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UBC Okanagan researchers have developed a 3D bio-printed model that closely mimics the complexity of natural lung tissue, an ...
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ZME Science on MSNScientists 3D Printed Microscopic Elephants and Barcodes Inside Cells for the First TimeYou may have heard about people making paintings on a grain of rice, but is it possible to create something inside a living cell, which is thousands of times smaller? Well, for the first time, a team ...
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AZoLifeSciences on MSNUnderstanding DNA's Complex 3D Architecture in the CellInvestigating chromatin's 3D architecture reveals its influence on gene regulation, shedding light on mechanisms underlying ...
Columbia University engineers 3D print self-assembling DNA - using biomolecular code to produce nanoscale devices at scale.
In biology textbooks and beyond, the human genome and DNA therein typically are taught in only one dimension. While it can be ...
Three-dimensional (3D) cancer models have emerged as pivotal tools in oncology research, offering a more accurate representation of tumor biology compared ...
New work from UC Davis and the University of Utah shows how the 3D structure of DNA inside a germ cell commits it to develop into a sperm cell. The discovery could improve understanding of fertility ...
These discoveries could have important medical implications, including diagnostic tests for causes of infertility linked to genome folding.
Researchers at Purdue University have developed a computational solution to this problem named NuFold, which will model 3D RNA structures that could expedite medical discovery decades ahead of ...
Researchers have revealed the structure of U11 snRNP – one of the five subunits of the minor spliceosome, which initiates the intron selection process.
In this new study, the researchers reveal the structure of U11 snRNP – one of the five subunits of the minor spliceosome, which initiates the intron selection process.
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