Of Sporks and Scorpions: Where Do Genes Come From? (Part 1)

Author: Bryan Moyers

Editors: Theresa Mau, Alex Taylor, and Kevin Boehnke

What exactly separates us from other animals?  For that matter, what makes any species or group of species special?  How is life so diverse?  How can cephalopods camouflage themselves so well, and how did platypuses become so bizarre?

Part of the answer is in genes.  Genes are sections of DNA that perform a specific function, usually after being translated into proteins by special cellular machinery.  Every species has genes that code for proteins, but different species have different numbers of genes. Humans have around 20,000, fruit flies have around 18,000, and the tiny water-flea has around 31,000 genes. Different sets of genes produce animals with different structures and functions.

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What Does Smoking Do to Your DNA?

Authors: Shweta Ramdas

Editors: Irene Park and Kevin Boehnke

Smoking 1
Figure 1. Smoking is known to cause at least 14 different types of cancers, although it is not clear how or why.


We have known tobacco to be a cause of many cancers for decades now. It is associated with it least 14 types of cancers (see Figure 1). Less understood is how tobacco causes cancer. The short answer—it causes mutations. Tobacco smoke is a mixture of many chemicals, including at least 60 carcinogens (cancer-causing chemicals).

A trans-national team of researchers has begun unearthing the distinct types of mutations caused by tobacco smoke to better understand the biological pathways leading to tobacco-induced cancer. They found that tobacco causes specific types of DNA damage in organs directly exposed to smoke (like the lungs) and that smoking tobacco generally leads to higher rates of mutation in all tissues. Understanding how the chemicals in tobacco smoke cause mutations can help scientists identify new and emerging mutagens and design better treatment strategies.

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Computing Levinthal’s Paradox: Protein Folding, Part 2

Author: Sarah Kearns

Editors: David Mertz, Zuleirys Santana Rodriguez, and Scott Barolo

In a previous post, we discussed how proteins fold into unique shapes that allow them to perform their biological functions. Through many physical and chemical properties, like hydrogen bonding and hydrophobicity, proteins are able to fold correctly. However, proteins can fold improperly, and sometimes these malformed peptides aggregate, leading to diseases like Alzheimer’s.

How can we figure out when the folding process goes wrong? Can we use computers to figure out the folding/misfolding process and develop methods to prevent or undo the damage done by protein aggregates?

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Homework: a Necessity or an Age-Old Brain Drain?

Author: Amira Aker

Editors: Shweta Ramdas, Zena Lapp, and David Mertz


Everyone hates homework. It’s boring, annoying, and takes you away from a million other things you’d rather be doing. But I always thought it was a necessary part of learning. How else could you learn without effort and a little struggle? As a Ph.D. student (so, somewhat academically inclined) and a mother of two, I was distraught by the growing phenomenon of schools banning homework. But the logical part of me thinks that there must be more to this than just pandering to student laziness and teacher burnout.

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