystem. B) A series of genes that interact with each other to perform a specific function. C) A tool for mapping the human genome. D) A process of artificially inducing mutations in organisms.
A) Geology. B) Music theory. C) Engineering. D) Philosophy.
A) Traditional biology uses only natural materials. B) Synthetic biology focuses on designing and constructing new biological systems. C) Traditional biology studies existing biological systems. D) Synthetic biology solely relies on computer simulations.
A) Civil engineering. B) Medicine. C) Art history. D) Astronomy.
A) Gene transfer. B) Chemical alteration. C) Biological transformation. D) Physical replacement.
A) Combining multiple genes to create a new function. B) Enhancing the activity of a gene beyond its normal capacity. C) Disabling a specific gene to observe the effects on an organism. D) Moving a gene from one organism to another.
A) Studying the chemical reactions in inorganic substances. B) Creating new ecosystems in controlled environments. C) Altering metabolic pathways in organisms to produce desired compounds. D) Developing methods for purifying water sources.
A) A small, circular DNA molecule used to transfer genes between organisms. B) A protective coating for biological samples. C) A tool for measuring temperature in lab experiments. D) A unit of measurement for genetic mutations. |