Difference between revisions of "Biotechnology"
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{{CAA courses}} | {{CAA courses}} | ||
− | [[Biotechnology]] (BIOT) is a science [[CAA]] course where students learn principles of cell biology and genetics. It is offered at [[San Rafael]] (First session only), [[Bristol]] and [[Haverford]] (Both sessions). It has a prerequisite of succesful completion of CTY''Online'''s Honors Biology, CTY's [[Anatomy and Physiology]] or at least a "B" in high school biology. | + | [[Biotechnology]] ([[BIOT]]) is a science [[CAA]] course where students learn principles of cell biology and genetics. It is offered at [[San Rafael]] (First session only), [[Bristol]] and [[Haverford]] (Both sessions). It has a prerequisite of succesful completion of CTY''Online'''s Honors Biology, CTY's [[Anatomy and Physiology]] or at least a "B" in high school biology. |
==Course Description== | ==Course Description== |
Revision as of 17:54, 2 February 2016
Biotechnology (BIOT) is a science CAA course where students learn principles of cell biology and genetics. It is offered at San Rafael (First session only), Bristol and Haverford (Both sessions). It has a prerequisite of succesful completion of CTYOnline's Honors Biology, CTY's Anatomy and Physiology or at least a "B" in high school biology.
Course Description
From the CTY Summer Catalog:
The Human Genome Project has already sequenced all of the approximately 20,000 genes in human DNA. How did scientists gather this information? What opportunities does it provide for curing congenital diseases or cancer? What ethical questions does it pose in terms of privacy rights or reproduction? This course introduces students to the biology, technology, and potential of genetics.
Students first review fundamental principles of cell biology and genetics, including mitosis, meiosis, and Mendelian inheritance. Next they turn to the structure and function of DNA and RNA, sources and types of mutations, and genetic biotechnology. In addition to medical applications, students also explore aquatic, agricultural, and industrial applications of biotechnology. Lab work includes isolating the DNA molecule from common bacteria and splitting genes using restriction enzymes. Students also conduct gel electrophoresis, model polymerase chain reaction (PCR), and examine DNA vaccines.
Students explore current research in molecular biology and use their new knowledge to deliberate on the significance of genetics in society and the future of genetic inquiry and technology.
Lab Fee: $65