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Updated in [February 21st, 2023]

Shomus Classical Genetics (SCG) provides learners with a comprehensive overview of the fundamentals of genetics. Learners can gain an understanding of Mendelian genetics, the chromosomal basis of inheritance, eukaryotic genome organization, and advanced genetics topics such as non-Mendelian inheritance, incomplete dominance, polygenic inheritance, multiple alleles, sex linkage, and epistasis. Learners can also gain an understanding of genetics problems such as dihybrid crosses, incomplete dominance, recessive epistasis, codominance, lethal genes, duplicate dominant epistasis, dominant recessive epistasis, polygenic inheritance, sex linked inheritance, and blood group problems. Additionally, learners can gain an understanding of pedigree analysis, including understanding family trees, pedigree charts, autosomal dominant and recessive pedigrees, and sex linked dominant and recessive pedigrees. Through this course, learners can gain a comprehensive understanding of the fundamentals of genetics and its related topics.

[Applications]
Upon completion of Shomus Classical Genetics (SCG), students can apply their knowledge to a variety of topics. They can use their understanding of Mendelian and non-Mendelian genetics to analyze inheritance patterns, identify genetic disorders, and understand the genetic basis of diseases. They can also use their knowledge of chromosomal basis of inheritance to understand the structure and function of chromosomes and nucleosomes. Additionally, they can use their understanding of pedigree analysis to interpret family trees and identify genetic disorders. Finally, they can use their knowledge of genetics problems to solve complex genetic problems.

[Career Paths]
From this course, learners can pursue careers in the field of genetics such as:

1. Genetic Counselor: Genetic counselors provide information and support to individuals and families who are at risk of, or have a family history of, inherited conditions. They help patients understand their genetic risks and make informed decisions about their health care. They also provide education and resources to help patients manage their conditions. This field is growing rapidly as more genetic tests become available and the demand for genetic counseling increases.

2. Geneticist: Geneticists study the structure and function of genes, and use this knowledge to understand how genetic variations can affect health and development. They use a variety of techniques, such as gene sequencing and bioinformatics, to analyze genetic data and develop new treatments for genetic diseases. This field is expected to continue to grow as new technologies and treatments are developed.

3. Molecular Biologist: Molecular biologists study the structure and function of molecules, such as DNA and proteins, and use this knowledge to understand how genetic information is passed from one generation to the next. They use a variety of techniques, such as gene sequencing and bioinformatics, to analyze genetic data and develop new treatments for genetic diseases. This field is expected to continue to grow as new technologies and treatments are developed.

4. Bioinformatician: Bioinformaticians use computer science and mathematics to analyze and interpret biological data. They use a variety of techniques, such as gene sequencing and bioinformatics, to analyze genetic data and develop new treatments for genetic diseases. This field is expected to continue to grow as new technologies and treatments are developed.