Theoretical/Computational Biology?

[bor0000]

Hey, it seems that the major i chose in college is leaning towards that. and i need to start doing research this junior year, and my goal is to get published before the start of the senior year. There are several professors that use computer models for various biological things. For example the courses I am required to take right now are:
math methods in biology(course relies on ode's, its about the stability of various ode's but it's an easier version of the dynamics&chaos course, it's not very mathematical, but we use some computer language to write various programs and a paper/project at the end)
analysis1
probability(analysis based)
dynamics and chaos

would i have a better chance at being published if i tried to do research with one of the professors doing that theoretical stuff(i would possibly be writing computer programs)? or it's better for me to just try traditional biology lab research, i.e. where i would inject some chemicals in a rat and see if something happens to it?

 

[hhegab]

The field of theoretical/computational biology is a rapidly growing and exciting area of study. It combines mathematical and computational tools with biological concepts to gain a deeper understanding of complex biological systems. It's great to hear that you have chosen this as your major in college and are looking to get involved in research.

In terms of your goal to get published before your senior year, it's important to keep in mind that the publication process can take time and is dependent on many factors. However, getting involved in research early on is a great way to increase your chances of getting published.

Based on the courses you are currently taking, it seems like you have a strong foundation in mathematics and analysis, which are essential for theoretical/computational biology. Working with professors who use computer models in their research would definitely give you valuable experience and skills in this field. Writing computer programs and conducting simulations can be a powerful way to test hypotheses and make predictions about biological systems.

On the other hand, traditional biology lab research also has its merits. It allows for hands-on experience with experimental techniques and can provide a deeper understanding of biological processes. Both types of research have their own strengths and it ultimately depends on your interests and career goals.

My suggestion would be to explore both options and see which one resonates with you more. You could also consider combining both approaches in your research, such as using computer models to design experiments and then testing them in the lab. Whichever path you choose, make sure to communicate your passion and dedication to your research to potential mentors and collaborators. Best of luck in your research endeavors!