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Biology > Introduction to Biology/nVideo Lectures - Lecture 15/nTopics covered: /nRecombinant DNA 1/nInstructor: /nProf. Eric Lander/nTranscript - Lecture 15/nGood morning. So, I see we have a lot of parents here. How many parents have we got here? Welcome to the parents. How many of the parents have done the reading for today? [LAUGHTER] Good, because we'll call on the parents too, right? We'll...
Added: 518 days ago From mitlectures | global.duration: 3010.60 | Views: 7326 | Comments: 0
  

Biology > Introduction to Biology/nVideo Lectures - Lecture 16/nTopics covered: /nRecombinant DNA 2/nInstructor: /nProf. Eric Lander/nTranscript - Lecture 16/nGood morning. So, we are going to see if my voice holds up through this lecture today. It is a casualty of having been at Foxborough yesterday, and then staying up rather late watching the Red Sox game. On the whole, both seemed to have co...
Added: 518 days ago From mitlectures | global.duration: 3032.60 | Views: 4649 | Comments: 0
    

Biology > Introduction to Biology/nVideo Lectures - Lecture 17/nTopics covered: /nRecombinant DNA 3/nInstructor: /nProf. Eric Lander/n /nTranscript - Lecture 17/nGood morning. Good morning. I don't know about you, but I can't take too many more nights like this. I confess, I haven't gotten a thing done for so many nights in a row now, but what a game! How many of you saw the game? Excellent. Ver...
Added: 518 days ago From mitlectures | global.duration: 3020.80 | Views: 4171 | Comments: 0
     

Biology > Introduction to Biology/nVideo Lectures - Lecture 18/nTopics covered: /nRecombinant DNA 4/nInstructor: /nProf. Eric Lander
Added: 518 days ago From mitlectures | global.duration: 3022.20 | Views: 1808 | Comments: 0

A 3D animation illustrating the process by which a protein is mass-produced using spliced DNA and bacterial replication. For more animation samples, please visit: www.demonstratives.com.
Added: 153 days ago From crasx | global.duration: 275.00 | Views: 552 | Comments: 0

A 3D animation illustrating the process by which a protein is mass-produced using spliced DNA and bacterial replication. For more animation samples, please visit: www.demonstratives.com.
Added: 147 days ago From crasx | global.duration: 275.00 | Views: 493 | Comments: 0

Health Ontology Mapper (HOM) is an open source general purpose instance mapper that provides a framework for transforming and delivering data in specified ontologies. The technology was developed to address the need for normalizing legacy and established data encoding standards into a single database schema without modifying underlying source data. Join Rob Wynden, manager of R&D for academic rese...
Added: 121 days ago From recomdata | global.duration: 2061.06 | Views: 657 | Comments: 0

by Abnova - Automated protein synthesizer is an expert system in transcription, translation, and purification of recombinant protein. It is based on the eukaryotic translation apparatus of wheat germ. This high throughput system produces recombinant proteins in vitro. The generated proteins display foldings and biological functions similar to the mammalian counterparts. For more videos, visit Abn...
Added: 183 days ago From abnova | global.duration: 102.00 | Views: 676 | Comments: 0

A restriction enzyme (or restriction endonuclease) is an enzyme that cuts double-stranded DNA. The enzyme makes two incisions, one through each of the sugar-phosphate backbones (i.e., each strand) of the double helix without damaging the nitrogenous bases. The chemical bonds that the enzymes cleave can be reformed by other enzymes known as ligases, so that restriction fragments carved from differe...
Added: 1089 days ago From tubeman | global.duration: 46.97 | Views: 12588 | Comments: 0
   

Microbial populations achieve genetic diversity through horizontal gene transfer. Bacteria may transfer genes from one to another by conjugation, transformation, or transduction. Scientists often exploit these processes through recombinant DNA
Added: 1089 days ago From tubeman | global.duration: 401.83 | Views: 3872 | Comments: 0
  

Microbial populations achieve genetic diversity through horizontal gene transfer. Bacteria may transfer genes from one to another by conjugation, transformation, or transduction. Scientists often exploit these processes through recombinant DNA
Added: 1089 days ago From tubeman | global.duration: 404.27 | Views: 3529 | Comments: 0

Microbial populations achieve genetic diversity through horizontal gene transfer. Bacteria may transfer genes from one to another by conjugation, transformation, or transduction. Scientists often exploit these processes through recombinant DNA.
Added: 1089 days ago From tubeman | global.duration: 402.04 | Views: 2526 | Comments: 0

Microbial populations achieve genetic diversity through horizontal gene transfer. Bacteria may transfer genes from one to another by conjugation, transformation, or transduction. Scientists often exploit these processes through recombinant DNA
Added: 1089 days ago From tubeman | global.duration: 417.18 | Views: 2235 | Comments: 0

by Abnova - Precipitor™ system, an automated magnetic bead platform for high throughput precipitation and purification of proteins. It easily handles 16 different assays simultaneously and addresses the needs of rigorous proteomic screening and biomarker discovery applications such as immunoprecipitaton (IP, ChIP, RIP), recombinant protein purification, and protein-protein interaction.
Added: 183 days ago From abnova | global.duration: 159.00 | Views: 550 | Comments: 0
 
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Related Tags: Recombinant DNA Lecture bacteria protein ampicillin demonstratives Health Ontology Mapper HOM UCSF Rob Wynden i2b2 Abnova antibody synthesizer cell biology restriction genetictransfer geentictransfer high throughput precipitation purification of proteins