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The Art and Science of Synthetic Biology 
The Scientist | Nov 27, 2023 | 2 min read
Researchers get creative using bacterial bits and pieces to produce synthetic cells for studying cancer.
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.
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.
Advancing Drug Discovery by Employing Synthetic Biology Tools
Advancing Drug Discovery by Employing Synthetic Biology Tools
The Scientist | Oct 18, 2023 | 1 min read
In this webinar, learn about the origins of artificial gene circuits and how researchers currently use synthetic biology strategies to uncover new drugs. 
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.
Synthetic Biology
J. Craig Venter, George M. Church, and Jef Akst | Oct 1, 2011 | 4 min read
Learn about the field’s first genetic circuits and read forecasts by George M. Church and J. Craig Venter of a future where man-made organisms pump out novel fuels, drugs, and therapies.
Molecular Biology
The Scientist Staff | Oct 11, 1992 | 2 min read
A. Kakizuka, W.H. Miller, K. Umesono, R.P. Warrell, et al., "Chromosomal translocation t(15;17) in human acute promyelocytic leukemia fuses RAR with a novel putative transcription factor, PML," Cell, 66:663-74, 1991. Akira Kakizuka (The Salk Institute, La Jolla, Calif.): "Our paper described the genes located at each of the breakpoints of the t(15;17) translocation associated with human acute promyelocytic leukemia (APL). In addition to the karyotype abnormality, the patients with APL can be i
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. 
A person moving the hands of a vintage clock backwards.
Synthetic Circuits Reveal the Key to Rewinding the Cellular Clock
Charlene Lancaster, PhD | Mar 12, 2024 | 4 min read
Using a circuit-based system, scientists determined the ideal transcription factor levels to promote the successful reprogramming of fibroblasts into induced pluripotent stem cells.
Molecular Biology
The Scientist Staff | Nov 11, 1990 | 2 min read
(The Scientist, Vol:4, #22, pg. 20, November 12, 1990) (Copyright, The Scientist, Inc.) -------- M.P. Scott, J.W. Tamkun, G.W. Hartzell III, "The structure and function of the homeodomain," Biochimica et Biophysica Acta, 989, 25-48, 28 July 1989. Matthew P. Scott (Stanford University School of Medicine, Calif.): "The review is really a celebration of an exciting time in the study of the DNA-binding protein fragment called a homeodomain. People in dozens of labs are contributing to the fun, fin

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