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tag plant biology cell molecular biology developmental biology neuroscience

Microfluidics: Biology’s Liquid Revolution
Laura Tran, PhD | Feb 26, 2024 | 8 min read
Microfluidic systems redefined biology by providing platforms that handle small fluid volumes, catalyzing advancements in cellular and molecular studies.
Top 7 in developmental biology
Bob Grant | Dec 17, 2010 | 3 min read
A snapshot of the most highly ranked articles in developmental biology, from Faculty of 1000
Top 7 in Developmental Biology
Edyta Zielinska | Jul 12, 2011 | 3 min read
A snapshot of the most highly ranked articles in developmental biology and related areas, from Faculty of 1000.
Collage of images including sperm, bacteria, coral, and an illustration of a researcher
Our Favorite Cell and Molecular Biology Stories of 2021
Jef Akst | Dec 2, 2021 | 3 min read
Beyond The Scientist’s coverage of COVID-19’s molecular underpinnings were many other stories highlighting the advances made in scientists’ understanding of the biology of cells.
Green and red fluorescent proteins in a zebrafish outline the animal’s vasculature in red and lymphatic system in green in a fluorescent image. Where the two overlap along the bottom of the animal is yellow.
Serendipity, Happenstance, and Luck: The Making of a Molecular Tool
Shelby Bradford, PhD | Dec 4, 2023 | 10+ min read
The common fluorescent marker GFP traveled a long road to take its popular place in molecular biology today.
a photograph of a Greenland shark
Isotopic Bomb Traces Are a Boon to Biological Dating
Shawna Williams | Feb 21, 2020 | 6 min read
The decades-old signature of nuclear testing can reveal the ages of organisms, or even individual cells.
Top 7 papers in cell biology
Jef Akst | Dec 5, 2010 | 3 min read
Just in time for ASCB -- see the cell biology articles most highly ranked by F1000
Thomas Gregor: Biological Quantifier
Anna Azvolinsky | Nov 1, 2013 | 3 min read
Assistant Professor, Physics, Princeton University. Age: 39
A Periodic Table for Biology
John Torday | Jun 20, 2004 | 5 min read
COOPERATIVE CELLS:Courtesy of Michael CarrollThe evolution of complex biologic organisms began with the symbiotic relationship between pro- and eukaryotes (I). This relationship gave rise to mitochondria (II), and the resulting diversity of unicellular organisms (III) led to their metabolic cooperativity (IV) mediated by ligand-receptor interactions and cell-cell signaling. Natural selection generated an increasing complexity (V). Failed homeostatic signaling (VI) recapitulates hylogeny/ontogeny

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