Trends in Biotechnology

... desired DNA is expressed. It allows researchers to measure how well a gene is expressed. Here are some examples: ...

Biophotonics - lighting up the human body

... • Genetic code (DNA) describes fluorescent proteins • Green Fluorescent Protein (GFP) extracted from Jellyfish, and incorporated into other organisms by “genetic engineering” • A virus can add a code segment to your DNA GFP DNA 4 nanometer 10000 atoms 1/10000 of a hair ...

pGLO Transformation and Green Fluorescent Protein - Bio-Rad

... paper to collection tube where column seats to insure column flow • Rest pipet tip on side of column to avoid column bed disturbance ...

pGLO Transformation and Purification of Green

... paper to collection tube where column seats to insure column flow • Rest pipet tip on side of column to avoid column bed disturbance ...

lezione 3 bioluminescenza e proteine fluorescenti

... Green-‐FP was the first fluorescent protein discovered in 70’s. It was isolated from jellyfish where the fluorescence was stimulated by an energy transfer from the luciferase aequorin. In 1992, a fully-‐length clone encoding Aequorea GFP was prepared. Since then, GFP was expressed in many cells o ...

Thomas Lampert `06

... • The purpose of this experiment was to see if there where any differences in the localization of the CGI-112 protein when a different marker was attached. • In the images that follow you will see the HeLa cells fluorescing the ...

Function of Sequence Elements (PowerPoint) Madison 2006

... Reintroduce the modular nature of gene expression or gene Regulation. Regulation can be separated from the structural gene And that will emphasize where that protein is made is based on the enhancer, and which proteins is made depends on the structural Gene. ...

pGLO™ Transformation

... • Study of biological processes (example: synthesis of proteins) • Localization and regulation of gene expression ...

Green Fluorescent Protein: A Reporter Molecule

... Study of biological processes (example: synthesis of proteins) ...

Selectable marker For mammalian cells

... sequence Neomycin: Selectable marker for mammalian cells pUC: Origin of replication for bacterial cells ...

pGLO™ Transformation and Purification of Green Fluorescent

... across surface of Petri Dish • Don’t ever dig or penetrate surface of agar. – This would allow colonies to go “underground” • Spread in multiple directions ...

Analytical Sciences, Poster AS-101 Kinetics and identification of non

... stimulates the MAP kinase signaling pathway where MAPK8 is activated and in turn phosphorylates a number of transcription factors. The two other proteins are commonly applied as a protein expression tag (MBP) or fluorescent label (GFP). DARPins are a very promising class of nonimmunoglobulin binders ...

Glowing Fish (and other uses for green fluorescent protein)

... blue-green range, possibly to compensate for the abundance of particulate matter found in the water. The GFP is unique amongst natural pigments for its ability to autocatalyse its own chromophore, requiring only oxygen to complete its synthesis. In this way a single protein acts as both substrate an ...

A green glow

... of tumours in laboratory animals. In the same way, “labelling” neurons with GFP in young mice shows both their migration and their evolution in the brain, thus giving an indication on cerebral development. GFP is also used to visualize something even smaller than cells: proteins. Several techniques ...

Green Fluorescent Protein

... chromophore. But inside the protein, the chromophore is protected by releasing a less energetic photon of light, instead of releasing energy. Some important polar groups buried beside the chromophore are Gln69, Arg96, His148, Thr203, Ser205 and Glu222. Also, GFP’s dimeric form is highly influenced b ...

ampicillin resistance

... Growth requirements are well characterized Genome has been sequenced Molecular biology of E coli is well understood ...

Supporting Information Legends Figure S1. Yeast two

... region (CTR; lacking the N-terminal 49 amino acids) were cloned into bait vector pGBKT7. The sequences for the full-length mature S2-RNase and S3-RNase (without their respective leader peptides) were cloned into prey vector pGADT7. Three colonies of yeast Y2HGold carrying a pair of bait and prey con ...

Dancing Naked in the Mind Field

... 1)Gene of interest (GFP) is isolated and prepared by removal of introns 2)An appropriate plasmid vector is chosen 3)GFP gene and plasmid are each treated with the same restriction enzymes to make identical cuts 4)The DNA fragments are mixed together and complimentary ends are attracted by base-pairi ...

Document

... • Serves entire class of 32 students (up to 4 students per group) • Cost-effective • Success in student’s hands • Safe • Striking results! ...

Protein Tertiary and Quaternary Structure

... Structure Models β-globin 1A3N.pdb Green Fluorescent Protein (GFP) 1EMB.pdb ...

Extend Your Understanding of the Bacterial

... 3-dimentional structure; the other molecules the protein may interact with or bind to; the protein activity (i.e., enzymatic, catalytic, structural, signaling, etc.); where the protein is located, or expressed, within a cell or within tissues in a multi-cellular organism; and a broad range of other ...

GFP (Green fluorescent protein)

... • Someone might be saying – why?who cares about this little green protein from a jellyfish? But it turns out with amazingly useful in scientific research, because it allows us to look directly into the inner workings of cells. It is easy to find out where GFP is at any given time: you just have to s ...

Text S1. Supporting information for HA-IMPDH2

... revealed a diffuse, cytosolic distribution in control cells (Fig. S1D). MPA induced clustering of HAIMPDH2-GFP was apparent in cells expressing low, but not high, levels of transfected protein (Fig. S1D). Collectively these results suggested that the HA-IMPDH2-GFP construct would be suitable for cha ...

1 - www2

... protein between the High Molecular Weight Neurofilament subunit (NFH) and the Green Fluorescent Protein (GFP). This designed tool is helpful to have an insight, in vivo and in vitro, in the metabolism of neurofilaments (Letournel, 2006; Kushkuley, 2011). The aim of the project is to study and compar ...

lymanbutlerbiorad_transformation_lab

... • Study of biological processes (example: synthesis of proteins) • Localization and regulation of gene expression • Cell movement • Cell fate during development • Formation of different organs • Screenable marker to identify transgenic organisms ...

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Green fluorescent protein

The green fluorescent protein (GFP) is a protein composed of 238 amino acid residues (26.9 kDa) that exhibits bright green fluorescence when exposed to light in the blue to ultraviolet range. Although many other marine organisms have similar green fluorescent proteins, GFP traditionally refers to the protein first isolated from the jellyfish Aequorea victoria. The GFP from A. victoria has a major excitation peak at a wavelength of 395 nm and a minor one at 475 nm. Its emission peak is at 509 nm, which is in the lower green portion of the visible spectrum. The fluorescence quantum yield (QY) of GFP is 0.79. The GFP from the sea pansy (Renilla reniformis) has a single major excitation peak at 498 nm.In cell and molecular biology, the GFP gene is frequently used as a reporter of expression. In modified forms it has been used to make biosensors, and many animals have been created that express GFP as a proof-of-concept that a gene can be expressed throughout a given organism. The GFP gene can be introduced into organisms and maintained in their genome through breeding, injection with a viral vector, or cell transformation. To date, the GFP gene has been introduced and expressed in many Bacteria, Yeast and other Fungi, fish (such as zebrafish), plant, fly, and mammalian cells, including human. Martin Chalfie, Osamu Shimomura, and Roger Y. Tsien were awarded the 2008 Nobel Prize in Chemistry on 10 October 2008 for their discovery and development of the green fluorescent protein.

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Green fluorescent protein