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tag structural biology cell molecular biology genetics genomics

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.
Illustration of scientists collaborating
When Scientists Collaborate, Science Progresses
Meenakshi Prabhune, PhD | Dec 4, 2023 | 3 min read
Behind every successful scientist, there is another scientist.
DNA molecule.
Finding DNA Tags in AAV Stacks
Mariella Bodemeier Loayza Careaga, PhD | Mar 7, 2024 | 8 min read
Ten years ago, scientists put DNA barcodes in AAV vectors, creating an approach that simplified, expedited, and streamlined AAV screening. 
Infusion of Artificial Intelligence in Biology
Meenakshi Prabhune, PhD | Feb 23, 2024 | 10 min read
With deep learning methods revolutionizing life sciences, researchers bet on de novo proteins and cell mapping models to deliver customized precision medicines.
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.
Molecular Biology
The Scientist Staff | Oct 13, 1991 | 2 min read
Hot Papers Molecular Biology M.V. Milburn, L. Tong, A.M. deVos, A. Brünger, et al., "Molecular switch for signal transduction: structural differences between active and inactive forms of protooncogenic ras proteins," Science, 247:939-45, 1990. Sung-Hou Kim (University of California and Lawrence Berkeley Laboratory, Berkeley): "This paper provides three-dimensional structural information essential for (1) understanding the molecular switching mechanism for signal transduction i
Molecular Biology
Osamu Chisaka | Aug 16, 1992 | 1 min read
Osamu Chisaka (University of Utah School of Medicine, Salt Lake City): “This paper is the first report about mice with an inactivated Hox gene— mammalian homologues of fruit fly homeotic genes that define segmented structures of the body through the anterior-posterior axis. This paper has been 'hot' partly because there are 40 or so closely related Hox genes in the mammalian genome, and many researchers have been investigating their functions. In addition, this paper not only describ
Individual bacterial transcriptomes each plotted as a single point create a ring-shaped structure.
Rapidly Dividing Bacteria Coordinate Gene Expression and Replication
Kamal Nahas, PhD | Mar 15, 2024 | 4 min read
E. coli divides faster than it can replicate its genome, while simultaneously expressing its genes. Scientists recently revealed the intricate molecular coordination that makes this possible.
Glowing red DNA on bluish background
Redesigning Medicine Using Synthetic Biology
Alison Halliday, PhD, Technology Networks | Jun 21, 2023 | 5 min read
Drawing inspiration from nature, synthetic biology offers exciting opportunities to transform the future of medicine.
Molecular Biology
The Scientist Staff | Oct 25, 1992 | 2 min read
A. Simeone, D. Acampora, V. Nigro, A. Faiella, M. D'Esposito, A. Stornainolo, et al., "Differential regulation by retinoic acid of the homeobox genes of the four HOX loci in human embryonal carcinoma cells," Mechanisms of Development, 33:215-228, 1991. Edoardo Bonicelli (H. S. Raffaele, Istituto di Ricovero e Cura a Carattere Scientifico, Milan, Italy): "This paper put some order into the zoo of vertebrate homeobox genes controlling positional information necessary for the appropriate body s

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