Study about the colleges that provide genetic engineering degrees and find out vital facts about them, such as what you might learn and what you might accomplish with the education they provide.

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Genetic engineering-related programs –typically biology, biomedical engineering, bioengineering and biological sciences — exist at both the undergraduate and graduate levels, so aspiring genetic engineers have a variety of educational paths available to them. Most of these programs combine hands-on laboratory learning and classroom work in the biological sciences. Let’s take a look at which schools offer programs, what types of degrees they offer and what skills they teach.

Which Schools Have Genetic Engineering-Related Programs at the Undergraduate Level?

Most undergraduate programs that lead to jobs in genetic engineering are in the biology and medical fields; things like biological sciences or biomedicine. These schools are a good place to start:

• The University of Pennsylvania in Philadelphia has two relevant degree programs: a Bachelor of Science in Engineering (BSE) in Bioengineering and a Bachelor of Applied Science (BAS) in Biomedical Science
• The University of Texas at Austin has a Bachelor of Science in Biomedical Engineering program
• Case Western Reserve University boasts several biology programs, which offer a great foundation for further study in genetic engineering — a biology BS, a systems biology BS and a biology BA

Where Can I Get a Master’s Degree in Genetic Engineering?

Many entry-level positions in genetic engineering are available to people who hold a bachelor’s degree in one of the categories we detailed above. However, if you want to enter the field in a more advanced position, you may consider going for a master’s degree. These schools have the requisite programs:

• The Master of Science and Engineering program at Johns Hopkins offers a range of specializations, including one that is particularly relevant to genetic engineering — genomics and systems biology
• New Mexico State University offers a Master of Science in Biology degree program with a biotechnology concentration, which includes coursework in genomics
• Penn State’s Huck Institutes of Life Sciences has a Master of Biotechnology program

Are There Doctoral Degrees in Genetic Engineering?

Doctoral programs in biomedical engineering and genetics take a deeper dive into the material, and graduates from these programs are considered at the top of the field. A Ph.D. in the field also allows graduates to teach the material at the highest levels of education.

• Harvard Medical School has a Ph.D. program in biological and biomedical sciences
• For students interested in plant genetics, the University of Massachusetts – Amherst has a Ph.D. plant biology program that covers genomics and genetics
• Duke University offers a Ph.D. in Genetics and Genomics
• The University of California – Los Angeles also offers a Ph.D. program in human genetics

What Can I Do With a Degree in a Genetics-Related Field?

A degree in a genetics-related field may help you find work as a genetic engineer. Genetic engineers almost always work in laboratories and may find employment with pharmaceutical companies, university research endeavors and the federal government. Genetic engineers may work to make crops and livestock more resilient, find drugs to combat disease or identify genes that cause issues in human development. Jobs in the field are expected to be plentiful thanks to advances in medicine and biotechnology. Salaries for the majority of biomedical engineers range from $51,890 – $144,350, with a median annual salary of around $88,550, according to 2018 data from the U.S. Bureau of Labor Statistics.

genetic engineering universities in Australia

Here are the best global universities for molecular biology and genetics in Australia

• University of Queensland Australia.
• University of Melbourne.
• University of Sydney.
• University of Western Australia.
• Monash University.
• University of New South Wales.
• Australian National University.
• University of Adelaide.

DNA replication is the fundamental mechanism of genetic inheritance and an essential process for all cellular life. In cancer cells, replication is corrupted and replication forks frequently stall and collapse causing DNA damage and copying errors that drive tumorigenesis. As a result, cancer cells are heavily dependent on the pathways that protect and repair stalled replication forks. Disrupting these mechanisms can be selectively toxic to cancer cells. A key player in the regulation of DNA replication and repair is DDK (Dbf4-dependent kinase also known as Cdc7). DDK is frequently overexpressed in cancer, but its role during DNA replication and the repair of stalled replication forks has not been well characterised. Our research uses chemical genetic approaches to selectively target DDK and gain valuable insights into its requirements and molecular targets. This project aims to understand how DDK coordinates DNA replication and repair to help develop new therapeutic strategies to target these processes in cancer cells.

All endeavours are made to ensure location information for courses is up to date but please note they are subject to change.

The University reserves the right to withdraw any unit of study or program which it offers, to impose limitations on enrolment in any unit or program, and/or to vary arrangements for any program.

Students will be introduced to both theoretical and practical aspects of molecular genetics with a key focus on nuclei acid based technologies. Students will study the principles and applications of: enzymes and cloning vectors, southern blotting, polymerase chain reaction (PCR), genetic libraries, DNA clones and sequencing, and the use of radioactive substances. In addition, students will perform a range of mathematical calculations related to the manipulation and interpretation of laboratory data.

At Curtin, we understand that everyone’s study journey has been different.

You may have already studied some of the units (subjects) listed in your Curtin course, or you may have work experience that matches the degree requirements.

If this applies to you, you can apply for credit for recognised learning (CRL), which means your previous study is recognised and matched against a similar unit in your intended Curtin course.

A successful CRL application exempts you from having to complete certain units within your course and means you could finish your degree in a shorter amount of time.