Microscopic Diversity: How and Why One Gene Creates Many Unique Proteins

Author: Jessica Cote

Editors: Zena Lapp, Christina Vallianatos, and Whit Froehlich

The Human Genome Project is one of the greatest scientific accomplishments in recent history— this international collaboration identified almost all of the ~20,500 genes in the human body, known collectively as the genome. Now that scientists know the details of these genes, they are better able to understand and treat human diseases associated with genetic factors. However, despite the immense effort put forth by over 30 research labs for 13 years (1990-2003), the information we gained from this project is limited. Genes serve as guidebooks for cells in the body to build proteins; genes themselves don’t perform the necessary cellular functions—proteins do. So, while scientists have now known the nitty-gritty of thousands of human genes for a while, the details of their protein products, known collectively as the proteome, are still quite puzzling.

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La ciencia tras bastidores: Correlación y causalidad

Escrito en inglés por Brian Moyers, traducido al español por Thibaut R. Pardo-García y editado por Attabey Rodríguez-Benítez.

Cuando hablamos sobre problemas científicos, la frase “correlación no implica causalidad” a veces es utilizada. Pero, ¿Qué significa esta frase? La ciencia hace declaraciones sobre causa y efecto. Por ejemplo, el fumar causa cáncer de pulmón, las emisiones de carbón causan cambios climáticos y altas temperaturas causan un aumento en violencia. Claramente, los científicos tienen alguna manera de inferir relaciones causales. Pero, ¿Cómo es que ellos luchan con la idea de que “Correlación no implica causalidad”? Si no utilizan correlación, ¿Qué herramientas utilizan para inferir causalidad?

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