| COURSE | TITLE | EFF YEAR | EFF TERM | DEPARTMENT | CREDIT HOURS | ||||
| CH388 | GENETICS | 2026 | 1 | Chemical and Biological Science and Engineering | 3.0 (BS=3.0, ET=0.0, MA=0.0) | ||||
| SCOPE | |||||||||
| Genetic analysis has transformed the ability to investigate organisms from single genes to complete genomes. This course examines the structure and function relationships of inheritance and genetic variation while introducing fundamental methodologies for the modern analysis of genes and genomes. Students will learn the fundamental principles of molecular genetics, heredity and genetic diseases, high throughput sequencing, and quantitative genetics. It is expected that students will enter with a basic understanding of the characteristics of life, and the nature of DNA & RNA organization, replication, and transcription. Students will develop problem-solving skills to extract and utilize genetic information for use in scientific research and medicine while considering the bioethics of this rapidly evolving field. | |||||||||
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| SPECIAL REQUIREMENTS: | |||||||||
| All cadets will complete a Mendelian Project. | |||||||||
| TYPE | COURSE | EFF YEAR | EFF TERM | TRACK | RED BOOK FLG |
| CO REQUISITE | |||||
| CH375 | 2005 | 2 | 1 | Y | |
| AYT | #SECT/SIZE | CPBLTY | ENRLD | WAIT | SEATS | CLOSED | DETAILS | ||
| 2026 - 2 | 2 | 18 | 36 | 35 | 0 | 1 | Y | Hours | |
| 2027 - 2 | 2 | 19 | 38 | 1 | 1 | 37 | Y | Hours | |
| 2028 - 2 | 2 | 19 | 38 | 0 | 0 | 38 | Y | Hours | |
| 2029 - 2 | 2 | 19 | 38 | 0 | 0 | 38 | N | Hours | |
| COURSE | TITLE | EFF YEAR | EFF TERM | DEPARTMENT | CREDIT HOURS | ||||
| CH388 | GENETICS | 2020 | 1 | Chemistry & Life Science | 3.0 (BS=3.0, ET=0.0, MA=0.0) | ||||
| SCOPE | |||||||||
| Genetics is the science of heredity. It is concerned with the physical and chemical properties an organism's genome, how the genome is transmitted from one generation to the next, and how genes are expressed in the development and function of an organism. Heredity is the process by which all living things produce offspring like themselves. This capacity for self-reproduction involves the transmission from parent to offspring of genetic information. This course is intended to develop an understanding the basic principles of genetics and to develop an ability to apply these principles to solve problems involving heredity. These genetic principles are built on a foundational understanding of DNA structure and replication, as well as basic cellular processes such as transcription and translation. Students will learn basic Mendelian genetics and progress to more complex genetic problems. These principles will be applied in the laboratory through the completion of a Mendelian genetics project. | |||||||||
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| SPECIAL REQUIREMENTS: | |||||||||
| All cadets will complete a Mendelian Project. | |||||||||
| TYPE | COURSE | EFF YEAR | EFF TERM | TRACK | RED BOOK FLG |
| CO REQUISITE | |||||
| CH375 | 2005 | 2 | 1 | Y | |
| COURSE | TITLE | EFF YEAR | EFF TERM | DEPARTMENT | CREDIT HOURS | ||||
| CH388 | GENETICS | 2013 | 1 | Chemistry & Life Science | 3.0 (BS=3.0, ET=0.0, MA=0.0) | ||||
| SCOPE | |||||||||
| Genetics is the science of heredity. It is concerned with the physical and chemical properties an organism?s genome, how the genome is transmitted from one generation to the next, and how genes are expressed in the development and function of an organism. Heredity is the process by which all living things produce offspring like themselves. This capacity for self-reproduction involves the transmission from parent to offspring of genetic information. This course is intended to develop an understanding the basic principles of genetics and to develop an ability to apply these principles to solve problems involving heredity. These genetic principles are built on a foundational understanding of DNA structure and replication, as well as basic cellular processes such as transcription and translation. Students will learn basic Mendelian genetics and progress to more complex genetic problems. These principles will be applied in the laboratory through the completion of a Mendelian genetics project. | |||||||||
|
|||||||||
| SPECIAL REQUIREMENTS: | |||||||||
| All cadets will complete a Mendelian Project. | |||||||||
| TYPE | COURSE | EFF YEAR | EFF TERM | TRACK | RED BOOK FLG |
| CO REQUISITE | |||||
| CH375 | 2005 | 2 | 1 | Y | |
| COURSE | TITLE | EFF YEAR | EFF TERM | DEPARTMENT | CREDIT HOURS | ||||
| CH388 | GENETICS | 2011 | 1 | Chemistry & Life Science | 3.0 (BS=0.0, ET=0.0, MA=0.0) | ||||
| SCOPE | |||||||||
| Genetics is the science of heredity. It is concerned with the physical and chemical properties an organism?s genome, how the genome is transmitted from one generation to the next, and how genes are expressed in the development and function of an organism. Heredity is the process by which all living things produce offspring like themselves. This capacity for self-reproduction involves the transmission from parent to offspring of genetic information. This course is intended to develop an understanding the basic principles of genetics and to develop an ability to apply these principles to solve problems involving heredity. These genetic principles are built on a foundational understanding of DNA structure and replication, as well as basic cellular processes such as transcription and translation. Students will learn basic Mendelian genetics and progress to more complex genetic problems. These principles will be applied in the laboratory through the completion of a Mendelian genetics project. | |||||||||
|
|||||||||
| SPECIAL REQUIREMENTS: | |||||||||
| All cadets will complete a Mendelian Project. | |||||||||
| TYPE | COURSE | EFF YEAR | EFF TERM | TRACK | RED BOOK FLG |
| CO REQUISITE | |||||
| CH375 | 2005 | 2 | 1 | Y | |
| COURSE | TITLE | EFF YEAR | EFF TERM | DEPARTMENT | CREDIT HOURS | ||||
| CH388 | GENETICS | 2004 | 1 | Chemistry & Life Science | 3.0 (BS=0.0, ET=0.0, MA=0.0) | ||||
| SCOPE | |||||||||
| Genetics is the science of heredity. It is concerned with the physical and chemical properties an organismęs genome, how the genome is transmitted from one generation to the next, and how genes are expressed in the development and function of an organism. Heredity is the process by which all living things produce offspring like themselves. This capacity for self-reproduction involves the transmission from parent to offspring of genetic information. This course is intended to develop an understanding the basic principles of genetics and to develop an ability to apply these principles to solve problems involving heredity. These genetic principles are built on a foundational understanding of DNA structure and replication, as well as basic cellular processes such as transcription and translation. Students will learn basic Mendelian genetics and progress to more complex genetic problems. These principles will be applied in the laboratory through the completion of a Mendelian genetics project. | |||||||||
|
|||||||||
| SPECIAL REQUIREMENTS: | |||||||||
| All cadets will complete a Mendelian Project. | |||||||||
| TYPE | COURSE | EFF YEAR | EFF TERM | TRACK | RED BOOK FLG |
| CO REQUISITE | |||||
| CH385 | 2004 | 2 | 1 | Y | |