Catalyst University
NAD: Structure and Reduction of NAD to NADH
NAD: Structure and Reduction of NAD to NADH
Catalyst University
Overview of Metabolism [Part 1] | Glycolysis, β-oxidation, Glycogen Metabolism, & Lactose Metabolism
This video is part of a series in which we do an overview of metabolism and pathways. Specifically, this video covers glycolysis, β-oxidation, glycogen metabolism, and lactose metabolism.
Science Buddies
How to Use the NCBI's Bioinformatics Tools and Databases
This video tutorial provides a quick overview of the NCBI website. We walk you through how to search for nucleotide and protein sequences using NCBI’s databases and explain what information is provided with each sequence. We also give...
Curated Video
Understanding DNA and the Genome: The Building Blocks of Life
This video provides an introduction to DNA and the genome. It explains what DNA is, the structure of DNA, and the different components that make up DNA. The video also describes how DNA is coiled up into structures known as chromosomes...
Catalyst University
Malate-Aspartate Shuttle Mitochondrial NADH Transport
Malate-Aspartate Shuttle Mitochondrial NADH Transport
Catalyst University
Primer Design for Cloning ENTIRE Gene Sequence
This video explains how to design primers for amplifying an entire gene of interest from start codon (ATG) to STOP codon. -Forward Primer -Reverse Primer -Ordering Primers using IDT
Catalyst University
Biotechniques | Principles of Primer Design for Full Gene Amplification
In this video, I will show you how to design primers to amplify the entire gene during a routine PCR.
Catalyst University
Nucleotide Metabolism | Purine Biosynthesis 1: Up to IMP
Nucleotide Metabolism | Purine Biosynthesis 1: Up to IMP
Catalyst University
Nucleotide Metabolism | Regulation of Purine Biosynthesis
Nucleotide Metabolism | Regulation of Purine Biosynthesis
Catalyst University
Nucleotide Metabolism | Purine Biosynthesis 2: IMP to AMP & GMP
Nucleotide Metabolism | Purine Biosynthesis 2: IMP to AMP & GMP
Catalyst University
Nucleotide Metabolism | Mechanism of OMP (Orotidylate) Decarboxylase
Nucleotide Metabolism | Mechanism of OMP (Orotidylate) Decarboxylase
Catalyst University
Nucleotide Metabolism | Regulation of Pyrimidine Biosynthesis
Nucleotide Metabolism | Regulation of Pyrimidine Biosynthesis
Catalyst University
Nucleotide Metabolism | Complicated Conversion of CTP/UTP to Thymine
Nucleotide Metabolism | Complicated Conversion of CTP/UTP to Thymine
Catalyst University
Overview of Metabolism [Part 3] | Acetyl-CoA & Anaplerotic Reactions
This video is part of a series in which we do an overview of metabolism and pathways. Specifically, this video covers pathways associated with the citric acid [Krebs] cycle, the fates of Acetyl-CoA, and some important anaplerotic reactions.
Catalyst University
Overview of Metabolism [Part 2] | The Citric Acid Cycle
This video is part of a series in which we do an overview of metabolism and pathways. Specifically, this video covers the citric acid [Krebs] cycle and the basics of NADH, FADH2, and electron transport.
JJ Medicine
Lynch Syndrome (Hereditary Non-Polyposis Colorectal Cancer) Genetics, Symptoms, Diagnosis, Treatment
Lynch Syndrome (Hereditary Non-Polyposis Colorectal Cancer) | Genetics, Symptoms, Diagnosis, Treatment Lynch Syndrome (also known as Hereditary Non-Polyposis Colorectal Cancer) is a hereditary condition involving increased risk of...
Curated Video
I WONDER - What Shape Is DNA?
This video is answering the question of what shape is DNA.
FuseSchool
BIOLOGY - Genetics - What is DNA
DNA (deoxyribose nucleic acid) is extremely important. All living things have DNA, or in the case of some viruses they have RNA instead. In eukaryotes, it is found within the nucleus and is arranged into chromosomes. DNA determines the...
msvgo
Structure of DNA
This nugget describes historical aspect of discovery of nucleic acid, basic structure of polynucleotide chain, Watson model of DNA and types of DNA.
Catalyst University
Transfer RNA (tRNA), Codons, and Anticodons
Transfer RNA (tRNA), Codons, and Anticodons
Professor Dave Explains
Mechanisms of DNA Damage and Repair
Remember how the Ninja Turtles came to be? Yes you do. It was the ooze! A radioactive ooze that mutated their DNA in just the right way to give them the ability to walk upright, talk, and do ninjutsu. Now, I'm as a big a Turtle fan as...