DNA computing is an emerging branch of unconventional computing which uses DNA, biochemistry, and molecular biology hardware, instead of the traditional electronic computing. Research and development in this area concerns theory, experiments, and applications of DNA computing. Although the field originally started with the demonstration of a computing application by Len Adleman in 1994, it has now been expanded to several other avenues such as the development of storage technologies, nanoscale imaging modalities, synthetic controllers and reaction networks, etc. (Wikipedia).
Biology Quiz: What is DNA and what does it do?
Ready to make the grade in biology? Subscribe to our new Biology channel to get more quizzes and biology animations! https://bit.ly/3jHu5UP #biology #DNA #shorts
From playlist 1 Minute Biology Quizzes
Genetic Engineering | Genetics | Biology | Don't Memorise
Genetic Engineering is carried out by manipulating the genetic material of organisms. It mainly focuses on making products that would help largely in the fields like Medicine, Agriculture, Health and thus make the world a better place live in. To learn about Genetic Engineering in detail,
From playlist Biology
What Is Quantum Computing | Quantum Computing Explained | Quantum Computer | #Shorts | Simplilearn
🔥Explore Our Free Courses With Completion Certificate by SkillUp: https://www.simplilearn.com/skillup-free-online-courses?utm_campaign=QuantumComputingShorts&utm_medium=ShortsDescription&utm_source=youtube Quantum computing is a branch of computing that focuses on developing computer tech
From playlist #Shorts | #Simplilearn
Visualizing DNA in Virtual Reality
We've learned a lot about DNA, but sometimes the representations of DNA that we use to talk about it are not especially accurate. Everyone knows the popular image with the ladder rungs, but let's really get in there and visualize DNA in three dimensions, so that we can rotate the molecule,
From playlist Biochemistry
We've been hearing about DNA since the third grade, and we all know that it's a double helix with little ladder rungs. But now we are ready to understand this molecule on a more fundamental level, which will enable to us to understand how this molecule can serve as the genetic code. Let's
From playlist Biochemistry
Watch more videos on http://www.brightstorm.com/science/biology SUBSCRIBE FOR All OUR VIDEOS! https://www.youtube.com/subscription_center?add_user=brightstorm2 VISIT BRIGHTSTORM.com FOR TONS OF VIDEO TUTORIALS AND OTHER FEATURES! http://www.brightstorm.com/ LET'S CONNECT! Facebook â–º htt
From playlist Biology
This 3D scientific animation dynamically show a zoom in from a group of dividing cells to a close-up of a DNA molecule. ANS00167 Nucleus Medical Art is a leading creator and licensor of medical illustrations, 3D medical animations and interactive multimedia for medical devices, pharm
From playlist Nucleus Medical Animations in English
What is DNA and How Does it Work?
Click this link to take a survey about this video: https://www.surveymonkey.com/r/VM8CFFL Support Stated Clearly on Patreon: https://www.patreon.com/statedclearly Issues of genetics and DNA are constantly cropping up in the news from food production and health, to legal cases and ethics.
From playlist Most popular from Stated Clearly & Friends
Synthetic Biology and Materials Science Part 1: Biological Manufacturing
We've discussed some aspects of biotechnology already, but we have yet to discuss the promising field of synthetic biology. We are now able to manipulate biological organisms in ways that have technological applications, and one of the most important of these applications has to do with ma
From playlist Biology/Genetics
DNA Origami: Folded DNA as a Building Material for Molecular Devices - P. Rothemund - 5/25/16
"DNA Origami: Folded DNA as a Building Material for Molecular Devices" - Paul Rothemund, Research Professor of Bioengineering, Computing and Mathematical Sciences, and Computation and Neural Systems Learn more about: - Dr. Rothemund's Research: http://www.dna.caltech.edu/~pwkr - 2015 - 16
From playlist Research & Science
Recent Advances in the Use of DNA as a Building Material
(February 2, 2011) Paul Rothemund presents his work using DNA as a building material in molecules and how he thinks this can affect the future of science. Stanford University: http://www.stanford.edu/ School of Engineering: http://soe.stanford.edu/ Stanford Center for Professional Deve
From playlist Engineering
How You are Better than a Computer and How It Could Change Big Data Forever: DNA Data Storage 🧬
You are better than a computer. It might not be clear how you are better than a computer but the particular way humans and life forms in general excel at biological storage of information could change big data forever. So in this video I decide to give an introduction to the idea of inform
From playlist The New CHALKboard
Lec 4 | MIT Introduction to Bioengineering, Spring 2006
Biological Computing - Prof. Drew Endy View the complete course: http://ocw.mit.edu/20-010JS06 License: Creative Commons BY-NC-SA More information at http://ocw.mit.edu/terms More courses at http://ocw.mit.edu
From playlist MIT 20.010J Introduction to Bioengineering, Spring 2006
Lulu Qian - CS+Biology - Alumni College 2016
"A Future Written by Molecular Programmers" Lulu Qian, Assistant Professor of Bioengineering, is interested in engineering molecular systems with intelligent behavior: specifically, exploring the principles of molecular programs in nature with the end goal of recreating synthetic molecula
From playlist Talks and Seminars
DNA: Not Just for Life Anymore!
Our DNA stores the information that makes us who we are, but that's not all it can do! There are applications for DNA that go way beyond its use for life, like storing data and folding it into complicated shapes. Hosted by: Stefan Chin SciShow has a spinoff podcast! It's called SciShow T
From playlist Uploads
10A. Networks 2: Molecular Computing, Self-assembly, Genetic Algorithms, Neural Networks
MIT HST.508 Genomics and Computational Biology, Fall 2002 Instructor: George Church View the complete course: https://ocw.mit.edu/courses/hst-508-genomics-and-computational-biology-fall-2002/ YouTube Playlist: https://www.youtube.com/playlist?list=PLUl4u3cNGP61gaHWysmlYNeGsuUI8y5GV Today
From playlist HST.508 Genomics and Computational Biology, Fall 2002
DNA in Tight Spaces: From Nucleosome and Chromosomes to Origami and Viruses by Aleksei Aksimentiev
PROGRAM STATISTICAL BIOLOGICAL PHYSICS: FROM SINGLE MOLECULE TO CELL (ONLINE) ORGANIZERS: Debashish Chowdhury (IIT Kanpur), Ambarish Kunwar (IIT Bombay) and Prabal K Maiti (IISc, Bengaluru) DATE: 07 December 2020 to 18 December 2020 VENUE: Online 'Fluctuation-and-noise' are themes tha
From playlist Statistical Biological Physics: From Single Molecule to Cell (Online)
IMS Public Lecture: The Role of Mathematics and Computer Science in Molecular Biology Research
Martin Tompa, University of Washington, USA
From playlist Public Lectures